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<span>Techniques</span> </div> </a> <button aria-controls="toc-Techniques-sublist" class="cdx-button cdx-button--weight-quiet cdx-button--icon-only vector-toc-toggle"> <span class="vector-icon mw-ui-icon-wikimedia-expand"></span> <span>Toggle Techniques subsection</span> </button> <ul id="toc-Techniques-sublist" class="vector-toc-list"> <li id="toc-Torch_brazing" class="vector-toc-list-item vector-toc-level-2"> <a class="vector-toc-link" href="#Torch_brazing"> <div class="vector-toc-text"> <span class="vector-toc-numb">2.1</span> <span>Torch brazing</span> </div> </a> <ul id="toc-Torch_brazing-sublist" class="vector-toc-list"> </ul> </li> <li id="toc-Furnace_brazing" class="vector-toc-list-item vector-toc-level-2"> <a class="vector-toc-link" href="#Furnace_brazing"> <div class="vector-toc-text"> <span class="vector-toc-numb">2.2</span> <span>Furnace brazing</span> </div> </a> <ul id="toc-Furnace_brazing-sublist" class="vector-toc-list"> </ul> </li> <li id="toc-Silver_brazing" class="vector-toc-list-item vector-toc-level-2"> <a class="vector-toc-link" href="#Silver_brazing"> <div class="vector-toc-text"> <span class="vector-toc-numb">2.3</span> <span>Silver brazing</span> </div> </a> <ul id="toc-Silver_brazing-sublist" class="vector-toc-list"> </ul> </li> <li id="toc-Braze_welding" class="vector-toc-list-item vector-toc-level-2"> <a class="vector-toc-link" href="#Braze_welding"> <div class="vector-toc-text"> <span class="vector-toc-numb">2.4</span> <span>Braze welding</span> </div> </a> <ul id="toc-Braze_welding-sublist" class="vector-toc-list"> </ul> </li> <li id="toc-Cast_iron_&quot;welding&quot;" class="vector-toc-list-item vector-toc-level-2"> <a class="vector-toc-link" href="#Cast_iron_&quot;welding&quot;"> <div class="vector-toc-text"> <span class="vector-toc-numb">2.5</span> <span>Cast iron "welding"</span> </div> </a> <ul id="toc-Cast_iron_&quot;welding&quot;-sublist" class="vector-toc-list"> </ul> </li> <li id="toc-Vacuum_brazing" class="vector-toc-list-item vector-toc-level-2"> <a class="vector-toc-link" href="#Vacuum_brazing"> <div class="vector-toc-text"> <span class="vector-toc-numb">2.6</span> <span>Vacuum brazing</span> </div> </a> <ul id="toc-Vacuum_brazing-sublist" class="vector-toc-list"> </ul> </li> <li id="toc-Dip_brazing" class="vector-toc-list-item vector-toc-level-2"> <a class="vector-toc-link" href="#Dip_brazing"> <div class="vector-toc-text"> <span class="vector-toc-numb">2.7</span> <span>Dip brazing</span> </div> </a> <ul id="toc-Dip_brazing-sublist" class="vector-toc-list"> </ul> </li> </ul> </li> <li id="toc-Filler_materials" class="vector-toc-list-item vector-toc-level-1 vector-toc-list-item-expanded"> <a class="vector-toc-link" href="#Filler_materials"> <div class="vector-toc-text"> <span class="vector-toc-numb">3</span> <span>Filler materials</span> </div> </a> <button aria-controls="toc-Filler_materials-sublist" class="cdx-button cdx-button--weight-quiet cdx-button--icon-only vector-toc-toggle"> <span class="vector-icon mw-ui-icon-wikimedia-expand"></span> <span>Toggle Filler materials subsection</span> </button> <ul id="toc-Filler_materials-sublist" class="vector-toc-list"> <li id="toc-Melting_behavior" class="vector-toc-list-item vector-toc-level-2"> <a class="vector-toc-link" href="#Melting_behavior"> <div class="vector-toc-text"> <span class="vector-toc-numb">3.1</span> <span>Melting behavior</span> </div> </a> <ul id="toc-Melting_behavior-sublist" class="vector-toc-list"> </ul> </li> <li id="toc-Interaction_with_base_metals" class="vector-toc-list-item vector-toc-level-2"> <a class="vector-toc-link" href="#Interaction_with_base_metals"> <div class="vector-toc-text"> <span class="vector-toc-numb">3.2</span> <span>Interaction with base metals</span> </div> </a> <ul id="toc-Interaction_with_base_metals-sublist" class="vector-toc-list"> </ul> </li> </ul> </li> <li id="toc-Flux" class="vector-toc-list-item vector-toc-level-1 vector-toc-list-item-expanded"> <a class="vector-toc-link" href="#Flux"> <div class="vector-toc-text"> <span class="vector-toc-numb">4</span> <span>Flux</span> </div> </a> <ul id="toc-Flux-sublist" class="vector-toc-list"> </ul> </li> <li id="toc-Atmosphere" class="vector-toc-list-item vector-toc-level-1 vector-toc-list-item-expanded"> <a class="vector-toc-link" href="#Atmosphere"> <div class="vector-toc-text"> <span class="vector-toc-numb">5</span> <span>Atmosphere</span> </div> </a> <ul id="toc-Atmosphere-sublist" class="vector-toc-list"> </ul> </li> <li id="toc-Preforms" class="vector-toc-list-item vector-toc-level-1 vector-toc-list-item-expanded"> <a class="vector-toc-link" href="#Preforms"> <div class="vector-toc-text"> <span class="vector-toc-numb">6</span> <span>Preforms</span> </div> </a> <ul id="toc-Preforms-sublist" class="vector-toc-list"> </ul> </li> <li id="toc-Safety" class="vector-toc-list-item vector-toc-level-1 vector-toc-list-item-expanded"> <a class="vector-toc-link" href="#Safety"> <div class="vector-toc-text"> <span class="vector-toc-numb">7</span> <span>Safety</span> </div> </a> <ul id="toc-Safety-sublist" class="vector-toc-list"> </ul> </li> <li id="toc-See_also" class="vector-toc-list-item vector-toc-level-1 vector-toc-list-item-expanded"> <a class="vector-toc-link" href="#See_also"> <div class="vector-toc-text"> <span class="vector-toc-numb">8</span> <span>See also</span> </div> </a> <ul id="toc-See_also-sublist" class="vector-toc-list"> </ul> </li> <li id="toc-References" class="vector-toc-list-item vector-toc-level-1 vector-toc-list-item-expanded"> <a class="vector-toc-link" href="#References"> <div class="vector-toc-text"> <span class="vector-toc-numb">9</span> <span>References</span> </div> </a> <ul id="toc-References-sublist" class="vector-toc-list"> </ul> </li> <li id="toc-Further_reading" class="vector-toc-list-item vector-toc-level-1 vector-toc-list-item-expanded"> <a class="vector-toc-link" href="#Further_reading"> <div class="vector-toc-text"> <span class="vector-toc-numb">10</span> <span>Further reading</span> </div> </a> <ul id="toc-Further_reading-sublist" class="vector-toc-list"> </ul> </li> <li id="toc-External_links" class="vector-toc-list-item vector-toc-level-1 vector-toc-list-item-expanded"> <a class="vector-toc-link" href="#External_links"> <div class="vector-toc-text"> <span class="vector-toc-numb">11</span> <span>External links</span> </div> </a> <ul id="toc-External_links-sublist" class="vector-toc-list"> </ul> </li> </ul> </div> </div> </nav> </div> </div> <div class="mw-content-container"> <main id="content" class="mw-body"> <header class="mw-body-header vector-page-titlebar"> <nav aria-label="Contents" class="vector-toc-landmark"> <div id="vector-page-titlebar-toc" class="vector-dropdown vector-page-titlebar-toc vector-button-flush-left" > <input type="checkbox" id="vector-page-titlebar-toc-checkbox" role="button" aria-haspopup="true" data-event-name="ui.dropdown-vector-page-titlebar-toc" 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mw-list-item"><a href="https://ca.wikipedia.org/wiki/Soldadura_forta" title="Soldadura forta – Catalan" lang="ca" hreflang="ca" data-title="Soldadura forta" data-language-autonym="Català" data-language-local-name="Catalan" class="interlanguage-link-target"><span>Català</span></a></li><li class="interlanguage-link interwiki-da mw-list-item"><a href="https://da.wikipedia.org/wiki/Slaglodning" title="Slaglodning – Danish" lang="da" hreflang="da" data-title="Slaglodning" data-language-autonym="Dansk" data-language-local-name="Danish" class="interlanguage-link-target"><span>Dansk</span></a></li><li class="interlanguage-link interwiki-de mw-list-item"><a href="https://de.wikipedia.org/wiki/Hartl%C3%B6ten" title="Hartlöten – German" lang="de" hreflang="de" data-title="Hartlöten" data-language-autonym="Deutsch" data-language-local-name="German" class="interlanguage-link-target"><span>Deutsch</span></a></li><li class="interlanguage-link interwiki-es mw-list-item"><a href="https://es.wikipedia.org/wiki/Soldadura_fuerte" title="Soldadura fuerte – Spanish" lang="es" hreflang="es" data-title="Soldadura fuerte" data-language-autonym="Español" data-language-local-name="Spanish" class="interlanguage-link-target"><span>Español</span></a></li><li class="interlanguage-link interwiki-fa mw-list-item"><a href="https://fa.wikipedia.org/wiki/%D9%84%D8%AD%DB%8C%D9%85%E2%80%8C%DA%A9%D8%A7%D8%B1%DB%8C_%D8%B3%D8%AE%D8%AA" title="لحیم‌کاری سخت – Persian" lang="fa" hreflang="fa" data-title="لحیم‌کاری سخت" data-language-autonym="فارسی" data-language-local-name="Persian" class="interlanguage-link-target"><span>فارسی</span></a></li><li class="interlanguage-link interwiki-ga mw-list-item"><a href="https://ga.wikipedia.org/wiki/Pr%C3%A1s%C3%A1il" title="Prásáil – Irish" lang="ga" hreflang="ga" data-title="Prásáil" data-language-autonym="Gaeilge" data-language-local-name="Irish" class="interlanguage-link-target"><span>Gaeilge</span></a></li><li class="interlanguage-link interwiki-ko mw-list-item"><a href="https://ko.wikipedia.org/wiki/%EA%B2%BD%EB%82%A9%EB%95%9C" title="경납땜 – Korean" lang="ko" hreflang="ko" data-title="경납땜" data-language-autonym="한국어" data-language-local-name="Korean" class="interlanguage-link-target"><span>한국어</span></a></li><li class="interlanguage-link interwiki-hi mw-list-item"><a href="https://hi.wikipedia.org/wiki/%E0%A4%AC%E0%A5%8D%E0%A4%B0%E0%A5%87%E0%A4%9C%E0%A4%BF%E0%A4%82%E0%A4%97" title="ब्रेजिंग – Hindi" lang="hi" hreflang="hi" data-title="ब्रेजिंग" data-language-autonym="हिन्दी" data-language-local-name="Hindi" class="interlanguage-link-target"><span>हिन्दी</span></a></li><li class="interlanguage-link interwiki-hr mw-list-item"><a href="https://hr.wikipedia.org/wiki/Tvrdo_lemljenje" title="Tvrdo lemljenje – Croatian" lang="hr" hreflang="hr" data-title="Tvrdo lemljenje" data-language-autonym="Hrvatski" data-language-local-name="Croatian" class="interlanguage-link-target"><span>Hrvatski</span></a></li><li class="interlanguage-link interwiki-id mw-list-item"><a href="https://id.wikipedia.org/wiki/Patri" title="Patri – Indonesian" lang="id" hreflang="id" data-title="Patri" data-language-autonym="Bahasa Indonesia" data-language-local-name="Indonesian" class="interlanguage-link-target"><span>Bahasa Indonesia</span></a></li><li class="interlanguage-link interwiki-ja mw-list-item"><a href="https://ja.wikipedia.org/wiki/%E3%82%8D%E3%81%86%E4%BB%98%E3%81%91" title="ろう付け – Japanese" lang="ja" hreflang="ja" data-title="ろう付け" data-language-autonym="日本語" data-language-local-name="Japanese" class="interlanguage-link-target"><span>日本語</span></a></li><li class="interlanguage-link interwiki-pl mw-list-item"><a href="https://pl.wikipedia.org/wiki/Lutowanie_twarde" title="Lutowanie twarde – Polish" lang="pl" hreflang="pl" data-title="Lutowanie twarde" data-language-autonym="Polski" data-language-local-name="Polish" class="interlanguage-link-target"><span>Polski</span></a></li><li class="interlanguage-link interwiki-ro mw-list-item"><a href="https://ro.wikipedia.org/wiki/Brazare" title="Brazare – Romanian" lang="ro" hreflang="ro" data-title="Brazare" data-language-autonym="Română" data-language-local-name="Romanian" class="interlanguage-link-target"><span>Română</span></a></li><li class="interlanguage-link interwiki-simple mw-list-item"><a href="https://simple.wikipedia.org/wiki/Brazing" title="Brazing – Simple English" lang="en-simple" hreflang="en-simple" data-title="Brazing" data-language-autonym="Simple English" data-language-local-name="Simple English" class="interlanguage-link-target"><span>Simple English</span></a></li><li class="interlanguage-link interwiki-ckb mw-list-item"><a href="https://ckb.wikipedia.org/wiki/%D9%84%DB%95%D8%AD%DB%8C%D9%85%DA%A9%D8%B1%D8%AF%D9%86%DB%8C_%DA%95%DB%95%D9%82" title="لەحیمکردنی ڕەق – Central Kurdish" lang="ckb" hreflang="ckb" data-title="لەحیمکردنی ڕەق" data-language-autonym="کوردی" data-language-local-name="Central Kurdish" class="interlanguage-link-target"><span>کوردی</span></a></li><li class="interlanguage-link interwiki-sh mw-list-item"><a href="https://sh.wikipedia.org/wiki/Tvrdo_lemljenje" title="Tvrdo lemljenje – Serbo-Croatian" lang="sh" hreflang="sh" data-title="Tvrdo lemljenje" data-language-autonym="Srpskohrvatski / српскохрватски" data-language-local-name="Serbo-Croatian" class="interlanguage-link-target"><span>Srpskohrvatski / српскохрватски</span></a></li><li class="interlanguage-link interwiki-fi mw-list-item"><a href="https://fi.wikipedia.org/wiki/Kovajuottaminen" title="Kovajuottaminen – Finnish" lang="fi" hreflang="fi" data-title="Kovajuottaminen" data-language-autonym="Suomi" data-language-local-name="Finnish" class="interlanguage-link-target"><span>Suomi</span></a></li><li class="interlanguage-link interwiki-vi mw-list-item"><a href="https://vi.wikipedia.org/wiki/H%C3%A0n_v%E1%BA%A3y" title="Hàn vảy – Vietnamese" lang="vi" hreflang="vi" data-title="Hàn vảy" 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.hatnote{display:none!important}}</style><div role="note" class="hatnote navigation-not-searchable">This article is about the metal-joining process. For the cooking technique, see <a href="/wiki/Braising" title="Braising">Braising</a>.</div> <link rel="mw-deduplicated-inline-style" href="mw-data:TemplateStyles:r1236090951"><div role="note" class="hatnote navigation-not-searchable">"Braze" redirects here. For the software company, see <a href="/wiki/Braze,_Inc" class="mw-redirect" title="Braze, Inc">Braze, Inc</a>.</div> <style data-mw-deduplicate="TemplateStyles:r1251242444">.mw-parser-output .ambox{border:1px solid #a2a9b1;border-left:10px solid #36c;background-color:#fbfbfb;box-sizing:border-box}.mw-parser-output .ambox+link+.ambox,.mw-parser-output .ambox+link+style+.ambox,.mw-parser-output .ambox+link+link+.ambox,.mw-parser-output .ambox+.mw-empty-elt+link+.ambox,.mw-parser-output .ambox+.mw-empty-elt+link+style+.ambox,.mw-parser-output .ambox+.mw-empty-elt+link+link+.ambox{margin-top:-1px}html body.mediawiki .mw-parser-output .ambox.mbox-small-left{margin:4px 1em 4px 0;overflow:hidden;width:238px;border-collapse:collapse;font-size:88%;line-height:1.25em}.mw-parser-output .ambox-speedy{border-left:10px solid #b32424;background-color:#fee7e6}.mw-parser-output .ambox-delete{border-left:10px solid #b32424}.mw-parser-output .ambox-content{border-left:10px solid #f28500}.mw-parser-output .ambox-style{border-left:10px solid #fc3}.mw-parser-output .ambox-move{border-left:10px solid #9932cc}.mw-parser-output .ambox-protection{border-left:10px solid #a2a9b1}.mw-parser-output .ambox .mbox-text{border:none;padding:0.25em 0.5em;width:100%}.mw-parser-output .ambox .mbox-image{border:none;padding:2px 0 2px 0.5em;text-align:center}.mw-parser-output .ambox .mbox-imageright{border:none;padding:2px 0.5em 2px 0;text-align:center}.mw-parser-output .ambox .mbox-empty-cell{border:none;padding:0;width:1px}.mw-parser-output .ambox .mbox-image-div{width:52px}@media(min-width:720px){.mw-parser-output .ambox{margin:0 10%}}@media print{body.ns-0 .mw-parser-output .ambox{display:none!important}}</style><table class="box-Lead_too_short plainlinks metadata ambox ambox-content ambox-lead_too_short" role="presentation"><tbody><tr><td class="mbox-image"><div class="mbox-image-div"><span typeof="mw:File"><a href="/wiki/File:Wiki_letter_w.svg" class="mw-file-description"><img src="//upload.wikimedia.org/wikipedia/en/thumb/6/6c/Wiki_letter_w.svg/40px-Wiki_letter_w.svg.png" decoding="async" width="40" height="40" class="mw-file-element" srcset="//upload.wikimedia.org/wikipedia/en/thumb/6/6c/Wiki_letter_w.svg/60px-Wiki_letter_w.svg.png 1.5x, //upload.wikimedia.org/wikipedia/en/thumb/6/6c/Wiki_letter_w.svg/80px-Wiki_letter_w.svg.png 2x" data-file-width="44" data-file-height="44" /></a></span></div></td><td class="mbox-text"><div class="mbox-text-span">This article's <a href="/wiki/Wikipedia:Manual_of_Style/Lead_section#Length" title="Wikipedia:Manual of Style/Lead section">lead section</a> <b>may be too short to adequately <a href="/wiki/Wikipedia:Summary_style" title="Wikipedia:Summary style">summarize</a> the key points</b>.<span class="hide-when-compact"> Please consider expanding the lead to <a href="/wiki/Wikipedia:Manual_of_Style/Lead_section#Provide_an_accessible_overview" title="Wikipedia:Manual of Style/Lead section">provide an accessible overview</a> of all important aspects of the article.</span> <span class="date-container"><i>(<span class="date">January 2020</span>)</i></span></div></td></tr></tbody></table> <figure class="mw-default-size" typeof="mw:File/Thumb"><a href="/wiki/File:Brazing_practice.jpg" class="mw-file-description"><img src="//upload.wikimedia.org/wikipedia/commons/thumb/6/6b/Brazing_practice.jpg/220px-Brazing_practice.jpg" decoding="async" width="220" height="308" class="mw-file-element" srcset="//upload.wikimedia.org/wikipedia/commons/thumb/6/6b/Brazing_practice.jpg/330px-Brazing_practice.jpg 1.5x, //upload.wikimedia.org/wikipedia/commons/thumb/6/6b/Brazing_practice.jpg/440px-Brazing_practice.jpg 2x" data-file-width="1500" data-file-height="2100" /></a><figcaption>Brazing practice</figcaption></figure> <p><b>Brazing</b> is a <a href="/wiki/Metal" title="Metal">metal</a>-joining process in which two or more metal items are joined by melting and flowing a <a href="/wiki/Filler_metal" title="Filler metal">filler metal</a> into the joint, with the filler metal having a lower melting point than the adjoining metal. </p><p>Brazing differs from <a href="/wiki/Welding" title="Welding">welding</a> in that it does not involve melting the work pieces. Brazing differs from <a href="/wiki/Soldering" title="Soldering">soldering</a> through the use of a higher temperature and much more closely fitted parts. During the brazing process, the filler metal flows into the gap between close-fitting parts by <a href="/wiki/Capillary_action" title="Capillary action">capillary action</a>. The filler metal is brought slightly above its melting (<a href="/wiki/Liquidus" class="mw-redirect" title="Liquidus">liquidus</a>) temperature while protected by a suitable atmosphere, usually a <a href="/wiki/Flux_(metallurgy)" title="Flux (metallurgy)">flux</a>. It then flows over the base metal (in a process known as <a href="/wiki/Wetting" title="Wetting">wetting</a>) and is then cooled to join the work pieces together.<sup id="cite_ref-Groover_1-0" class="reference"><a href="#cite_note-Groover-1"><span class="cite-bracket">&#91;</span>1<span class="cite-bracket">&#93;</span></a></sup> A major advantage of brazing is the ability to join the same or different metals with considerable strength. </p> <meta property="mw:PageProp/toc" /> <div class="mw-heading mw-heading2"><h2 id="Process">Process</h2><span class="mw-editsection"><span class="mw-editsection-bracket">[</span><a href="/w/index.php?title=Brazing&amp;action=edit&amp;section=1" title="Edit section: Process"><span>edit</span></a><span class="mw-editsection-bracket">]</span></span></div> <p>Brazing has many advantages over other metal-joining techniques, such as <a href="/wiki/Welding" title="Welding">welding</a>. Since brazing does not melt the base metal of the joint, it allows much tighter control over tolerances and produces a clean joint without the need for secondary finishing. Additionally, dissimilar metals and non-metals (i.e. metalized ceramics) can be brazed.<sup id="cite_ref-2" class="reference"><a href="#cite_note-2"><span class="cite-bracket">&#91;</span>2<span class="cite-bracket">&#93;</span></a></sup> In general, brazing also produces less thermal distortion than welding due to the uniform heating of a brazed piece. Complex and multi-part assemblies can be brazed cost-effectively. Welded joints must sometimes be ground flush, a costly secondary operation that brazing does not require because it produces a clean joint. Another advantage is that the brazing can be coated or <a href="/wiki/Cladding_(metalworking)" title="Cladding (metalworking)">clad</a> for protective purposes. Finally, brazing is easily adapted to mass production and it is easy to automate because the individual process parameters are less sensitive to variation.<sup id="cite_ref-page3_3-0" class="reference"><a href="#cite_note-page3-3"><span class="cite-bracket">&#91;</span>3<span class="cite-bracket">&#93;</span></a></sup><sup id="cite_ref-4" class="reference"><a href="#cite_note-4"><span class="cite-bracket">&#91;</span>4<span class="cite-bracket">&#93;</span></a></sup> </p><p>One of the main disadvantages is the lack of joint strength as compared to a welded joint due to the softer filler metals used.<sup id="cite_ref-Groover_1-1" class="reference"><a href="#cite_note-Groover-1"><span class="cite-bracket">&#91;</span>1<span class="cite-bracket">&#93;</span></a></sup> The strength of the brazed joint is likely to be less than that of the base metal(s) but greater than the filler metal.<sup id="cite_ref-5" class="reference"><a href="#cite_note-5"><span class="cite-bracket">&#91;</span>5<span class="cite-bracket">&#93;</span></a></sup> Another disadvantage is that brazed joints can be damaged under high service temperatures.<sup id="cite_ref-Groover_1-2" class="reference"><a href="#cite_note-Groover-1"><span class="cite-bracket">&#91;</span>1<span class="cite-bracket">&#93;</span></a></sup> Brazed joints require a high degree of base-metal cleanliness when done in an industrial setting. Some brazing applications require the use of adequate fluxing agents to control cleanliness. The joint color is often different from that of the base metal, creating an aesthetic disadvantage. </p><p>High-quality brazed joints require that parts be closely fitted with base metal surfaces exceptionally clean and free of oxides. In most cases, joint clearances of 0.03 to 0.08&#160;mm (0.0012 to 0.0031&#160;in) are recommended for the best <a href="/wiki/Capillary_action" title="Capillary action">capillary action</a> and joint strength;<sup id="cite_ref-page20_6-0" class="reference"><a href="#cite_note-page20-6"><span class="cite-bracket">&#91;</span>6<span class="cite-bracket">&#93;</span></a></sup> in some brazing operations, however, it is not uncommon to have joint clearances around 0.6&#160;mm (0.024&#160;in). Cleanliness of the brazing surfaces is also important, as any contamination can cause poor wetting (flow). The two main methods for cleaning parts, prior to brazing, are chemical cleaning and abrasive or mechanical cleaning. In the case of mechanical cleaning it is important to maintain the proper surface roughness, as wetting on a rough surface occurs much more readily than on a smooth surface of the same geometry.<sup id="cite_ref-page20_6-1" class="reference"><a href="#cite_note-page20-6"><span class="cite-bracket">&#91;</span>6<span class="cite-bracket">&#93;</span></a></sup> </p><p>Another consideration is the effect of temperature and time on the quality of brazed joints. As the temperature of the braze alloy is increased, the alloying and wetting action of the filler metal increases as well. In general, the brazing temperature selected must be above the melting point of the filler metal. However, several factors influence the joint designer's temperature selection. The best temperature is usually selected to: </p> <ul><li>Minimize braze temperature</li> <li>Minimize any heat effects on the assembly</li> <li>Minimize filler metal/base metal interaction</li> <li>Maximize the life of any fixtures or jigs used<sup id="cite_ref-page20_6-2" class="reference"><a href="#cite_note-page20-6"><span class="cite-bracket">&#91;</span>6<span class="cite-bracket">&#93;</span></a></sup></li></ul> <p>In some cases, a worker may select a higher temperature to accommodate other factors in the design (e.g., to allow use of a different filler metal, or to control metallurgical effects, or to sufficiently remove surface contamination). The effect of time on the brazed joint primarily affects the extent to which these effects are present. In general, however, most production processes are selected to minimize brazing time and associated costs. This is not always the case, however, since in some non-production settings, time and cost are secondary to other joint attributes (e.g., strength, appearance). </p> <div class="mw-heading mw-heading2"><h2 id="Techniques">Techniques</h2><span class="mw-editsection"><span class="mw-editsection-bracket">[</span><a href="/w/index.php?title=Brazing&amp;action=edit&amp;section=2" title="Edit section: Techniques"><span>edit</span></a><span class="mw-editsection-bracket">]</span></span></div> <link rel="mw-deduplicated-inline-style" href="mw-data:TemplateStyles:r1251242444"><table class="box-More_citations_needed_section plainlinks metadata ambox ambox-content ambox-Refimprove" role="presentation"><tbody><tr><td class="mbox-image"><div class="mbox-image-div"><span typeof="mw:File"><a href="/wiki/File:Question_book-new.svg" class="mw-file-description"><img alt="" src="//upload.wikimedia.org/wikipedia/en/thumb/9/99/Question_book-new.svg/50px-Question_book-new.svg.png" decoding="async" width="50" height="39" class="mw-file-element" srcset="//upload.wikimedia.org/wikipedia/en/thumb/9/99/Question_book-new.svg/75px-Question_book-new.svg.png 1.5x, //upload.wikimedia.org/wikipedia/en/thumb/9/99/Question_book-new.svg/100px-Question_book-new.svg.png 2x" data-file-width="512" data-file-height="399" /></a></span></div></td><td class="mbox-text"><div class="mbox-text-span">This section <b>needs additional citations for <a href="/wiki/Wikipedia:Verifiability" title="Wikipedia:Verifiability">verification</a></b>.<span class="hide-when-compact"> Please help <a href="/wiki/Special:EditPage/Brazing" title="Special:EditPage/Brazing">improve this article</a> by <a href="/wiki/Help:Referencing_for_beginners" title="Help:Referencing for beginners">adding citations to reliable sources</a>&#32;in this section. Unsourced material may be challenged and removed.</span> <span class="date-container"><i>(<span class="date">August 2010</span>)</i></span><span class="hide-when-compact"><i> (<small><a href="/wiki/Help:Maintenance_template_removal" title="Help:Maintenance template removal">Learn how and when to remove this message</a></small>)</i></span></div></td></tr></tbody></table> <figure class="mw-halign-right" typeof="mw:File/Thumb"><a href="/wiki/File:Brazing_and_soldering_processes_-_AWS_A3.0_2001.svg" class="mw-file-description"><img src="//upload.wikimedia.org/wikipedia/commons/thumb/7/77/Brazing_and_soldering_processes_-_AWS_A3.0_2001.svg/300px-Brazing_and_soldering_processes_-_AWS_A3.0_2001.svg.png" decoding="async" width="300" height="367" class="mw-file-element" srcset="//upload.wikimedia.org/wikipedia/commons/thumb/7/77/Brazing_and_soldering_processes_-_AWS_A3.0_2001.svg/450px-Brazing_and_soldering_processes_-_AWS_A3.0_2001.svg.png 1.5x, //upload.wikimedia.org/wikipedia/commons/thumb/7/77/Brazing_and_soldering_processes_-_AWS_A3.0_2001.svg/600px-Brazing_and_soldering_processes_-_AWS_A3.0_2001.svg.png 2x" data-file-width="486" data-file-height="594" /></a><figcaption>Brazing and soldering processes <a href="/wiki/Classification_chart" title="Classification chart">classification chart</a><sup id="cite_ref-7" class="reference"><a href="#cite_note-7"><span class="cite-bracket">&#91;</span>7<span class="cite-bracket">&#93;</span></a></sup></figcaption></figure> <figure class="mw-default-size" typeof="mw:File/Thumb"><a href="/wiki/File:Brazing_aboard_USS_Ashland_(48490045652).jpg" class="mw-file-description"><img src="//upload.wikimedia.org/wikipedia/commons/thumb/2/21/Brazing_aboard_USS_Ashland_%2848490045652%29.jpg/220px-Brazing_aboard_USS_Ashland_%2848490045652%29.jpg" decoding="async" width="220" height="176" class="mw-file-element" srcset="//upload.wikimedia.org/wikipedia/commons/thumb/2/21/Brazing_aboard_USS_Ashland_%2848490045652%29.jpg/330px-Brazing_aboard_USS_Ashland_%2848490045652%29.jpg 1.5x, //upload.wikimedia.org/wikipedia/commons/thumb/2/21/Brazing_aboard_USS_Ashland_%2848490045652%29.jpg/440px-Brazing_aboard_USS_Ashland_%2848490045652%29.jpg 2x" data-file-width="4877" data-file-height="3902" /></a><figcaption>A US Navy maintenance technician torch brazes a steel pipe</figcaption></figure> <p>There are many heating methods available to accomplish brazing operations. The most important factor in choosing a heating method is achieving efficient transfer of heat throughout the joint and doing so within the heat capacity of the individual base metals used. The geometry of the braze joint is also a crucial factor to consider, as is the rate and volume of production required. The easiest way to categorize brazing methods is to group them by heating method. Here are some of the most common:<sup id="cite_ref-Groover_1-3" class="reference"><a href="#cite_note-Groover-1"><span class="cite-bracket">&#91;</span>1<span class="cite-bracket">&#93;</span></a></sup><sup id="cite_ref-8" class="reference"><a href="#cite_note-8"><span class="cite-bracket">&#91;</span>8<span class="cite-bracket">&#93;</span></a></sup> </p> <ul><li>Torch brazing</li> <li>Furnace brazing</li> <li><a href="/wiki/Induction_brazing" title="Induction brazing">Induction brazing</a></li> <li>Dip brazing</li> <li>Resistance brazing</li> <li>Infrared brazing</li> <li>Blanket brazing</li> <li>Electron beam and laser brazing</li> <li>Braze welding</li></ul> <p>These heating methods are classified through localised and diffuse heating techniques and offer advantages based on their different applications.<sup id="cite_ref-9" class="reference"><a href="#cite_note-9"><span class="cite-bracket">&#91;</span>9<span class="cite-bracket">&#93;</span></a></sup> </p> <div class="mw-heading mw-heading3"><h3 id="Torch_brazing">Torch brazing</h3><span class="mw-editsection"><span class="mw-editsection-bracket">[</span><a href="/w/index.php?title=Brazing&amp;action=edit&amp;section=3" title="Edit section: Torch brazing"><span>edit</span></a><span class="mw-editsection-bracket">]</span></span></div> <p><a href="/wiki/Propane_torch" title="Propane torch">Torch</a> brazing is by far the most common method of mechanized brazing in use. It is best used in small production volumes or in specialized operations, and in some countries, it accounts for a majority of the brazing taking place. There are three main categories of torch brazing in use:<sup id="cite_ref-torch_10-0" class="reference"><a href="#cite_note-torch-10"><span class="cite-bracket">&#91;</span>10<span class="cite-bracket">&#93;</span></a></sup> manual, machine, and automatic torch brazing. </p><p><i>Manual torch brazing</i> is a procedure where the heat is applied using a <a href="/wiki/Gas_flame" class="mw-redirect" title="Gas flame">gas flame</a> placed on or near the joint being brazed. The torch can either be hand held or held in a fixed position depending on whether the operation is completely manual or has some level of automation. Manual brazing is most commonly used on small production volumes or in applications where the part size or configuration makes other brazing methods impossible.<sup id="cite_ref-torch_10-1" class="reference"><a href="#cite_note-torch-10"><span class="cite-bracket">&#91;</span>10<span class="cite-bracket">&#93;</span></a></sup> The main drawback is the high labor cost associated with the method as well as the operator skill required to obtain quality brazed joints. The use of flux or self-fluxing material is required to prevent oxidation. Torch brazing of copper can be done without the use of flux if it is brazed with a torch using oxygen and hydrogen gas, rather than oxygen and other flammable gases. </p><p><i>Machine torch brazing</i> is commonly used where a repetitive braze operation is being carried out. This method is a mix of both automated and manual operations with an operator often placing brazes material, flux and jigging parts while the machine mechanism carries out the actual braze.<sup id="cite_ref-torch_10-2" class="reference"><a href="#cite_note-torch-10"><span class="cite-bracket">&#91;</span>10<span class="cite-bracket">&#93;</span></a></sup> The advantage of this method is that it reduces the high labor and skill requirement of manual brazing. The use of flux is also required for this method as there is no protective atmosphere, and it is best suited to small to medium production volumes. </p><p><i>Automatic torch brazing</i> is a method that almost eliminates the need for manual labor in the brazing operation, except for loading and unloading of the machine. The main advantages of this method are: a high production rate, uniform braze quality, and reduced operating cost. The equipment used is essentially the same as that used for Machine torch brazing, with the main difference being that the machinery replaces the operator in the part preparation.<sup id="cite_ref-torch_10-3" class="reference"><a href="#cite_note-torch-10"><span class="cite-bracket">&#91;</span>10<span class="cite-bracket">&#93;</span></a></sup> </p> <div class="mw-heading mw-heading3"><h3 id="Furnace_brazing">Furnace brazing</h3><span class="mw-editsection"><span class="mw-editsection-bracket">[</span><a href="/w/index.php?title=Brazing&amp;action=edit&amp;section=4" title="Edit section: Furnace brazing"><span>edit</span></a><span class="mw-editsection-bracket">]</span></span></div> <figure typeof="mw:File/Thumb"><a href="/wiki/File:Furnace_Brazing.svg" class="mw-file-description"><img src="//upload.wikimedia.org/wikipedia/commons/thumb/7/7d/Furnace_Brazing.svg/300px-Furnace_Brazing.svg.png" decoding="async" width="300" height="105" class="mw-file-element" srcset="//upload.wikimedia.org/wikipedia/commons/thumb/7/7d/Furnace_Brazing.svg/450px-Furnace_Brazing.svg.png 1.5x, //upload.wikimedia.org/wikipedia/commons/thumb/7/7d/Furnace_Brazing.svg/600px-Furnace_Brazing.svg.png 2x" data-file-width="570" data-file-height="200" /></a><figcaption>Furnace brazing schematic</figcaption></figure> <p>Furnace brazing is a semi-automatic process used widely in industrial brazing operations due to its adaptability to mass production and use of <a href="/wiki/Unskilled_labor" class="mw-redirect" title="Unskilled labor">unskilled labor</a>. There are many advantages of furnace brazing over other heating methods that make it ideal for mass production. One main advantage is the ease with which it can produce large numbers of small parts that are easily jigged or self-locating.<sup id="cite_ref-furnace_11-0" class="reference"><a href="#cite_note-furnace-11"><span class="cite-bracket">&#91;</span>11<span class="cite-bracket">&#93;</span></a></sup> The process also offers the benefits of a controlled heat cycle (allowing use of parts that might distort under localized heating) and no need for post braze cleaning. Common atmospheres used include: inert, reducing or <a href="/wiki/Vacuum" title="Vacuum">vacuum</a> atmospheres all of which protect the part from oxidation. Some other advantages include: low unit cost when used in mass production, close temperature control, and the ability to braze multiple joints at once. Furnaces are typically heated using either electric, gas or oil depending on the type of furnace and application. However, some of the disadvantages of this method include: high capital equipment cost, more difficult design considerations and high power consumption.<sup id="cite_ref-furnace_11-1" class="reference"><a href="#cite_note-furnace-11"><span class="cite-bracket">&#91;</span>11<span class="cite-bracket">&#93;</span></a></sup> </p><p>There are four main types of furnaces used in brazing operations: batch type; continuous; <a href="/wiki/Retort" title="Retort">retort</a> with controlled atmosphere; and vacuum. </p><p>A <i>batch</i> type furnace has relatively low initial equipment costs, and can heat each part load separately. It can be turned on and off at will, which reduces operating expenses when it's not in use. These furnaces are suited to medium to large volume production, and offer a large degree of flexibility in type of parts that can be brazed.<sup id="cite_ref-furnace_11-2" class="reference"><a href="#cite_note-furnace-11"><span class="cite-bracket">&#91;</span>11<span class="cite-bracket">&#93;</span></a></sup> Either controlled atmospheres or flux can be used to control oxidation and cleanliness of parts. </p><p><i>Continuous type</i> furnaces are best suited to a steady flow of similar-sized parts through the furnace.<sup id="cite_ref-furnace_11-3" class="reference"><a href="#cite_note-furnace-11"><span class="cite-bracket">&#91;</span>11<span class="cite-bracket">&#93;</span></a></sup> These furnaces are often conveyor fed, moving parts through the hot zone at a controlled speed. It is common to use either controlled atmosphere or pre-applied flux in continuous furnaces. In particular, these furnaces offer the benefit of very low manual labor requirements and so are best suited to large scale production operations. </p><p><i>Retort-type</i> furnaces differ from other batch-type furnaces in that they make use of a sealed lining called a "retort". The retort is generally sealed with either a gasket or is welded shut and filled completely with the desired atmosphere and then heated externally by conventional heating elements.<sup id="cite_ref-furnace_11-4" class="reference"><a href="#cite_note-furnace-11"><span class="cite-bracket">&#91;</span>11<span class="cite-bracket">&#93;</span></a></sup> Due to the high temperatures involved, the retort is usually made of heat resistant alloys that resist oxidation. Retort furnaces are often either used in a batch or semi-continuous versions<sup class="noprint Inline-Template" style="white-space:nowrap;">&#91;<i><a href="/wiki/Wikipedia:Accuracy_dispute#Disputed_statement" title="Wikipedia:Accuracy dispute"><span title="The material near this tag is possibly inaccurate or nonfactual. (December 2021)">dubious</span></a>&#32;&#8211; <a href="/wiki/Talk:Brazing#Dubious" title="Talk:Brazing">discuss</a></i>&#93;</sup>. </p><p><i>Vacuum furnaces</i> is a relatively economical method of oxide prevention and is most often used to braze materials with very stable oxides (<a href="/wiki/Aluminum" class="mw-redirect" title="Aluminum">aluminum</a>, <a href="/wiki/Titanium" title="Titanium">titanium</a> and <a href="/wiki/Zirconium" title="Zirconium">zirconium</a>) that cannot be brazed in atmosphere furnaces. Vacuum brazing is also used heavily with <a href="/wiki/Refractory" title="Refractory">refractory</a> materials and other exotic alloy combinations unsuited to atmosphere furnaces. Due to the absence of flux or a reducing atmosphere, the part cleanliness is critical when brazing in a vacuum. The three main types of vacuum furnace are: single-wall hot retort, double-walled hot retort, and cold-wall retort. Typical vacuum levels for brazing range from pressures of 1.3 to 0.13 <a href="/wiki/Pascal_(unit)" title="Pascal (unit)">pascals</a> (10⁻² to 10⁻³ <a href="/wiki/Torr" title="Torr">Torr</a>) to 0.00013 Pa (10⁻⁶ Torr) or lower.<sup id="cite_ref-furnace_11-5" class="reference"><a href="#cite_note-furnace-11"><span class="cite-bracket">&#91;</span>11<span class="cite-bracket">&#93;</span></a></sup> Vacuum furnaces are most commonly batch-type, and they are suited to medium and high production volumes. </p> <div class="mw-heading mw-heading3"><h3 id="Silver_brazing">Silver brazing</h3><span class="mw-editsection"><span class="mw-editsection-bracket">[</span><a href="/w/index.php?title=Brazing&amp;action=edit&amp;section=5" title="Edit section: Silver brazing"><span>edit</span></a><span class="mw-editsection-bracket">]</span></span></div> <p>Silver brazing, sometimes known as hard soldering, is brazing using a silver alloy based filler. These silver alloys consist of many different percentages of silver and other metals, such as copper, zinc and cadmium. </p><p>Brazing is widely used in the tool industry to fasten "<a href="/wiki/Cemented_carbide" title="Cemented carbide">hard metal</a>" (carbide, ceramics, cermet, and similar) tips to tools such as saw blades. "Pretinning" is often done: the braze alloy is melted onto the hard metal tip, which is placed next to the steel and remelted. Pretinning gets around the problem that hard metals are difficult to wet. </p> <figure class="mw-default-size" typeof="mw:File/Thumb"><a href="/wiki/File:Crack_in_CuNi_metal_due_to_silver_brazing.jpg" class="mw-file-description"><img src="//upload.wikimedia.org/wikipedia/commons/thumb/a/a2/Crack_in_CuNi_metal_due_to_silver_brazing.jpg/220px-Crack_in_CuNi_metal_due_to_silver_brazing.jpg" decoding="async" width="220" height="128" class="mw-file-element" srcset="//upload.wikimedia.org/wikipedia/commons/thumb/a/a2/Crack_in_CuNi_metal_due_to_silver_brazing.jpg/330px-Crack_in_CuNi_metal_due_to_silver_brazing.jpg 1.5x, //upload.wikimedia.org/wikipedia/commons/thumb/a/a2/Crack_in_CuNi_metal_due_to_silver_brazing.jpg/440px-Crack_in_CuNi_metal_due_to_silver_brazing.jpg 2x" data-file-width="1691" data-file-height="987" /></a><figcaption>Crack in 90–10 Cu–Ni metal plate due to stresses during silver brazing</figcaption></figure> <p>Brazed hard metal joints are typically two to seven <a href="/wiki/Thou_(length)" class="mw-redirect" title="Thou (length)">mils</a> thick. The braze alloy joins the materials and compensates for the difference in their expansion rates. It also provides a cushion between the hard carbide tip and the hard steel, which softens impact and prevents tip loss and damage—much as a vehicle's suspension helps prevent damage to the tires and the vehicle. Finally, the braze alloy joins the other two materials to create a composite structure, much as layers of wood and glue create plywood. The standard for braze joint strength in many industries is a joint that is stronger than either base material, so that when under stress, one or other of the base materials fails before the joint. Silver brazing may cause defects in certain alloys, e.g. stress-induced inter-granular cracking in <a href="/wiki/Copper-nickel" class="mw-redirect" title="Copper-nickel">copper-nickel</a>. </p><p>One special silver brazing method is called <i><style data-mw-deduplicate="TemplateStyles:r1238216509">.mw-parser-output .vanchor>:target~.vanchor-text{background-color:#b1d2ff}@media screen{html.skin-theme-clientpref-night .mw-parser-output .vanchor>:target~.vanchor-text{background-color:#0f4dc9}}@media screen and (prefers-color-scheme:dark){html.skin-theme-clientpref-os .mw-parser-output .vanchor>:target~.vanchor-text{background-color:#0f4dc9}}</style><span class="vanchor"><span id="pinbrazing"></span><span class="vanchor-text">pinbrazing</span></span></i> or <i><link rel="mw-deduplicated-inline-style" href="mw-data:TemplateStyles:r1238216509"><span class="vanchor"><span id="&#91;&#91;pin_brazing&#93;&#93;"></span><span class="vanchor-text"><a href="/wiki/Pin_brazing" title="Pin brazing">pin brazing</a></span></span></i>. It has been developed especially for connecting cables to railway track or for <a href="/wiki/Cathodic_protection" title="Cathodic protection">cathodic protection</a> installations. The method uses a silver- and flux-containing brazing pin, which is melted in the eye of a cable lug. The equipment is normally powered from batteries. </p> <div class="mw-heading mw-heading3"><h3 id="Braze_welding">Braze welding</h3><span class="mw-editsection"><span class="mw-editsection-bracket">[</span><a href="/w/index.php?title=Brazing&amp;action=edit&amp;section=6" title="Edit section: Braze welding"><span>edit</span></a><span class="mw-editsection-bracket">]</span></span></div> <p><i>Braze welding</i> is the use of a <a href="/wiki/Bronze" title="Bronze">bronze</a> or <a href="/wiki/Brass" title="Brass">brass</a> filler rod coated with flux to join <a href="/wiki/Steel" title="Steel">steel</a> workpieces. The equipment needed for braze welding is basically identical to the equipment used in brazing. Since braze welding usually requires more heat than brazing, <a href="/wiki/Acetylene" title="Acetylene">acetylene</a> or <a href="/wiki/Methylacetylene-propadiene_gas" title="Methylacetylene-propadiene gas">methylacetylene-propadiene gas</a> (<a href="/wiki/MAPP_gas" title="MAPP gas">MAPP gas</a>) fuel is commonly used. The name comes from the fact that no capillary action is used. </p><p>Braze welding has many advantages over fusion welding. It allows the joining of dissimilar metals, minimization of heat distortion, and can reduce the need for extensive pre-heating. Additionally, since the metals joined are not melted in the process, the components retain their original shape; edges and contours are not eroded or changed by the formation of a fillet. Another effect of braze welding is the elimination of stored-up stresses that are often present in fusion welding. This is extremely important in the repair of large castings. The disadvantages are the loss of strength when subjected to high temperatures and the inability to withstand high stresses. </p><p>Carbide, <a href="/wiki/Cermet" title="Cermet">cermet</a> and ceramic tips are plated and then joined to steel to make tipped band saws. The plating acts as a braze alloy. </p> <div class="mw-heading mw-heading3"><h3 id="Cast_iron_&quot;welding&quot;"><span id="Cast_iron_.22welding.22"></span>Cast iron "welding"</h3><span class="mw-editsection"><span class="mw-editsection-bracket">[</span><a href="/w/index.php?title=Brazing&amp;action=edit&amp;section=7" title="Edit section: Cast iron &quot;welding&quot;"><span>edit</span></a><span class="mw-editsection-bracket">]</span></span></div> <p>The "welding" of <a href="/wiki/Cast_iron" title="Cast iron">cast iron</a> is usually a brazing operation, with a filler rod made chiefly of <a href="/wiki/Nickel" title="Nickel">nickel</a> being used although true welding with cast iron rods is also available. Ductile cast iron pipe may be also "cadwelded," a process that connects joints by means of a small copper wire fused into the iron when previously ground down to the bare metal, parallel to the iron joints being formed as per hub pipe with neoprene gasket seals. The purpose behind this operation is to use electricity along the copper for keeping underground pipes warm in cold climates. </p> <div class="mw-heading mw-heading3"><h3 id="Vacuum_brazing">Vacuum brazing</h3><span class="mw-editsection"><span class="mw-editsection-bracket">[</span><a href="/w/index.php?title=Brazing&amp;action=edit&amp;section=8" title="Edit section: Vacuum brazing"><span>edit</span></a><span class="mw-editsection-bracket">]</span></span></div> <p>Vacuum brazing is a material joining technique that offers significant advantages: extremely clean, superior, flux-free braze joints of high integrity and strength. The process can be expensive because it must be performed inside a vacuum chamber vessel. Temperature uniformity is maintained on the work piece when heating in a vacuum, greatly reducing residual stresses due to slow heating and cooling cycles. This, in turn, can significantly improve the thermal and mechanical properties of the material, thus providing unique heat treatment capabilities. One such capability is heat-treating or age-hardening the workpiece while performing a metal-joining process, all in a single furnace thermal cycle. </p><p>Products that are most commonly vacuum-brazed include aluminum cold plates, plate-fin heat exchangers, and flat tube heat exchangers.<sup id="cite_ref-12" class="reference"><a href="#cite_note-12"><span class="cite-bracket">&#91;</span>12<span class="cite-bracket">&#93;</span></a></sup> </p><p>Vacuum brazing is often conducted in a furnace; this means that several joints can be made at once because the whole workpiece reaches the brazing temperature. The heat is transferred using radiation, as many other methods cannot be used in a vacuum. </p> <div class="mw-heading mw-heading3"><h3 id="Dip_brazing">Dip brazing</h3><span class="mw-editsection"><span class="mw-editsection-bracket">[</span><a href="/w/index.php?title=Brazing&amp;action=edit&amp;section=9" title="Edit section: Dip brazing"><span>edit</span></a><span class="mw-editsection-bracket">]</span></span></div> <p>Dip brazing is especially suited for brazing <a href="/wiki/Aluminium" title="Aluminium">aluminium</a> because air is excluded, thus preventing the formation of oxides. The parts to be joined are fixtured and the brazing compound applied to the mating surfaces, typically in <a href="/wiki/Slurry" title="Slurry">slurry</a> form. Then the assemblies are dipped into a bath of molten salt (typically NaCl, KCl and other compounds), which functions as both heat transfer medium and flux. Many dip brazed parts are used in heat transfer applications for the aerospace industry.<sup id="cite_ref-13" class="reference"><a href="#cite_note-13"><span class="cite-bracket">&#91;</span>13<span class="cite-bracket">&#93;</span></a></sup> </p> <div class="mw-heading mw-heading2"><h2 id="Filler_materials">Filler materials</h2><span class="mw-editsection"><span class="mw-editsection-bracket">[</span><a href="/w/index.php?title=Brazing&amp;action=edit&amp;section=10" title="Edit section: Filler materials"><span>edit</span></a><span class="mw-editsection-bracket">]</span></span></div> <link rel="mw-deduplicated-inline-style" href="mw-data:TemplateStyles:r1236090951"><div role="note" class="hatnote navigation-not-searchable">See also: <a href="/wiki/List_of_brazing_alloys" title="List of brazing alloys">List of brazing alloys</a></div> <p>A variety of alloys are used as filler metals for brazing depending on the intended use or application method. In general, braze alloys are composed of three or more metals to form an alloy with the desired properties. The filler metal for a particular application is chosen based on its ability to: wet the base metals, withstand the service conditions required, and melt at a lower temperature than the base metals or at a very specific temperature. </p><p>Braze alloy is generally available as rod, ribbon, powder, paste, cream, wire and <a href="#Preform">preforms</a> (such as stamped washers).<sup id="cite_ref-Scwartz_1987_131–160_14-0" class="reference"><a href="#cite_note-Scwartz_1987_131–160-14"><span class="cite-bracket">&#91;</span>14<span class="cite-bracket">&#93;</span></a></sup> Depending on the application, the filler material can be pre-placed at the desired location or applied during the heating cycle. For manual brazing, wire and rod forms are generally used as they are the easiest to apply while heating. In the case of furnace brazing, the alloy is usually placed beforehand since the process is usually highly automated.<sup id="cite_ref-Scwartz_1987_131–160_14-1" class="reference"><a href="#cite_note-Scwartz_1987_131–160-14"><span class="cite-bracket">&#91;</span>14<span class="cite-bracket">&#93;</span></a></sup> Some of the more common types of filler metals used are </p> <ul><li>Aluminum-silicon</li> <li>Copper</li> <li>Copper-silver</li> <li>Copper-zinc (<a href="/wiki/Brass" title="Brass">brass</a>)</li> <li>Copper-tin (<a href="/wiki/Bronze" title="Bronze">bronze</a>)</li> <li><a href="/wiki/Gold" title="Gold">Gold</a>-<a href="/wiki/Silver" title="Silver">silver</a></li> <li><a href="/wiki/Nickel" title="Nickel">Nickel</a> alloy</li> <li><a href="/wiki/Silver" title="Silver">Silver</a><sup id="cite_ref-Groover_1-4" class="reference"><a href="#cite_note-Groover-1"><span class="cite-bracket">&#91;</span>1<span class="cite-bracket">&#93;</span></a></sup><sup id="cite_ref-15" class="reference"><a href="#cite_note-15"><span class="cite-bracket">&#91;</span>15<span class="cite-bracket">&#93;</span></a></sup></li> <li><a href="/wiki/Amorphous_brazing_foil" title="Amorphous brazing foil">Amorphous brazing foil</a> using nickel, iron, copper, silicon, boron, phosphorus, etc.</li></ul> <p>Some brazes come in the form of <i>trifoils</i>, laminated foils of a carrier metal clad with a layer of braze at each side. The center metal is often copper; its role is to act as a carrier for the alloy, to absorb mechanical stresses due to e.g. differential thermal expansion of dissimilar materials (e.g. a carbide tip and a steel holder), and to act as a diffusion barrier (e.g. to stop diffusion of aluminum from aluminum bronze to steel when brazing these two). </p><p>Brazing alloys form several distinct groups; the alloys in the same group have similar properties and uses.<sup id="cite_ref-16" class="reference"><a href="#cite_note-16"><span class="cite-bracket">&#91;</span>16<span class="cite-bracket">&#93;</span></a></sup> </p> <dl><dt>Pure metals</dt> <dd>Unalloyed. Often noble metals – silver, gold, palladium.</dd> <dt>Ag-Cu</dt> <dd><a href="/wiki/Silver" title="Silver">Silver</a>-<a href="/wiki/Copper" title="Copper">copper</a>. Good melting properties. Silver enhances flow. Eutectic alloy used for furnace brazing. Copper-rich alloys prone to stress cracking by ammonia.</dd> <dt>Ag-Zn</dt> <dd>Silver-<a href="/wiki/Zinc" title="Zinc">zinc</a>. Similar to Cu-Zn, used in jewelry due to its high silver content so that the product is compliant with <a href="/wiki/Hallmark" title="Hallmark">hallmarking</a>. The color matches silver, and it is resistant to ammonia-containing silver-cleaning fluids.</dd> <dt>Cu-Zn (<a href="/wiki/Brass" title="Brass">brass</a>)</dt> <dd><span class="anchor" id="Cu-Zn"></span>Copper-zinc. General purpose, used for joining steel and cast iron. Corrosion resistance usually inadequate for copper, silicon bronze, copper-nickel, and stainless steel. Reasonably ductile. High vapor pressure due to volatile zinc, unsuitable for furnace brazing. Copper-rich alloys prone to stress cracking by ammonia.</dd> <dt>Ag-Cu-Zn</dt> <dd>Silver-copper-zinc. Lower melting point than Ag-Cu for same Ag content. Combines advantages of Ag-Cu and Cu-Zn. At above 40% Zn the ductility and strength drop, so only lower-zinc alloys of this type are used. At above 25% zinc less ductile copper-zinc and silver-zinc phases appear. Copper content above 60% yields reduced strength and melts above 900&#160;°C. Silver content above 85% yields reduced strength, high liquidus and high cost. Copper-rich alloys prone to stress cracking by ammonia. Silver-rich brazes (above 67.5% Ag) are hallmarkable and used in jewellery; alloys with lower silver content are used for engineering purposes. Alloys with copper-zinc ratio of about 60:40 contain the same phases as brass and match its color; they are used for joining brass. Small amount of nickel improves strength and corrosion resistance and promotes wetting of carbides. Addition of manganese together with nickel increases fracture toughness. Addition of cadmium yields <b>Ag-Cu-Zn-Cd</b> alloys with improved fluidity and wetting and lower melting point; however cadmium is toxic. Addition of tin can play mostly the same role.</dd> <dt>Cu-P</dt> <dd>Copper-<a href="/wiki/Phosphorus" title="Phosphorus">phosphorus</a>. Widely used for copper and copper alloys. Does not require flux for copper. Can be also used with silver, tungsten, and molybdenum. Copper-rich alloys prone to stress cracking by ammonia.</dd> <dt>Ag-Cu-P</dt> <dd>Like Cu-P, with improved flow. Better for larger gaps. More ductile, better electrical conductivity. Copper-rich alloys prone to stress cracking by ammonia.</dd> <dt>Au-Ag</dt> <dd><a href="/wiki/Gold" title="Gold">Gold</a>-silver. Noble metals. Used in jewelry.</dd> <dt>Au-Cu</dt> <dd>Gold-copper. Continuous series of solid solutions. Readily wet many metals, including refractory ones. Narrow melting ranges, good fluidity.<sup id="cite_ref-goldsciapp_17-0" class="reference"><a href="#cite_note-goldsciapp-17"><span class="cite-bracket">&#91;</span>17<span class="cite-bracket">&#93;</span></a></sup> Frequently used in jewellery. Alloys with 40–90% of gold harden on cooling but stay ductile. Nickel improves ductility. Silver lowers melting point but worsens corrosion resistance. To maintain corrosion resistance, gold must be kept above 60%. High-temperature strength and corrosion resistance can be improved by further alloying, e.g., with chromium, palladium, manganese, and molybdenum. Added vanadium allows wetting ceramics. Gold-copper has low vapor pressure.</dd> <dt>Au-Ni</dt> <dd>Gold-<a href="/wiki/Nickel" title="Nickel">Nickel</a>. Continuous series of solid solutions. Wider melting range than Au-Cu alloys but better corrosion resistance and improved wetting. Frequently alloyed with other metals to reduce proportion of gold while maintaining properties. Copper may be added to lower gold proportion, chromium to compensate for loss of corrosion resistance, and boron for improving wetting impaired by the chromium. Generally no more than 35% Ni is used, as higher Ni/Au ratios have too wide melting range. Low vapor pressure.</dd> <dt>Au-Pd</dt> <dd>Gold-<a href="/wiki/Palladium" title="Palladium">Palladium</a>. Improved corrosion resistance over Au-Cu and Au-Ni alloys. Used for joining superalloys and refractory metals for high-temperature applications, e.g. jet engines. Expensive. May be substituted for by cobalt-based brazes. Low vapor pressure.</dd> <dt>Pd</dt> <dd>Palladium. Good high-temperature performance, high corrosion resistance (less than gold), high strength (more than gold). usually alloyed with nickel, copper, or silver. Forms solid solutions with most metals, does not form brittle intermetallics. Low vapor pressure.</dd> <dt>Ni</dt> <dd>Nickel alloys, even more numerous than silver alloys. High strength. Lower cost than silver alloys. Good high-temperature performance, good corrosion resistance in moderately aggressive environments. Often used for stainless steels and heat-resistant alloys. Embrittled with sulfur and some lower-melting point metals, e.g. zinc. Boron, phosphorus, silicon and carbon lower melting point and rapidly diffuse to base metals. This allows diffusion brazing, and lets the joint be used above the brazing temperature. Borides and phosphides form brittle phases. Amorphous preforms can be made by rapid solidification.</dd> <dt>Co</dt> <dd><a href="/wiki/Cobalt" title="Cobalt">Cobalt</a> alloys. Good high-temperature corrosion resistance, possible alternative to Au-Pd brazes. Low workability at low temperatures, preforms prepared by rapid solidification.</dd> <dt>Al-Si</dt> <dd><a href="/wiki/Aluminum" class="mw-redirect" title="Aluminum">Aluminum</a>-<a href="/wiki/Silicon" title="Silicon">silicon</a>. For brazing aluminum.</dd> <dt>Active alloys</dt> <dd>Containing active metals, e.g., titanium or vanadium. Used for brazing non-metallic materials, e.g. <a href="/wiki/Graphite" title="Graphite">graphite</a> or <a href="/wiki/Ceramic" title="Ceramic">ceramics</a>.</dd></dl> <table class="wikitable sortable"> <caption>Role of elements </caption> <tbody><tr> <th>element </th> <th>role </th> <th>volatility </th> <th>corrosion resistance </th> <th>cost </th> <th>incompatibility </th> <th>description </th></tr> <tr> <th><a href="/wiki/Silver" title="Silver">Silver</a> </th> <td>structural, wetting </td> <td>volatile </td> <td> </td> <td>expensive </td> <td> </td> <td>Enhances capillary flow, improves corrosion resistance of less-noble alloys, worsens corrosion resistance of gold and palladium. Relatively expensive. High vapor pressure, problematic in vacuum brazing. Wets copper. Does not wet nickel and iron. Reduces melting point of many alloys, including gold-copper. </td></tr> <tr> <th><a href="/wiki/Copper" title="Copper">Copper</a> </th> <td>structural </td> <td> </td> <td> </td> <td> </td> <td>ammonia </td> <td>Good mechanical properties. Often used with silver. Dissolves and wets nickel. Somewhat dissolves and wets iron. Copper-rich alloys sensitive to stress cracking in presence of ammonia. </td></tr> <tr> <th><a href="/wiki/Zinc" title="Zinc">Zinc</a> </th> <td>structural, melting, wetting </td> <td>volatile </td> <td>low </td> <td>cheap </td> <td>Ni </td> <td>Lowers melting point. Often used with copper. Susceptible to corrosion. Improves wetting on ferrous metals and on nickel alloys. Compatible with aluminum. High vapor tension, produces somewhat toxic fumes, requires ventilation; highly volatile above 500&#160;°C. At high temperatures may boil and create voids. Prone to <a href="/wiki/Selective_leaching" title="Selective leaching">selective leaching</a> in some environments, which may cause joint failure. Traces of bismuth and beryllium together with tin or zinc in aluminum-based braze destabilize oxide film on aluminum, facilitating its wetting. High affinity to oxygen, promotes wetting of copper in air by reduction of the cuprous oxide surface film. Less such benefit in furnace brazing with controlled atmosphere. Embrittles nickel. High levels of zinc may result in a brittle alloy.<sup id="cite_ref-princbra_18-0" class="reference"><a href="#cite_note-princbra-18"><span class="cite-bracket">&#91;</span>18<span class="cite-bracket">&#93;</span></a></sup> Prone to interfacial corrosion in contact with stainless steel in wet and humid environments. Unsuitable for furnace brazing due to volatility. </td></tr> <tr> <th><a href="/wiki/Aluminum" class="mw-redirect" title="Aluminum">Aluminum</a> </th> <td>structural, active </td> <td> </td> <td> </td> <td> </td> <td>Fe </td> <td>Usual base for brazing aluminum and its alloys. Embrittles ferrous alloys. </td></tr> <tr> <th><a href="/wiki/Gold" title="Gold">Gold</a> </th> <td>structural, wetting </td> <td> </td> <td>excellent </td> <td>very expensive </td> <td> </td> <td>Excellent corrosion resistance. Very expensive. Wets most metals. </td></tr> <tr> <th><a href="/wiki/Palladium" title="Palladium">Palladium</a> </th> <td>structural </td> <td> </td> <td>excellent </td> <td>very expensive </td> <td> </td> <td>Excellent corrosion resistance, though less than gold. Higher mechanical strength than gold. Good high-temperature strength. Very expensive, though less than gold. Makes the joint less prone to fail due to intergranular penetration when brazing alloys of nickel, molybdenum, or tungsten.<sup id="cite_ref-indbrapra_19-0" class="reference"><a href="#cite_note-indbrapra-19"><span class="cite-bracket">&#91;</span>19<span class="cite-bracket">&#93;</span></a></sup> Increases high-temperature strength of gold-based alloys.<sup id="cite_ref-goldsciapp_17-1" class="reference"><a href="#cite_note-goldsciapp-17"><span class="cite-bracket">&#91;</span>17<span class="cite-bracket">&#93;</span></a></sup> Improves high-temperature strength and corrosion resistance of gold-copper alloys. Forms solid solutions with most engineering metals, does not form brittle intermetallics. High oxidation resistance at high temperatures, especially Pd-Ni alloys. </td></tr> <tr> <th><a href="/wiki/Cadmium" title="Cadmium">Cadmium</a> </th> <td>structural, wetting, melting </td> <td>volatile </td> <td> </td> <td> </td> <td>toxic </td> <td>Lowers melting point, improves fluidity. Toxic. Produces toxic fumes, requires ventilation. High affinity to oxygen, promotes wetting of copper in air by reduction of the cuprous oxide surface film. Less such benefit in furnace brazing with controlled atmosphere. Allows reducing silver content of Ag-Cu-Zn alloys. Replaced by tin in more modern alloys. In EU since December 2011 allowed only for aerospace and military use.<sup id="cite_ref-welmet.cz_20-0" class="reference"><a href="#cite_note-welmet.cz-20"><span class="cite-bracket">&#91;</span>20<span class="cite-bracket">&#93;</span></a></sup> </td></tr> <tr> <th><a href="/wiki/Lead" title="Lead">Lead</a> </th> <td>structural, melting </td> <td> </td> <td> </td> <td> </td> <td> </td> <td>Lowers melting point. Toxic. Produces toxic fumes, requires ventilation. </td></tr> <tr> <th><a href="/wiki/Tin" title="Tin">Tin</a> </th> <td>structural, melting, wetting </td> <td> </td> <td> </td> <td> </td> <td> </td> <td>Lowers melting point, improves fluidity. Broadens melting range. Can be used with copper, with which it forms <a href="/wiki/Bronze" title="Bronze">bronze</a>. Improves wetting of many difficult-to-wet metals, e.g. <a href="/wiki/Stainless_steel" title="Stainless steel">stainless steels</a> and <a href="/wiki/Tungsten_carbide" title="Tungsten carbide">tungsten carbide</a>. Traces of bismuth and beryllium together with tin or zinc in aluminum-based braze destabilize oxide film on aluminum, facilitating its wetting. Low solubility in zinc, which limits its content in zinc-bearing alloys.<sup id="cite_ref-princbra_18-1" class="reference"><a href="#cite_note-princbra-18"><span class="cite-bracket">&#91;</span>18<span class="cite-bracket">&#93;</span></a></sup> </td></tr> <tr> <th><a href="/wiki/Bismuth" title="Bismuth">Bismuth</a> </th> <td>trace additive </td> <td> </td> <td> </td> <td> </td> <td> </td> <td>Lowers melting point. May disrupt surface oxides. Traces of bismuth and beryllium together with tin or zinc in aluminum-based braze destabilize oxide film on aluminum, facilitating its wetting.<sup id="cite_ref-princbra_18-2" class="reference"><a href="#cite_note-princbra-18"><span class="cite-bracket">&#91;</span>18<span class="cite-bracket">&#93;</span></a></sup> </td></tr> <tr> <th><a href="/wiki/Beryllium" title="Beryllium">Beryllium</a> </th> <td>trace additive </td> <td> </td> <td> </td> <td> </td> <td>toxic </td> <td>Traces of bismuth and beryllium together with tin or zinc in aluminum-based braze destabilize oxide film on aluminum, facilitating its wetting.<sup id="cite_ref-princbra_18-3" class="reference"><a href="#cite_note-princbra-18"><span class="cite-bracket">&#91;</span>18<span class="cite-bracket">&#93;</span></a></sup> </td></tr> <tr> <th><a href="/wiki/Nickel" title="Nickel">Nickel</a> </th> <td>structural, wetting </td> <td> </td> <td>high </td> <td> </td> <td>Zn, S </td> <td>Strong, corrosion-resistant. Impedes flow of the melt. Addition to gold-copper alloys improves ductility and resistance to creep at high temperatures.<sup id="cite_ref-goldsciapp_17-2" class="reference"><a href="#cite_note-goldsciapp-17"><span class="cite-bracket">&#91;</span>17<span class="cite-bracket">&#93;</span></a></sup> Addition to silver allows wetting of silver-tungsten alloys and improves bond strength. Improves wetting of copper-based brazes. Improves ductility of gold-copper brazes. Improves mechanical properties and corrosion resistance of silver-copper-zinc brazes. Nickel content offsets brittleness induced by diffusion of aluminum when brazing aluminum-containing alloys, e.g. aluminum bronzes. In some alloys increases mechanical properties and corrosion resistance, by a combination of solid solution strengthening, grain refinement, and segregation on fillet surface and in grain boundaries, where it forms a corrosion-resistant layer. Extensive intersolubility with iron, chromium, manganese, and others; can severely erode such alloys. Embrittled by zinc, many other low melting point metals, and sulfur.<sup id="cite_ref-princbra_18-4" class="reference"><a href="#cite_note-princbra-18"><span class="cite-bracket">&#91;</span>18<span class="cite-bracket">&#93;</span></a></sup> </td></tr> <tr> <th><a href="/wiki/Chromium" title="Chromium">Chromium</a> </th> <td>structural </td> <td> </td> <td>high </td> <td> </td> <td> </td> <td>Corrosion-resistant. Increases high-temperature corrosion resistance and strength of gold-based alloys. Added to copper and nickel to increase corrosion resistance of them and their alloys.<sup id="cite_ref-goldsciapp_17-3" class="reference"><a href="#cite_note-goldsciapp-17"><span class="cite-bracket">&#91;</span>17<span class="cite-bracket">&#93;</span></a></sup> Wets oxides, carbides, and graphite; frequently a major alloy component for high-temperature brazing of such materials. Impairs wetting by gold-nickel alloys, which can be compensated for by addition of boron.<sup id="cite_ref-princbra_18-5" class="reference"><a href="#cite_note-princbra-18"><span class="cite-bracket">&#91;</span>18<span class="cite-bracket">&#93;</span></a></sup> </td></tr> <tr> <th><a href="/wiki/Manganese" title="Manganese">Manganese</a> </th> <td>structural </td> <td>volatile </td> <td>good </td> <td>cheap </td> <td> </td> <td>High vapor pressure, unsuitable for vacuum brazing. In gold-based alloys increases ductility. Increases corrosion resistance of copper and nickel alloys.<sup id="cite_ref-goldsciapp_17-4" class="reference"><a href="#cite_note-goldsciapp-17"><span class="cite-bracket">&#91;</span>17<span class="cite-bracket">&#93;</span></a></sup> Improves high-temperature strength and corrosion resistance of gold-copper alloys. Higher manganese content may aggravate tendency to liquation. Manganese in some alloys may tend to cause porosity in fillets. Tends to react with graphite molds and jigs. Oxidizes easily, requires flux. Lowers melting point of high-copper brazes. Improves mechanical properties and corrosion resistance of silver-copper-zinc brazes. Cheap, even less expensive than zinc. Part of the Cu-Zn-Mn system is brittle, some ratios can not be used.<sup id="cite_ref-princbra_18-6" class="reference"><a href="#cite_note-princbra-18"><span class="cite-bracket">&#91;</span>18<span class="cite-bracket">&#93;</span></a></sup> In some alloys increases mechanical properties and corrosion resistance, by a combination of solid solution strengthening, grain refinement, and segregation on fillet surface and in grain boundaries, where it forms a corrosion-resistant layer. Facilitates wetting of cast iron due to its ability to dissolve carbon. Improves conditions for brazing of carbides. </td></tr> <tr> <th><a href="/wiki/Molybdenum" title="Molybdenum">Molybdenum</a> </th> <td>structural </td> <td> </td> <td>good </td> <td> </td> <td> </td> <td>Increases high-temperature corrosion and strength of gold-based alloys.<sup id="cite_ref-goldsciapp_17-5" class="reference"><a href="#cite_note-goldsciapp-17"><span class="cite-bracket">&#91;</span>17<span class="cite-bracket">&#93;</span></a></sup> Increases ductility of gold-based alloys, promotes their wetting of refractory materials, namely carbides and graphite. When present in alloys being joined, may destabilize the surface oxide layer (by oxidizing and then volatilizing) and facilitate wetting. </td></tr> <tr> <th><a href="/wiki/Cobalt" title="Cobalt">Cobalt</a> </th> <td>structural </td> <td> </td> <td>good </td> <td> </td> <td> </td> <td>Good high-temperature properties and corrosion resistance. In nuclear applications can absorb neutrons and build up <a href="/wiki/Cobalt-60" title="Cobalt-60">cobalt-60</a>, a potent <a href="/wiki/Gamma_radiation" class="mw-redirect" title="Gamma radiation">gamma radiation</a> emitter. </td></tr> <tr> <th><a href="/wiki/Magnesium" title="Magnesium">Magnesium</a> </th> <td>volatile O₂ getter </td> <td>volatile </td> <td> </td> <td> </td> <td> </td> <td>Addition to aluminum makes the alloy suitable for vacuum brazing. Volatile, though less than zinc. Vaporization promotes wetting by removing oxides from the surface, vapors act as <a href="/wiki/Getter" title="Getter">getter</a> for oxygen in the furnace atmosphere. </td></tr> <tr> <th><a href="/wiki/Indium" title="Indium">Indium</a> </th> <td>melting, wetting </td> <td> </td> <td> </td> <td>expensive </td> <td> </td> <td>Lowers melting point. Improves wetting of ferrous alloys by copper-silver alloys. Suitable for joining parts that will be later coated by <a href="/wiki/Titanium_nitride" title="Titanium nitride">titanium nitride</a>.<sup id="cite_ref-welmet.cz_20-1" class="reference"><a href="#cite_note-welmet.cz-20"><span class="cite-bracket">&#91;</span>20<span class="cite-bracket">&#93;</span></a></sup> </td></tr> <tr> <th><a href="/wiki/Carbon" title="Carbon">Carbon</a> </th> <td>melting </td> <td> </td> <td> </td> <td> </td> <td> </td> <td>Lowers melting point. Can form <a href="/wiki/Carbide" title="Carbide">carbides</a>. Can diffuse to the base metal, resulting in higher remelt temperature, potentially allowing step-brazing with the same alloy. At above 0.1% worsens corrosion resistance of nickel alloys. Trace amounts present in stainless steel may facilitate reduction of surface chromium(III) oxide in vacuum and allow fluxless brazing. Diffusion away from the braze increases its remelt temperature; exploited in diffusion brazing.<sup id="cite_ref-princbra_18-7" class="reference"><a href="#cite_note-princbra-18"><span class="cite-bracket">&#91;</span>18<span class="cite-bracket">&#93;</span></a></sup> </td></tr> <tr> <th><a href="/wiki/Silicon" title="Silicon">Silicon</a> </th> <td>melting, wetting </td> <td> </td> <td> </td> <td> </td> <td>Ni </td> <td>Lowers melting point. Can form <a href="/wiki/Silicide" title="Silicide">silicides</a>. Improves wetting of copper-based brazes. Promotes flow. Causes intergranular embrittlement of nickel alloys. Rapidly diffuses into the base metals. Diffusion away from the braze increases its remelt temperature; exploited in diffusion brazing. </td></tr> <tr> <th><a href="/wiki/Germanium" title="Germanium">Germanium</a> </th> <td>structural, melting </td> <td> </td> <td> </td> <td>expensive </td> <td> </td> <td>Lowers melting point. Expensive. For special applications. May create brittle phases. </td></tr> <tr> <th><a href="/wiki/Boron" title="Boron">Boron</a> </th> <td>melting, wetting </td> <td> </td> <td> </td> <td> </td> <td>Ni </td> <td>Lowers melting point. Can form hard and brittle <a href="/wiki/Boride" title="Boride">borides</a>. Unsuitable for nuclear reactors, as boron is a potent neutron absorber and therefore acts as a <a href="/wiki/Neutron_poison" title="Neutron poison">neutron poison</a>. Fast diffusion to the base metals. Can diffuse to the base metal, resulting in higher remelt temperature, potentially allowing step-brazing with the same alloy. Can erode some base materials or penetrate between grain boundaries of many heat-resistant structural alloys, degrading their mechanical properties. Causes intergranular embrittlement of nickel alloys. Improves wetting of/by some alloys, can be added to Au-Ni-Cr alloy to compensate for wetting loss by chromium addition. In low concentrations improves wetting and lowers melting point of nickel brazes. Rapidly diffuses to base materials, may lower their melting point; especially a concern when brazing thin materials. Diffusion away from the braze increases its remelt temperature; exploited in diffusion brazing. </td></tr> <tr> <th><a href="/wiki/Mischmetal" title="Mischmetal">Mischmetal</a> </th> <td>trace additive </td> <td> </td> <td> </td> <td> </td> <td> </td> <td>in amount of about 0.08%, can be used to substitute boron where boron would have detrimental effects.<sup id="cite_ref-princbra_18-8" class="reference"><a href="#cite_note-princbra-18"><span class="cite-bracket">&#91;</span>18<span class="cite-bracket">&#93;</span></a></sup> </td></tr> <tr> <th><a href="/wiki/Cerium" title="Cerium">Cerium</a> </th> <td>trace additive </td> <td> </td> <td> </td> <td> </td> <td> </td> <td>in trace quantities, improves fluidity of brazes. Particularly useful for alloys of four or more components, where the other additives compromise flow and spreading. </td></tr> <tr> <th><a href="/wiki/Strontium" title="Strontium">Strontium</a> </th> <td>trace additive </td> <td> </td> <td> </td> <td> </td> <td> </td> <td>in trace quantities, refines the grain structure of aluminum-based alloys. </td></tr> <tr> <th><a href="/wiki/Phosphorus" title="Phosphorus">Phosphorus</a> </th> <td>deoxidizer </td> <td> </td> <td> </td> <td> </td> <td><a href="/wiki/Hydrogen_sulfide" title="Hydrogen sulfide">H₂S</a>, <a href="/wiki/Sulfur_dioxide" title="Sulfur dioxide">SO₂</a>, Ni, Fe, Co </td> <td>Lowers melting point. Deoxidizer, decomposes copper oxide; phosphorus-bearing alloys can be used on copper without flux. Does not decompose zinc oxide, so flux is needed for brass. Forms brittle <a href="/wiki/Phosphide" title="Phosphide">phosphides</a> with some metals, e.g. nickel (Ni₃P) and iron, phosphorus alloys unsuitable for brazing alloys bearing iron, nickel or cobalt in amount above 3%. The phosphides segregate at grain boundaries and cause intergranular embrittlement. (Sometimes the brittle joint is actually desired, though. <a href="/wiki/Fragmentation_grenade" class="mw-redirect" title="Fragmentation grenade">Fragmentation grenades</a> can be brazed with phosphorus bearing alloy to produce joints that shatter easily at detonation.) Avoid in environments with presence of sulfur dioxide (e.g. paper mills) and hydrogen sulfide (e.g. sewers, or close to volcanoes); the phosphorus-rich phase rapidly corrodes in presence of sulfur and the joint fails. Phosphorus can be also present as an impurity introduced from e.g. electroplating baths.<sup id="cite_ref-indbrapra_19-1" class="reference"><a href="#cite_note-indbrapra-19"><span class="cite-bracket">&#91;</span>19<span class="cite-bracket">&#93;</span></a></sup> In low concentrations improves wetting and lowers melting point of nickel brazes. Diffusion away from the braze increases its remelt temperature; exploited in diffusion brazing. </td></tr> <tr> <th><a href="/wiki/Lithium" title="Lithium">Lithium</a> </th> <td>deoxidizer </td> <td> </td> <td> </td> <td> </td> <td> </td> <td>Deoxidizer. Eliminates the need for flux with some materials. Lithium oxide formed by reaction with the surface oxides is easily displaced by molten braze alloy.<sup id="cite_ref-princbra_18-9" class="reference"><a href="#cite_note-princbra-18"><span class="cite-bracket">&#91;</span>18<span class="cite-bracket">&#93;</span></a></sup> </td></tr> <tr> <th><a href="/wiki/Titanium" title="Titanium">Titanium</a> </th> <td>structural, active </td> <td> </td> <td> </td> <td> </td> <td> </td> <td>Most commonly used active metal. Few percents added to Ag-Cu alloys facilitate wetting of ceramics, e.g. <a href="/wiki/Silicon_nitride" title="Silicon nitride">silicon nitride</a>.<sup id="cite_ref-azommetcer_21-0" class="reference"><a href="#cite_note-azommetcer-21"><span class="cite-bracket">&#91;</span>21<span class="cite-bracket">&#93;</span></a></sup> Most metals, except few (namely silver, copper and gold), form brittle phases with titanium. When brazing ceramics, like other active metals, titanium reacts with them and forms a complex layer on their surface, which in turn is wettable by the silver-copper braze. Wets oxides, carbides, and graphite; frequently a major alloy component for high-temperature brazing of such materials.<sup id="cite_ref-princbra_18-10" class="reference"><a href="#cite_note-princbra-18"><span class="cite-bracket">&#91;</span>18<span class="cite-bracket">&#93;</span></a></sup> </td></tr> <tr> <th><a href="/wiki/Zirconium" title="Zirconium">Zirconium</a> </th> <td>structural, active </td> <td> </td> <td> </td> <td> </td> <td> </td> <td>Wets oxides, carbides, and graphite; frequently a major alloy component for high-temperature brazing of such materials.<sup id="cite_ref-princbra_18-11" class="reference"><a href="#cite_note-princbra-18"><span class="cite-bracket">&#91;</span>18<span class="cite-bracket">&#93;</span></a></sup> </td></tr> <tr> <th><a href="/wiki/Hafnium" title="Hafnium">Hafnium</a> </th> <td>active </td> <td> </td> <td> </td> <td> </td> <td> </td> <td> </td></tr> <tr> <th><a href="/wiki/Vanadium" title="Vanadium">Vanadium</a> </th> <td>structural, active </td> <td> </td> <td> </td> <td> </td> <td> </td> <td>Promotes wetting of alumina ceramics by gold-based alloys.<sup id="cite_ref-goldsciapp_17-6" class="reference"><a href="#cite_note-goldsciapp-17"><span class="cite-bracket">&#91;</span>17<span class="cite-bracket">&#93;</span></a></sup> </td></tr> <tr> <th><a href="/wiki/Sulfur" title="Sulfur">Sulfur</a> </th> <td>impurity </td> <td> </td> <td> </td> <td> </td> <td> </td> <td>Compromises integrity of nickel alloys. Can enter the joints from residues of lubricants, grease or paint. Forms brittle nickel sulfide (Ni₃S₂) that segregates at grain boundaries and cause intergranular failure. </td></tr></tbody></table> <p>Some additives and impurities act at very low levels. Both positive and negative effects can be observed. Strontium at levels of 0.01% refines grain structure of aluminum. Beryllium and bismuth at similar levels help disrupt the passivation layer of aluminum oxide and promote wetting. Carbon at 0.1% impairs corrosion resistance of nickel alloys. Aluminum can embrittle mild steel at 0.001%, phosphorus at 0.01%.<sup id="cite_ref-princbra_18-12" class="reference"><a href="#cite_note-princbra-18"><span class="cite-bracket">&#91;</span>18<span class="cite-bracket">&#93;</span></a></sup> </p><p>In some cases, especially for vacuum brazing, high-purity metals and alloys are used. 99.99% and 99.999% purity levels are available commercially. </p><p>Care must be taken to not introduce deleterious impurities from joint contamination or by dissolution of the base metals during brazing. </p> <div class="mw-heading mw-heading3"><h3 id="Melting_behavior">Melting behavior</h3><span class="mw-editsection"><span class="mw-editsection-bracket">[</span><a href="/w/index.php?title=Brazing&amp;action=edit&amp;section=11" title="Edit section: Melting behavior"><span>edit</span></a><span class="mw-editsection-bracket">]</span></span></div> <p>Alloys with larger span of solidus/liquidus temperatures tend to melt through a "mushy" state, during which the alloy is a mixture of solid and liquid material. Some alloys show tendency to <b><a href="/wiki/Liquation" title="Liquation">liquation</a></b>, separation of the liquid from the solid portion; for these the heating through the melting range must be sufficiently fast to avoid this effect. Some alloys show extended plastic range, when only a small portion of the alloy is liquid and most of the material melts at the upper temperature range; these are suitable for bridging large gaps and for forming fillets. Highly fluid alloys are suitable for penetrating deep into narrow gaps and for brazing tight joints with narrow tolerances but are not suitable for filling larger gaps. Alloys with wider melting range are less sensitive to non-uniform clearances. </p><p>When the brazing temperature is suitably high, brazing and <a href="/wiki/Heat_treatment" class="mw-redirect" title="Heat treatment">heat treatment</a> can be done in a single operation simultaneously. </p><p>Eutectic alloys melt at single temperature, without mushy region. Eutectic alloys have superior spreading; non-eutectics in the mushy region have high viscosity and at the same time attack the base metal, with correspondingly lower spreading force. Fine grain size gives eutectics both increased strength and increased ductility. Highly accurate melting temperature lets joining process be performed only slightly above the alloy's melting point. On solidifying, there is no mushy state where the alloy appears solid but is not yet; the chance of disturbing the joint by manipulation in such state is reduced (assuming the alloy did not significantly change its properties by dissolving the base metal). Eutectic behavior is especially beneficial for <a href="/wiki/Solder" title="Solder">solders</a>.<sup id="cite_ref-princbra_18-13" class="reference"><a href="#cite_note-princbra-18"><span class="cite-bracket">&#91;</span>18<span class="cite-bracket">&#93;</span></a></sup> </p><p>Metals with fine grain structure before melting provide superior wetting to metals with large grains. Alloying additives (e.g. strontium to aluminum) can be added to refine grain structure, and the preforms or foils can be prepared by rapid quenching. Very rapid quenching may provide amorphous metal structure, which possess further advantages.<sup id="cite_ref-princbra_18-14" class="reference"><a href="#cite_note-princbra-18"><span class="cite-bracket">&#91;</span>18<span class="cite-bracket">&#93;</span></a></sup> </p> <div class="mw-heading mw-heading3"><h3 id="Interaction_with_base_metals">Interaction with base metals</h3><span class="mw-editsection"><span class="mw-editsection-bracket">[</span><a href="/w/index.php?title=Brazing&amp;action=edit&amp;section=12" title="Edit section: Interaction with base metals"><span>edit</span></a><span class="mw-editsection-bracket">]</span></span></div> <figure class="mw-default-size" typeof="mw:File/Thumb"><a href="/wiki/File:Gary_Plant_Tubular_Steel_Corporation.jpg" class="mw-file-description"><img src="//upload.wikimedia.org/wikipedia/commons/thumb/7/7c/Gary_Plant_Tubular_Steel_Corporation.jpg/220px-Gary_Plant_Tubular_Steel_Corporation.jpg" decoding="async" width="220" height="175" class="mw-file-element" srcset="//upload.wikimedia.org/wikipedia/commons/thumb/7/7c/Gary_Plant_Tubular_Steel_Corporation.jpg/330px-Gary_Plant_Tubular_Steel_Corporation.jpg 1.5x, //upload.wikimedia.org/wikipedia/commons/thumb/7/7c/Gary_Plant_Tubular_Steel_Corporation.jpg/440px-Gary_Plant_Tubular_Steel_Corporation.jpg 2x" data-file-width="7616" data-file-height="6061" /></a><figcaption>Brazing at the Gary Tubular Steel Plant, 1943</figcaption></figure> <p>For successful wetting, the base metal must be at least partially soluble in at least one component of the brazing alloy. The molten alloy therefore tends to attack the base metal and dissolve it, slightly changing its composition in the process. The composition change is reflected in the change of the alloy's melting point and the corresponding change of fluidity. For example, some alloys dissolve both silver and copper; dissolved silver lowers their melting point and increases fluidity, copper has the opposite effect. </p><p>The melting point change can be exploited. As the remelt temperature can be increased by enriching the alloy with dissolved base metal, step brazing using the same braze can be possible.<sup id="cite_ref-22" class="reference"><a href="#cite_note-22"><span class="cite-bracket">&#91;</span>22<span class="cite-bracket">&#93;</span></a></sup> </p><p>Alloys that do not significantly attack the base metals are more suitable for brazing thin sections. </p><p>Nonhomogenous microstructure of the braze may cause non-uniform melting and localized erosions of the base metal.<sup class="noprint Inline-Template Template-Fact" style="white-space:nowrap;">&#91;<i><a href="/wiki/Wikipedia:Citation_needed" title="Wikipedia:Citation needed"><span title="This claim needs references to reliable sources. (April 2020)">citation needed</span></a></i>&#93;</sup> </p><p>Wetting of base metals can be improved by adding a suitable metal to the alloy. Tin facilitates wetting of iron, nickel, and many other alloys. Copper wets ferrous metals that silver does not attack, copper-silver alloys can therefore braze steels silver alone won't wet. Zinc improves wetting of ferrous metals, indium as well. Aluminum improves wetting of aluminum alloys. For wetting of ceramics, reactive metals capable of forming chemical compounds with the ceramic (e.g. titanium, vanadium, zirconium...) can be added to the braze. </p><p>Dissolution of base metals can cause detrimental changes in the brazing alloy. For example, aluminum dissolved from aluminum bronzes can embrittle the braze; addition of nickel to the braze can offset this.<sup class="noprint Inline-Template Template-Fact" style="white-space:nowrap;">&#91;<i><a href="/wiki/Wikipedia:Citation_needed" title="Wikipedia:Citation needed"><span title="This claim needs references to reliable sources. (April 2020)">citation needed</span></a></i>&#93;</sup> </p><p>The effect works both ways; there can be detrimental interactions between the braze alloy and the base metal. Presence of phosphorus in the braze alloy leads to formation of brittle <a href="/wiki/Phosphide" title="Phosphide">phosphides</a> of iron and nickel, phosphorus-containing alloys are therefore unsuitable for brazing nickel and ferrous alloys. Boron tends to diffuse into the base metals, especially along the grain boundaries, and may form brittle borides. Carbon can negatively influence some steels.<sup class="noprint Inline-Template Template-Fact" style="white-space:nowrap;">&#91;<i><a href="/wiki/Wikipedia:Citation_needed" title="Wikipedia:Citation needed"><span title="This claim needs references to reliable sources. (April 2020)">citation needed</span></a></i>&#93;</sup> </p><p>Care must be taken to avoid <a href="/wiki/Galvanic_corrosion" title="Galvanic corrosion">galvanic corrosion</a> between the braze and the base metal, and especially between dissimilar base metals being brazed together. Formation of brittle intermetallic compounds on the alloy interface can cause joint failure. This is discussed more in-depth with <a href="/wiki/Solder" title="Solder">solders</a>. </p><p>The potentially detrimental phases may be distributed evenly through the volume of the alloy, or be concentrated on the braze-base interface. A thick layer of interfacial intermetallics is usually considered detrimental due to its commonly low fracture toughness and other sub-par mechanical properties. In some situations, e.g. die attaching, it however does not matter much as silicon chips are not typically subjected to mechanical abuse.<sup id="cite_ref-princbra_18-15" class="reference"><a href="#cite_note-princbra-18"><span class="cite-bracket">&#91;</span>18<span class="cite-bracket">&#93;</span></a></sup> </p><p>On wetting, brazes may liberate elements from the base metal. For example, aluminum-silicon braze wets silicon nitride, dissociates the surface so it can react with silicon, and liberates nitrogen, which may create voids along the joint interface and lower its strength. Titanium-containing nickel-gold braze wets silicon nitride and reacts with its surface, forming titanium nitride and liberating silicon; silicon then forms brittle <a href="/wiki/Nickel_silicide" title="Nickel silicide">nickel silicides</a> and eutectic gold-silicon phase; the resulting joint is weak and melts at much lower temperature than may be expected.<sup id="cite_ref-princbra_18-16" class="reference"><a href="#cite_note-princbra-18"><span class="cite-bracket">&#91;</span>18<span class="cite-bracket">&#93;</span></a></sup> </p><p>Metals may diffuse from one base alloy to the other one, causing embrittlement or corrosion. An example is diffusion of aluminum from aluminum bronze to a ferrous alloy when joining these. A diffusion barrier, e.g. a copper layer (e.g. in a trimet strip), can be used. </p><p>A sacrificial layer of a noble metal can be used on the base metal as an oxygen barrier, preventing formation of oxides and facilitating fluxless brazing. During brazing, the noble metal layer dissolves in the filler metal. Copper or nickel plating of stainless steels performs the same function.<sup id="cite_ref-princbra_18-17" class="reference"><a href="#cite_note-princbra-18"><span class="cite-bracket">&#91;</span>18<span class="cite-bracket">&#93;</span></a></sup> </p><p>In brazing copper, a reducing atmosphere (or even a reducing flame) may react with the oxygen residues in the metal, which are present as <a href="/wiki/Cuprous_oxide" class="mw-redirect" title="Cuprous oxide">cuprous oxide</a> inclusions, and cause <a href="/wiki/Hydrogen_embrittlement" title="Hydrogen embrittlement">hydrogen embrittlement</a>. The hydrogen present in the flame or atmosphere at high temperature reacts with the oxide, yielding metallic copper and water vapour, steam. The steam bubbles exert high pressure in the metal structure, leading to cracks and joint porosity. <a href="/wiki/Oxygen-free_copper" title="Oxygen-free copper">Oxygen-free copper</a> is not sensitive to this effect, however the most readily available grades, e.g. electrolytic copper or high-conductivity copper, are. The embrittled joint may then fail catastrophically without any previous sign of deformation or deterioration. </p> <div class="mw-heading mw-heading2"><h2 id="Flux">Flux</h2><span class="mw-editsection"><span class="mw-editsection-bracket">[</span><a href="/w/index.php?title=Brazing&amp;action=edit&amp;section=13" title="Edit section: Flux"><span>edit</span></a><span class="mw-editsection-bracket">]</span></span></div> <p>Unless brazing operations are contained within an <a href="/wiki/Inert_gas" title="Inert gas">inert</a> or <a href="/wiki/Reducing_atmosphere" title="Reducing atmosphere">reducing atmosphere</a> environment (i.e. <a href="/wiki/Nitrogen" title="Nitrogen">Nitrogen</a>), a <a href="/wiki/Flux_(metallurgy)" title="Flux (metallurgy)">flux</a> such as <a href="/wiki/Borax" title="Borax">borax</a> is required to prevent oxides from forming while the metal is heated. The flux also serves the purpose of cleaning any contamination left on the brazing surfaces. Flux can be applied in any number of forms including flux paste, liquid, powder or pre-made brazing pastes that combine flux with filler metal powder. Flux can also be applied using brazing rods with a coating of flux, or a flux core. In either case, the flux flows into the joint when applied to the heated joint and is displaced by the molten filler metal entering the joint. Excess flux should be removed when the cycle is completed because flux left in the joint can lead to corrosion, impede joint inspection, and prevent further surface finishing operations. Phosphorus-containing brazing alloys can be self-fluxing when joining copper to copper.<sup id="cite_ref-Sil-Fos_23-0" class="reference"><a href="#cite_note-Sil-Fos-23"><span class="cite-bracket">&#91;</span>23<span class="cite-bracket">&#93;</span></a></sup> Fluxes are generally selected based on their performance on particular base metals. To be effective, the flux must be chemically compatible with both the base metal and the filler metal being used. Self-fluxing phosphorus filler alloys produce brittle <a href="/wiki/Phosphide" title="Phosphide">phosphides</a> if used on iron or nickel.<sup id="cite_ref-Sil-Fos_23-1" class="reference"><a href="#cite_note-Sil-Fos-23"><span class="cite-bracket">&#91;</span>23<span class="cite-bracket">&#93;</span></a></sup> As a general rule, longer brazing cycles should use less active fluxes than short brazing operations.<sup id="cite_ref-24" class="reference"><a href="#cite_note-24"><span class="cite-bracket">&#91;</span>24<span class="cite-bracket">&#93;</span></a></sup> </p> <div class="mw-heading mw-heading2"><h2 id="Atmosphere">Atmosphere</h2><span class="mw-editsection"><span class="mw-editsection-bracket">[</span><a href="/w/index.php?title=Brazing&amp;action=edit&amp;section=14" title="Edit section: Atmosphere"><span>edit</span></a><span class="mw-editsection-bracket">]</span></span></div> <p>As brazing work requires high temperatures, oxidation of the metal surface occurs in an oxygen-containing atmosphere. This may necessitate the use of an atmospheric environment other than air. The commonly used atmospheres are:<sup id="cite_ref-25" class="reference"><a href="#cite_note-25"><span class="cite-bracket">&#91;</span>25<span class="cite-bracket">&#93;</span></a></sup><sup id="cite_ref-26" class="reference"><a href="#cite_note-26"><span class="cite-bracket">&#91;</span>26<span class="cite-bracket">&#93;</span></a></sup> </p> <dl><dt><a href="/wiki/Air" class="mw-redirect" title="Air">Air</a></dt> <dd>Simple and economical. Many materials susceptible to oxidation and buildup of <a href="/wiki/Mill_scale" title="Mill scale">scale</a>. Acid cleaning bath or mechanical cleaning can be used to remove the oxidation after work. Flux counteracts the oxidation, but may weaken the joint.</dd> <dt>Combusted fuel gas</dt> <dd>Low hydrogen, AWS type 1, "exothermic generated atmospheres". 87% N₂, 11–12% CO₂, 5-1% CO, 5-1% H₂. For silver, copper-phosphorus and copper-zinc filler metals. For brazing copper and brass.</dd> <dt>Combusted fuel gas</dt> <dd><a href="/wiki/Decarburizing" class="mw-redirect" title="Decarburizing">Decarburizing</a>, AWS type 2, "endothermic generated atmospheres. 70–71% N₂, 5–6% CO₂, 9–10% CO, 14–15% H₂. For copper, silver, copper-phosphorus and copper-zinc filler metals. For brazing copper, brass, nickel alloys, Monel, medium <a href="/wiki/Carbon_steel" title="Carbon steel">carbon steels</a>.</dd> <dt>Combusted fuel gas</dt> <dd>Dried, AWS type 3, "endothermic generated atmospheres. 73–75% N₂, 10–11% CO, 15–16% H₂. For copper, silver, copper-phosphorus and copper-zinc filler metals. For brazing copper, brass, low-nickel alloys, <a href="/wiki/Monel" title="Monel">Monel</a>, medium and high <a href="/wiki/Carbon_steel" title="Carbon steel">carbon steels</a>.</dd> <dt>Combusted fuel gas</dt> <dd>Dried, decarburizing, AWS type 4. 41–45% N₂, 17–19% CO, 38–40% H₂. For copper, silver, copper-phosphorus and copper-zinc filler metals. For brazing copper, brass, low-nickel alloys, medium and high <a href="/wiki/Carbon_steel" title="Carbon steel">carbon steels</a>.</dd> <dt><a href="/wiki/Ammonia" title="Ammonia">Ammonia</a></dt> <dd>AWS type 5, also called <a href="/wiki/Forming_gas" title="Forming gas">forming gas</a>. Dissociated ammonia (75% hydrogen, 25% nitrogen) can be used for many types of brazing and annealing. Inexpensive. For copper, silver, nickel, copper-phosphorus and copper-zinc filler metals. For brazing copper, brass, nickel alloys, Monel, medium and high <a href="/wiki/Carbon_steel" title="Carbon steel">carbon steels</a> and chromium alloys.</dd> <dt>Nitrogen+hydrogen</dt> <dd>Cryogenic or purified (AWS type 6A). 70–99% N₂, 1–30% H₂. For copper, silver, nickel, copper-phosphorus and copper-zinc filler metals.</dd> <dt>Nitrogen+hydrogen+carbon monoxide</dt> <dd>Cryogenic or purified (AWS type 6B). 70–99% N₂, 2–20% H₂, 1–10% CO. For copper, silver, nickel, copper-phosphorus and copper-zinc filler metals. For brazing copper, brass, low-nickel alloys, medium and high <a href="/wiki/Carbon_steel" title="Carbon steel">carbon steels</a>.</dd> <dt><a href="/wiki/Nitrogen" title="Nitrogen">Nitrogen</a></dt> <dd>Cryogenic or purified (AWS type 6C). Non-oxidizing, economical. At high temperatures can react with some metals, e.g. certain steels, forming <a href="/wiki/Nitride" title="Nitride">nitrides</a>. For copper, silver, nickel, copper-phosphorus and copper-zinc filler metals. For brazing copper, brass, low-nickel alloys, Monel, medium and high <a href="/wiki/Carbon_steel" title="Carbon steel">carbon steels</a>.</dd> <dt><a href="/wiki/Hydrogen" title="Hydrogen">Hydrogen</a></dt> <dd>AWS type 7. Strong deoxidizer, highly thermally conductive. Can be used for copper brazing and annealing steel. May cause <a href="/wiki/Hydrogen_embrittlement" title="Hydrogen embrittlement">hydrogen embrittlement</a> to some alloys. For copper, silver, nickel, copper-phosphorus and copper-zinc filler metals. For brazing copper, brass, nickel alloys, Monel, medium and high <a href="/wiki/Carbon_steel" title="Carbon steel">carbon steels</a> and chromium alloys, cobalt alloys, tungsten alloys, and carbides.</dd> <dt>Inorganic vapors</dt> <dd>Various volatile fluorides, AWS type 8. Special purpose. Can be mixed with atmospheres AWS 1–5 to replace flux. Used for silver-brazing of brasses.</dd> <dt><a href="/wiki/Noble_gas" title="Noble gas">Noble gas</a></dt> <dd>Usually <a href="/wiki/Argon" title="Argon">argon</a>, AWS type 9. Non-oxidizing, more expensive than nitrogen. Inert. Parts must be very clean, gas must be pure. For copper, silver, nickel, copper-phosphorus and copper-zinc filler metals. For brazing copper, brass, nickel alloys, Monel, medium and high <a href="/wiki/Carbon_steel" title="Carbon steel">carbon steels</a> chromium alloys, titanium, zirconium, hafnium.</dd> <dt>Noble gas+hydrogen</dt> <dd>AWS type 9A.</dd> <dt><a href="/wiki/Vacuum" title="Vacuum">Vacuum</a></dt> <dd>Requires evacuating the work chamber. Expensive. Unsuitable (or requires special care) for metals with high vapor pressure, e.g. silver, zinc, phosphorus, cadmium, and manganese. Used for highest-quality joints, for e.g. <a href="/wiki/Aerospace" title="Aerospace">aerospace</a> applications.</dd></dl> <div class="mw-heading mw-heading2"><h2 id="Preforms">Preforms</h2><span class="mw-editsection"><span class="mw-editsection-bracket">[</span><a href="/w/index.php?title=Brazing&amp;action=edit&amp;section=15" title="Edit section: Preforms"><span>edit</span></a><span class="mw-editsection-bracket">]</span></span></div> <p>A brazing preform is a high quality, precision metal stamping used for a variety of joining applications in manufacturing electronic devices and systems. Typical brazing preform uses include attaching electronic circuitry, packaging electronic devices, providing good thermal and electrical conductivity, and providing an interface for electronic connections. Square, rectangular and disc shaped brazing preforms are commonly used to attach electronic components containing <a href="/wiki/Silicon_die" class="mw-redirect" title="Silicon die">silicon dies</a> to a substrate such as a <a href="/wiki/Printed_circuit_board" title="Printed circuit board">printed circuit board</a>. Rectangular frame shaped preforms are often required for the construction of electronic packages while washer shaped brazing preforms are typically utilized to attach <a href="/wiki/Lead_(electronics)" title="Lead (electronics)">lead wires</a> and hermetic feed-throughs to electronic circuits and packages. Some preforms are also used in <a href="/wiki/Diode" title="Diode">diodes</a>, <a href="/wiki/Rectifier" title="Rectifier">rectifiers</a>, <a href="/wiki/Optoelectronic" class="mw-redirect" title="Optoelectronic">optoelectronic</a> devices and components packaging.<sup id="cite_ref-27" class="reference"><a href="#cite_note-27"><span class="cite-bracket">&#91;</span>27<span class="cite-bracket">&#93;</span></a></sup> </p> <div class="mw-heading mw-heading2"><h2 id="Safety">Safety</h2><span class="mw-editsection"><span class="mw-editsection-bracket">[</span><a href="/w/index.php?title=Brazing&amp;action=edit&amp;section=16" title="Edit section: Safety"><span>edit</span></a><span class="mw-editsection-bracket">]</span></span></div> <p>Brazing may entail exposure to <a href="/wiki/Chemical_hazard" title="Chemical hazard">hazardous</a> chemical fumes. The <a href="/wiki/National_Institute_for_Occupational_Safety_and_Health" title="National Institute for Occupational Safety and Health">National Institute for Occupational Safety and Health</a> in the United States recommends that exposure to these fumes is <a href="/wiki/Engineering_controls" title="Engineering controls">controlled</a> to levels below the allowed <a href="/wiki/Occupational_exposure_limit" title="Occupational exposure limit">exposure limit</a>.<sup id="cite_ref-28" class="reference"><a href="#cite_note-28"><span class="cite-bracket">&#91;</span>28<span class="cite-bracket">&#93;</span></a></sup> </p> <div class="mw-heading mw-heading2"><h2 id="See_also">See also</h2><span class="mw-editsection"><span class="mw-editsection-bracket">[</span><a href="/w/index.php?title=Brazing&amp;action=edit&amp;section=17" title="Edit section: See also"><span>edit</span></a><span class="mw-editsection-bracket">]</span></span></div> <ul><li><a href="/wiki/Braze-on" title="Braze-on">Braze-on</a></li> <li><a href="/wiki/CuproBraze" title="CuproBraze">CuproBraze</a></li> <li><a href="/wiki/Petit_chien_%C3%A0_b%C3%A9li%C3%A8re" title="Petit chien à bélière">Petit chien à bélière</a></li> <li><a href="/wiki/Soldering" title="Soldering">Soldering</a></li></ul> <div class="mw-heading mw-heading2"><h2 id="References">References</h2><span class="mw-editsection"><span class="mw-editsection-bracket">[</span><a href="/w/index.php?title=Brazing&amp;action=edit&amp;section=18" title="Edit section: References"><span>edit</span></a><span class="mw-editsection-bracket">]</span></span></div> <style data-mw-deduplicate="TemplateStyles:r1239543626">.mw-parser-output .reflist{margin-bottom:0.5em;list-style-type:decimal}@media screen{.mw-parser-output .reflist{font-size:90%}}.mw-parser-output .reflist .references{font-size:100%;margin-bottom:0;list-style-type:inherit}.mw-parser-output .reflist-columns-2{column-width:30em}.mw-parser-output .reflist-columns-3{column-width:25em}.mw-parser-output .reflist-columns{margin-top:0.3em}.mw-parser-output .reflist-columns ol{margin-top:0}.mw-parser-output .reflist-columns li{page-break-inside:avoid;break-inside:avoid-column}.mw-parser-output .reflist-upper-alpha{list-style-type:upper-alpha}.mw-parser-output .reflist-upper-roman{list-style-type:upper-roman}.mw-parser-output .reflist-lower-alpha{list-style-type:lower-alpha}.mw-parser-output .reflist-lower-greek{list-style-type:lower-greek}.mw-parser-output .reflist-lower-roman{list-style-type:lower-roman}</style><div class="reflist"> <div class="mw-references-wrap mw-references-columns"><ol class="references"> <li id="cite_note-Groover-1"><span class="mw-cite-backlink">^ <a href="#cite_ref-Groover_1-0">^{<i><b>a</b></i>}</a> <a href="#cite_ref-Groover_1-1">^{<i><b>b</b></i>}</a> <a href="#cite_ref-Groover_1-2">^{<i><b>c</b></i>}</a> <a href="#cite_ref-Groover_1-3">^{<i><b>d</b></i>}</a> <a href="#cite_ref-Groover_1-4">^{<i><b>e</b></i>}</a></span> <span class="reference-text"><a href="#CITEREFGroover2007">Groover 2007</a>, pp.&#160;746–748</span> </li> <li id="cite_note-2"><span class="mw-cite-backlink"><b><a href="#cite_ref-2">^</a></b></span> <span class="reference-text"><a rel="nofollow" class="external text" href="http://www.deringerney.com/products-and-capabilities/metal-joining/">"Joining Dissimilar Metals"</a> <a rel="nofollow" class="external text" href="https://web.archive.org/web/20140304104233/http://www.deringerney.com/products-and-capabilities/metal-joining/">Archived</a> 2014-03-04 at the <a href="/wiki/Wayback_Machine" title="Wayback Machine">Wayback Machine</a>. Deringer-Ney, April 29, 2014</span> </li> <li id="cite_note-page3-3"><span class="mw-cite-backlink"><b><a href="#cite_ref-page3_3-0">^</a></b></span> <span class="reference-text"><a href="#CITEREFSchwartz1987">Schwartz 1987</a>, p.&#160;3</span> </li> <li id="cite_note-4"><span class="mw-cite-backlink"><b><a href="#cite_ref-4">^</a></b></span> <span class="reference-text"><a href="#CITEREFSchwartz1987">Schwartz 1987</a>, pp.&#160;118–119</span> </li> <li id="cite_note-5"><span class="mw-cite-backlink"><b><a href="#cite_ref-5">^</a></b></span> <span class="reference-text"><style data-mw-deduplicate="TemplateStyles:r1238218222">.mw-parser-output cite.citation{font-style:inherit;word-wrap:break-word}.mw-parser-output .citation q{quotes:"\"""\"""'""'"}.mw-parser-output .citation:target{background-color:rgba(0,127,255,0.133)}.mw-parser-output .id-lock-free.id-lock-free a{background:url("//upload.wikimedia.org/wikipedia/commons/6/65/Lock-green.svg")right 0.1em center/9px no-repeat}.mw-parser-output .id-lock-limited.id-lock-limited a,.mw-parser-output .id-lock-registration.id-lock-registration a{background:url("//upload.wikimedia.org/wikipedia/commons/d/d6/Lock-gray-alt-2.svg")right 0.1em center/9px no-repeat}.mw-parser-output .id-lock-subscription.id-lock-subscription a{background:url("//upload.wikimedia.org/wikipedia/commons/a/aa/Lock-red-alt-2.svg")right 0.1em center/9px no-repeat}.mw-parser-output .cs1-ws-icon a{background:url("//upload.wikimedia.org/wikipedia/commons/4/4c/Wikisource-logo.svg")right 0.1em center/12px no-repeat}body:not(.skin-timeless):not(.skin-minerva) .mw-parser-output .id-lock-free a,body:not(.skin-timeless):not(.skin-minerva) .mw-parser-output .id-lock-limited a,body:not(.skin-timeless):not(.skin-minerva) .mw-parser-output .id-lock-registration a,body:not(.skin-timeless):not(.skin-minerva) .mw-parser-output .id-lock-subscription a,body:not(.skin-timeless):not(.skin-minerva) .mw-parser-output .cs1-ws-icon a{background-size:contain;padding:0 1em 0 0}.mw-parser-output .cs1-code{color:inherit;background:inherit;border:none;padding:inherit}.mw-parser-output .cs1-hidden-error{display:none;color:var(--color-error,#d33)}.mw-parser-output .cs1-visible-error{color:var(--color-error,#d33)}.mw-parser-output .cs1-maint{display:none;color:#085;margin-left:0.3em}.mw-parser-output .cs1-kern-left{padding-left:0.2em}.mw-parser-output .cs1-kern-right{padding-right:0.2em}.mw-parser-output .citation .mw-selflink{font-weight:inherit}@media screen{.mw-parser-output .cs1-format{font-size:95%}html.skin-theme-clientpref-night .mw-parser-output .cs1-maint{color:#18911f}}@media screen and (prefers-color-scheme:dark){html.skin-theme-clientpref-os .mw-parser-output .cs1-maint{color:#18911f}}</style><cite id="CITEREFAlan_Belohlav" class="citation web cs1">Alan Belohlav. <a rel="nofollow" class="external text" href="https://web.archive.org/web/20140227064624/http://www.aws.org/wj/amwelder/9-00/fundamentals.html">"Understanding Brazing Fundamentals"</a>. <i>American Welding Society</i>. Archived from <a rel="nofollow" class="external text" href="http://www.aws.org/wj/amwelder/9-00/fundamentals.html">the original</a> on 2014-02-27.</cite><span title="ctx_ver=Z39.88-2004&amp;rft_val_fmt=info%3Aofi%2Ffmt%3Akev%3Amtx%3Ajournal&amp;rft.genre=unknown&amp;rft.jtitle=American+Welding+Society&amp;rft.atitle=Understanding+Brazing+Fundamentals&amp;rft.au=Alan+Belohlav&amp;rft_id=http%3A%2F%2Fwww.aws.org%2Fwj%2Famwelder%2F9-00%2Ffundamentals.html&amp;rfr_id=info%3Asid%2Fen.wikipedia.org%3ABrazing" class="Z3988"></span></span> </li> <li id="cite_note-page20-6"><span class="mw-cite-backlink">^ <a href="#cite_ref-page20_6-0">^{<i><b>a</b></i>}</a> <a href="#cite_ref-page20_6-1">^{<i><b>b</b></i>}</a> <a href="#cite_ref-page20_6-2">^{<i><b>c</b></i>}</a></span> <span class="reference-text"><a href="#CITEREFSchwartz1987">Schwartz 1987</a>, pp.&#160;20–24</span> </li> <li id="cite_note-7"><span class="mw-cite-backlink"><b><a href="#cite_ref-7">^</a></b></span> <span class="reference-text">AWS A3.0:2001, Standard Welding Terms and Definitions Including Terms for Adhesive Bonding, Brazing, Soldering, Thermal Cutting, and Thermal Spraying, American Welding Society (2001), p. 118. <link rel="mw-deduplicated-inline-style" href="mw-data:TemplateStyles:r1238218222"><a href="/wiki/ISBN_(identifier)" class="mw-redirect" title="ISBN (identifier)">ISBN</a>&#160;<a href="/wiki/Special:BookSources/0-87171-624-0" title="Special:BookSources/0-87171-624-0">0-87171-624-0</a></span> </li> <li id="cite_note-8"><span class="mw-cite-backlink"><b><a href="#cite_ref-8">^</a></b></span> <span class="reference-text"><a href="#CITEREFSchwartz1987">Schwartz 1987</a>, pp.&#160;24–37</span> </li> <li id="cite_note-9"><span class="mw-cite-backlink"><b><a href="#cite_ref-9">^</a></b></span> <span class="reference-text"><link rel="mw-deduplicated-inline-style" href="mw-data:TemplateStyles:r1238218222"><cite class="citation web cs1"><a rel="nofollow" class="external text" href="https://www.twi-global.com/technical-knowledge/faqs/faq-what-are-the-different-methods-of-brazing/">"FAQ: What are the different methods of brazing?"</a>. <i>The Welding Institute</i><span class="reference-accessdate">. Retrieved <span class="nowrap">27 December</span> 2017</span>.</cite><span title="ctx_ver=Z39.88-2004&amp;rft_val_fmt=info%3Aofi%2Ffmt%3Akev%3Amtx%3Ajournal&amp;rft.genre=unknown&amp;rft.jtitle=The+Welding+Institute&amp;rft.atitle=FAQ%3A+What+are+the+different+methods+of+brazing%3F&amp;rft_id=https%3A%2F%2Fwww.twi-global.com%2Ftechnical-knowledge%2Ffaqs%2Ffaq-what-are-the-different-methods-of-brazing%2F&amp;rfr_id=info%3Asid%2Fen.wikipedia.org%3ABrazing" class="Z3988"></span></span> </li> <li id="cite_note-torch-10"><span class="mw-cite-backlink">^ <a href="#cite_ref-torch_10-0">^{<i><b>a</b></i>}</a> <a href="#cite_ref-torch_10-1">^{<i><b>b</b></i>}</a> <a href="#cite_ref-torch_10-2">^{<i><b>c</b></i>}</a> <a href="#cite_ref-torch_10-3">^{<i><b>d</b></i>}</a></span> <span class="reference-text"><a href="#CITEREFSchwartz1987">Schwartz 1987</a>, pp.&#160;189–198</span> </li> <li id="cite_note-furnace-11"><span class="mw-cite-backlink">^ <a href="#cite_ref-furnace_11-0">^{<i><b>a</b></i>}</a> <a href="#cite_ref-furnace_11-1">^{<i><b>b</b></i>}</a> <a href="#cite_ref-furnace_11-2">^{<i><b>c</b></i>}</a> <a href="#cite_ref-furnace_11-3">^{<i><b>d</b></i>}</a> <a href="#cite_ref-furnace_11-4">^{<i><b>e</b></i>}</a> <a href="#cite_ref-furnace_11-5">^{<i><b>f</b></i>}</a></span> <span class="reference-text"><a href="#CITEREFSchwartz1987">Schwartz 1987</a>, pp.&#160;199–222</span> </li> <li id="cite_note-12"><span class="mw-cite-backlink"><b><a href="#cite_ref-12">^</a></b></span> <span class="reference-text"><link rel="mw-deduplicated-inline-style" href="mw-data:TemplateStyles:r1238218222"><cite class="citation web cs1"><a rel="nofollow" class="external text" href="http://www.lytron.com/Tools-and-Technical-Reference/Application-Notes/Aluminum-Vacuum-Brazing">"Vacuum Brazing of Aluminum Cold Plates and Heat Exchangers &#8211; Lytron Inc"</a>. <i>www.lytron.com</i><span class="reference-accessdate">. Retrieved <span class="nowrap">2017-12-27</span></span>.</cite><span title="ctx_ver=Z39.88-2004&amp;rft_val_fmt=info%3Aofi%2Ffmt%3Akev%3Amtx%3Ajournal&amp;rft.genre=unknown&amp;rft.jtitle=www.lytron.com&amp;rft.atitle=Vacuum+Brazing+of+Aluminum+Cold+Plates+and+Heat+Exchangers+%26ndash%3B+Lytron+Inc&amp;rft_id=http%3A%2F%2Fwww.lytron.com%2FTools-and-Technical-Reference%2FApplication-Notes%2FAluminum-Vacuum-Brazing&amp;rfr_id=info%3Asid%2Fen.wikipedia.org%3ABrazing" class="Z3988"></span></span> </li> <li id="cite_note-13"><span class="mw-cite-backlink"><b><a href="#cite_ref-13">^</a></b></span> <span class="reference-text"><link rel="mw-deduplicated-inline-style" href="mw-data:TemplateStyles:r1238218222"><cite class="citation news cs1"><a rel="nofollow" class="external text" href="http://lynchmetals.com/products/flux-brazing-alloys/">"Flux Brazing Alloys | Lynch Metals, Inc"</a>. <i>Lynch Metals, Inc</i><span class="reference-accessdate">. Retrieved <span class="nowrap">2017-12-27</span></span>.</cite><span title="ctx_ver=Z39.88-2004&amp;rft_val_fmt=info%3Aofi%2Ffmt%3Akev%3Amtx%3Ajournal&amp;rft.genre=article&amp;rft.jtitle=Lynch+Metals%2C+Inc&amp;rft.atitle=Flux+Brazing+Alloys+%7C+Lynch+Metals%2C+Inc&amp;rft_id=http%3A%2F%2Flynchmetals.com%2Fproducts%2Fflux-brazing-alloys%2F&amp;rfr_id=info%3Asid%2Fen.wikipedia.org%3ABrazing" class="Z3988"></span></span> </li> <li id="cite_note-Scwartz_1987_131–160-14"><span class="mw-cite-backlink">^ <a href="#cite_ref-Scwartz_1987_131–160_14-0">^{<i><b>a</b></i>}</a> <a href="#cite_ref-Scwartz_1987_131–160_14-1">^{<i><b>b</b></i>}</a></span> <span class="reference-text"><a href="#CITEREFSchwartz1987">Schwartz 1987</a>, pp.&#160;131–160</span> </li> <li id="cite_note-15"><span class="mw-cite-backlink"><b><a href="#cite_ref-15">^</a></b></span> <span class="reference-text"><a href="#CITEREFSchwartz1987">Schwartz 1987</a>, pp.&#160;163–185</span> </li> <li id="cite_note-16"><span class="mw-cite-backlink"><b><a href="#cite_ref-16">^</a></b></span> <span class="reference-text"><link rel="mw-deduplicated-inline-style" href="mw-data:TemplateStyles:r1238218222"><cite class="citation web cs1"><a rel="nofollow" class="external text" href="https://web.archive.org/web/20101007120143/http://www.silvaloy.com/alloy_selection.php">"Guidelines for Selecting the Right Brazing Alloy"</a>. Silvaloy.com. Archived from <a rel="nofollow" class="external text" href="http://www.silvaloy.com/alloy_selection.php">the original</a> on 2010-10-07<span class="reference-accessdate">. Retrieved <span class="nowrap">2010-07-26</span></span>.</cite><span title="ctx_ver=Z39.88-2004&amp;rft_val_fmt=info%3Aofi%2Ffmt%3Akev%3Amtx%3Abook&amp;rft.genre=unknown&amp;rft.btitle=Guidelines+for+Selecting+the+Right+Brazing+Alloy&amp;rft.pub=Silvaloy.com&amp;rft_id=http%3A%2F%2Fwww.silvaloy.com%2Falloy_selection.php&amp;rfr_id=info%3Asid%2Fen.wikipedia.org%3ABrazing" class="Z3988"></span></span> </li> <li id="cite_note-goldsciapp-17"><span class="mw-cite-backlink">^ <a href="#cite_ref-goldsciapp_17-0">^{<i><b>a</b></i>}</a> <a href="#cite_ref-goldsciapp_17-1">^{<i><b>b</b></i>}</a> <a href="#cite_ref-goldsciapp_17-2">^{<i><b>c</b></i>}</a> <a href="#cite_ref-goldsciapp_17-3">^{<i><b>d</b></i>}</a> <a href="#cite_ref-goldsciapp_17-4">^{<i><b>e</b></i>}</a> <a href="#cite_ref-goldsciapp_17-5">^{<i><b>f</b></i>}</a> <a href="#cite_ref-goldsciapp_17-6">^{<i><b>g</b></i>}</a></span> <span class="reference-text"><link rel="mw-deduplicated-inline-style" href="mw-data:TemplateStyles:r1238218222"><cite id="CITEREFChristopher_CortiRichard_Holliday2009" class="citation book cs1">Christopher Corti; Richard Holliday (2009). <a rel="nofollow" class="external text" href="https://books.google.com/books?id=8caeFTHlLLYC&amp;pg=PA184"><i>Gold: Science and Applications</i></a>. CRC Press. pp.&#160;184–. <a href="/wiki/ISBN_(identifier)" class="mw-redirect" title="ISBN (identifier)">ISBN</a>&#160;<a href="/wiki/Special:BookSources/978-1-4200-6526-8" title="Special:BookSources/978-1-4200-6526-8"><bdi>978-1-4200-6526-8</bdi></a>. <a rel="nofollow" class="external text" href="https://web.archive.org/web/20171101111334/https://books.google.com/books?id=8caeFTHlLLYC&amp;pg=PA184">Archived</a> from the original on 2017-11-01.</cite><span title="ctx_ver=Z39.88-2004&amp;rft_val_fmt=info%3Aofi%2Ffmt%3Akev%3Amtx%3Abook&amp;rft.genre=book&amp;rft.btitle=Gold%3A+Science+and+Applications&amp;rft.pages=184-&amp;rft.pub=CRC+Press&amp;rft.date=2009&amp;rft.isbn=978-1-4200-6526-8&amp;rft.au=Christopher+Corti&amp;rft.au=Richard+Holliday&amp;rft_id=https%3A%2F%2Fbooks.google.com%2Fbooks%3Fid%3D8caeFTHlLLYC%26pg%3DPA184&amp;rfr_id=info%3Asid%2Fen.wikipedia.org%3ABrazing" class="Z3988"></span></span> </li> <li id="cite_note-princbra-18"><span class="mw-cite-backlink">^ <a href="#cite_ref-princbra_18-0">^{<i><b>a</b></i>}</a> <a href="#cite_ref-princbra_18-1">^{<i><b>b</b></i>}</a> <a href="#cite_ref-princbra_18-2">^{<i><b>c</b></i>}</a> <a href="#cite_ref-princbra_18-3">^{<i><b>d</b></i>}</a> <a href="#cite_ref-princbra_18-4">^{<i><b>e</b></i>}</a> <a href="#cite_ref-princbra_18-5">^{<i><b>f</b></i>}</a> <a href="#cite_ref-princbra_18-6">^{<i><b>g</b></i>}</a> <a href="#cite_ref-princbra_18-7">^{<i><b>h</b></i>}</a> <a href="#cite_ref-princbra_18-8">^{<i><b>i</b></i>}</a> <a href="#cite_ref-princbra_18-9">^{<i><b>j</b></i>}</a> <a href="#cite_ref-princbra_18-10">^{<i><b>k</b></i>}</a> <a href="#cite_ref-princbra_18-11">^{<i><b>l</b></i>}</a> <a href="#cite_ref-princbra_18-12">^{<i><b>m</b></i>}</a> <a href="#cite_ref-princbra_18-13">^{<i><b>n</b></i>}</a> <a href="#cite_ref-princbra_18-14">^{<i><b>o</b></i>}</a> <a href="#cite_ref-princbra_18-15">^{<i><b>p</b></i>}</a> <a href="#cite_ref-princbra_18-16">^{<i><b>q</b></i>}</a> <a href="#cite_ref-princbra_18-17">^{<i><b>r</b></i>}</a></span> <span class="reference-text"><link rel="mw-deduplicated-inline-style" href="mw-data:TemplateStyles:r1238218222"><cite id="CITEREFDavid_M._JacobsonGiles_Humpston2005" class="citation book cs1">David M. Jacobson; Giles Humpston (2005). <a rel="nofollow" class="external text" href="https://books.google.com/books?id=VERkOmBsW8YC&amp;pg=PA71"><i>Principles of Brazing</i></a>. ASM International. pp.&#160;71–. <a href="/wiki/ISBN_(identifier)" class="mw-redirect" title="ISBN (identifier)">ISBN</a>&#160;<a href="/wiki/Special:BookSources/978-1-61503-104-7" title="Special:BookSources/978-1-61503-104-7"><bdi>978-1-61503-104-7</bdi></a>. <a rel="nofollow" class="external text" href="https://web.archive.org/web/20171113142916/https://books.google.com/books?id=VERkOmBsW8YC&amp;pg=PA71">Archived</a> from the original on 2017-11-13.</cite><span title="ctx_ver=Z39.88-2004&amp;rft_val_fmt=info%3Aofi%2Ffmt%3Akev%3Amtx%3Abook&amp;rft.genre=book&amp;rft.btitle=Principles+of+Brazing&amp;rft.pages=71-&amp;rft.pub=ASM+International&amp;rft.date=2005&amp;rft.isbn=978-1-61503-104-7&amp;rft.au=David+M.+Jacobson&amp;rft.au=Giles+Humpston&amp;rft_id=https%3A%2F%2Fbooks.google.com%2Fbooks%3Fid%3DVERkOmBsW8YC%26pg%3DPA71&amp;rfr_id=info%3Asid%2Fen.wikipedia.org%3ABrazing" class="Z3988"></span></span> </li> <li id="cite_note-indbrapra-19"><span class="mw-cite-backlink">^ <a href="#cite_ref-indbrapra_19-0">^{<i><b>a</b></i>}</a> <a href="#cite_ref-indbrapra_19-1">^{<i><b>b</b></i>}</a></span> <span class="reference-text"><link rel="mw-deduplicated-inline-style" href="mw-data:TemplateStyles:r1238218222"><cite id="CITEREFPhilip_Roberts2003" class="citation book cs1">Philip Roberts (2003). <a rel="nofollow" class="external text" href="https://books.google.com/books?id=LHOsJGu9WUAC&amp;pg=PA272"><i>Industrial Brazing Practice</i></a>. CRC Press. pp.&#160;272–. <a href="/wiki/ISBN_(identifier)" class="mw-redirect" title="ISBN (identifier)">ISBN</a>&#160;<a href="/wiki/Special:BookSources/978-0-203-48857-7" title="Special:BookSources/978-0-203-48857-7"><bdi>978-0-203-48857-7</bdi></a>. <a rel="nofollow" class="external text" href="https://web.archive.org/web/20171113142916/https://books.google.com/books?id=LHOsJGu9WUAC&amp;pg=PA272">Archived</a> from the original on 2017-11-13.</cite><span title="ctx_ver=Z39.88-2004&amp;rft_val_fmt=info%3Aofi%2Ffmt%3Akev%3Amtx%3Abook&amp;rft.genre=book&amp;rft.btitle=Industrial+Brazing+Practice&amp;rft.pages=272-&amp;rft.pub=CRC+Press&amp;rft.date=2003&amp;rft.isbn=978-0-203-48857-7&amp;rft.au=Philip+Roberts&amp;rft_id=https%3A%2F%2Fbooks.google.com%2Fbooks%3Fid%3DLHOsJGu9WUAC%26pg%3DPA272&amp;rfr_id=info%3Asid%2Fen.wikipedia.org%3ABrazing" class="Z3988"></span></span> </li> <li id="cite_note-welmet.cz-20"><span class="mw-cite-backlink">^ <a href="#cite_ref-welmet.cz_20-0">^{<i><b>a</b></i>}</a> <a href="#cite_ref-welmet.cz_20-1">^{<i><b>b</b></i>}</a></span> <span class="reference-text"><link rel="mw-deduplicated-inline-style" href="mw-data:TemplateStyles:r1238218222"><cite class="citation web cs1"><a rel="nofollow" class="external text" href="https://web.archive.org/web/20160420203249/http://www.welmet.cz/materialy-pro-pajeni/ag-slitiny-bez-cd-specialni-aplikace.html">"Ag slitiny bez Cd – speciální aplikace"</a>. Archived from <a rel="nofollow" class="external text" href="https://www.welmet.cz/pajeni/ag-slitiny-bez-cd-specialni-aplikace/">the original</a> on 2016-04-20<span class="reference-accessdate">. Retrieved <span class="nowrap">2016-04-07</span></span>.</cite><span title="ctx_ver=Z39.88-2004&amp;rft_val_fmt=info%3Aofi%2Ffmt%3Akev%3Amtx%3Abook&amp;rft.genre=unknown&amp;rft.btitle=Ag+slitiny+bez+Cd+%E2%80%93+speci%C3%A1ln%C3%AD+aplikace&amp;rft_id=https%3A%2F%2Fwww.welmet.cz%2Fpajeni%2Fag-slitiny-bez-cd-specialni-aplikace%2F&amp;rfr_id=info%3Asid%2Fen.wikipedia.org%3ABrazing" class="Z3988"></span></span> </li> <li id="cite_note-azommetcer-21"><span class="mw-cite-backlink"><b><a href="#cite_ref-azommetcer_21-0">^</a></b></span> <span class="reference-text"><link rel="mw-deduplicated-inline-style" href="mw-data:TemplateStyles:r1238218222"><cite class="citation web cs1"><a rel="nofollow" class="external text" href="http://www.azom.com/details.asp?ArticleID=1079#_Metallising_Ceramic_Surfaces">"Ceramic Brazing"</a>. Azom.com. 2001-11-29. <a rel="nofollow" class="external text" href="https://web.archive.org/web/20080821032527/http://www.azom.com/details.asp?ArticleID=1079#_Metallising_Ceramic_Surfaces">Archived</a> from the original on 2008-08-21<span class="reference-accessdate">. Retrieved <span class="nowrap">2010-07-26</span></span>.</cite><span title="ctx_ver=Z39.88-2004&amp;rft_val_fmt=info%3Aofi%2Ffmt%3Akev%3Amtx%3Abook&amp;rft.genre=unknown&amp;rft.btitle=Ceramic+Brazing&amp;rft.pub=Azom.com&amp;rft.date=2001-11-29&amp;rft_id=http%3A%2F%2Fwww.azom.com%2Fdetails.asp%3FArticleID%3D1079%23_Metallising_Ceramic_Surfaces&amp;rfr_id=info%3Asid%2Fen.wikipedia.org%3ABrazing" class="Z3988"></span></span> </li> <li id="cite_note-22"><span class="mw-cite-backlink"><b><a href="#cite_ref-22">^</a></b></span> <span class="reference-text"><link rel="mw-deduplicated-inline-style" href="mw-data:TemplateStyles:r1238218222"><cite class="citation web cs1"><a rel="nofollow" class="external text" href="https://welderchoice.com/welding-vs-soldering-vs-brazing/">"Welding Vs Soldering Vs Brazing - Learn The Difference"</a>. <i>Welder Choice</i>. 2021-03-01<span class="reference-accessdate">. Retrieved <span class="nowrap">2021-03-03</span></span>.</cite><span title="ctx_ver=Z39.88-2004&amp;rft_val_fmt=info%3Aofi%2Ffmt%3Akev%3Amtx%3Ajournal&amp;rft.genre=unknown&amp;rft.jtitle=Welder+Choice&amp;rft.atitle=Welding+Vs+Soldering+Vs+Brazing+-+Learn+The+Difference&amp;rft.date=2021-03-01&amp;rft_id=https%3A%2F%2Fwelderchoice.com%2Fwelding-vs-soldering-vs-brazing%2F&amp;rfr_id=info%3Asid%2Fen.wikipedia.org%3ABrazing" class="Z3988"></span></span> </li> <li id="cite_note-Sil-Fos-23"><span class="mw-cite-backlink">^ <a href="#cite_ref-Sil-Fos_23-0">^{<i><b>a</b></i>}</a> <a href="#cite_ref-Sil-Fos_23-1">^{<i><b>b</b></i>}</a></span> <span class="reference-text"><link rel="mw-deduplicated-inline-style" href="mw-data:TemplateStyles:r1238218222"><cite class="citation web cs1"><a rel="nofollow" class="external text" href="http://www.matweb.com/search/datasheet.aspx?matguid=2d38b7e2323d4f33a3916976d6c54375&amp;ckck=1">"Lucas-Milhaupt SIL-FOS 18 Copper/Silver/Phosphorus Alloy"</a>. <i>MatWeb – The Online Materials Information Resource</i>.</cite><span title="ctx_ver=Z39.88-2004&amp;rft_val_fmt=info%3Aofi%2Ffmt%3Akev%3Amtx%3Ajournal&amp;rft.genre=unknown&amp;rft.jtitle=MatWeb+%E2%80%93+The+Online+Materials+Information+Resource&amp;rft.atitle=Lucas-Milhaupt+SIL-FOS+18+Copper%2FSilver%2FPhosphorus+Alloy&amp;rft_id=http%3A%2F%2Fwww.matweb.com%2Fsearch%2Fdatasheet.aspx%3Fmatguid%3D2d38b7e2323d4f33a3916976d6c54375%26ckck%3D1&amp;rfr_id=info%3Asid%2Fen.wikipedia.org%3ABrazing" class="Z3988"></span></span> </li> <li id="cite_note-24"><span class="mw-cite-backlink"><b><a href="#cite_ref-24">^</a></b></span> <span class="reference-text"><a href="#CITEREFSchwartz1987">Schwartz 1987</a>, pp.&#160;271–279</span> </li> <li id="cite_note-25"><span class="mw-cite-backlink"><b><a href="#cite_ref-25">^</a></b></span> <span class="reference-text"><a rel="nofollow" class="external text" href="http://www.gh-ia.com/pdf/gh-ia-brazing-guide.pdf">The Brazing Guide</a> <a rel="nofollow" class="external text" href="https://web.archive.org/web/20150402095423/http://www.gh-ia.com/pdf/gh-ia-brazing-guide.pdf">Archived</a> April 2, 2015, at the <a href="/wiki/Wayback_Machine" title="Wayback Machine">Wayback Machine</a>. GH Induction Atmospheres</span> </li> <li id="cite_note-26"><span class="mw-cite-backlink"><b><a href="#cite_ref-26">^</a></b></span> <span class="reference-text"><link rel="mw-deduplicated-inline-style" href="mw-data:TemplateStyles:r1238218222"><cite id="CITEREFJoseph_R._Davis,_ASM_International._Handbook_Committee2001" class="citation book cs1">Joseph R. Davis, ASM International. Handbook Committee (2001). <a rel="nofollow" class="external text" href="https://books.google.com/books?id=sxkPJzmkhnUC&amp;pg=PA311"><i>Copper and copper alloys</i></a>. ASM International. p.&#160;311. <a href="/wiki/ISBN_(identifier)" class="mw-redirect" title="ISBN (identifier)">ISBN</a>&#160;<a href="/wiki/Special:BookSources/0-87170-726-8" title="Special:BookSources/0-87170-726-8"><bdi>0-87170-726-8</bdi></a>. <a rel="nofollow" class="external text" href="https://web.archive.org/web/20170227235402/https://books.google.com/books?id=sxkPJzmkhnUC&amp;pg=PA311">Archived</a> from the original on 2017-02-27.</cite><span title="ctx_ver=Z39.88-2004&amp;rft_val_fmt=info%3Aofi%2Ffmt%3Akev%3Amtx%3Abook&amp;rft.genre=book&amp;rft.btitle=Copper+and+copper+alloys&amp;rft.pages=311&amp;rft.pub=ASM+International&amp;rft.date=2001&amp;rft.isbn=0-87170-726-8&amp;rft.au=Joseph+R.+Davis%2C+ASM+International.+Handbook+Committee&amp;rft_id=https%3A%2F%2Fbooks.google.com%2Fbooks%3Fid%3DsxkPJzmkhnUC%26pg%3DPA311&amp;rfr_id=info%3Asid%2Fen.wikipedia.org%3ABrazing" class="Z3988"></span></span> </li> <li id="cite_note-27"><span class="mw-cite-backlink"><b><a href="#cite_ref-27">^</a></b></span> <span class="reference-text"><a rel="nofollow" class="external text" href="http://www.coininginc.com/Preforms.asp">Solder Preforms</a> <a rel="nofollow" class="external text" href="https://web.archive.org/web/20110708174427/http://www.coininginc.com/Preforms.asp">Archived</a> July 8, 2011, at the <a href="/wiki/Wayback_Machine" title="Wayback Machine">Wayback Machine</a>. AMETEK.Inc.</span> </li> <li id="cite_note-28"><span class="mw-cite-backlink"><b><a href="#cite_ref-28">^</a></b></span> <span class="reference-text"><link rel="mw-deduplicated-inline-style" href="mw-data:TemplateStyles:r1238218222"><cite class="citation journal cs1"><a rel="nofollow" class="external text" href="https://www.cdc.gov/niosh/docs/88-110/default.html">"CDC – NIOSH Publications and Products – Criteria for a Recommended Standard: Welding, Brazing, and Thermal Cutting (88-110)"</a>. <i>www.cdc.gov</i>. 1988. <a href="/wiki/Doi_(identifier)" class="mw-redirect" title="Doi (identifier)">doi</a>:<span class="id-lock-free" title="Freely accessible"><a rel="nofollow" class="external text" href="https://doi.org/10.26616%2FNIOSHPUB88110">10.26616/NIOSHPUB88110</a></span>. <a rel="nofollow" class="external text" href="https://web.archive.org/web/20170412062605/https://www.cdc.gov/niosh/docs/88-110/default.html">Archived</a> from the original on 2017-04-12<span class="reference-accessdate">. Retrieved <span class="nowrap">2017-04-11</span></span>.</cite><span title="ctx_ver=Z39.88-2004&amp;rft_val_fmt=info%3Aofi%2Ffmt%3Akev%3Amtx%3Ajournal&amp;rft.genre=article&amp;rft.jtitle=www.cdc.gov&amp;rft.atitle=CDC+%E2%80%93+NIOSH+Publications+and+Products+%E2%80%93+Criteria+for+a+Recommended+Standard%3A+Welding%2C+Brazing%2C+and+Thermal+Cutting+%2888-110%29&amp;rft.date=1988&amp;rft_id=info%3Adoi%2F10.26616%2FNIOSHPUB88110&amp;rft_id=https%3A%2F%2Fwww.cdc.gov%2Fniosh%2Fdocs%2F88-110%2Fdefault.html&amp;rfr_id=info%3Asid%2Fen.wikipedia.org%3ABrazing" class="Z3988"></span></span> </li> </ol></div></div> <div class="mw-heading mw-heading2"><h2 id="Further_reading">Further reading</h2><span class="mw-editsection"><span class="mw-editsection-bracket">[</span><a href="/w/index.php?title=Brazing&amp;action=edit&amp;section=19" title="Edit section: Further reading"><span>edit</span></a><span class="mw-editsection-bracket">]</span></span></div> <ul><li><link rel="mw-deduplicated-inline-style" href="mw-data:TemplateStyles:r1238218222"><cite id="CITEREFFletcher1971" class="citation book cs1">Fletcher, M.J. (1971). <i>Vacuum Brazing</i>. London: Mills and Boon Limited. <a href="/wiki/ISBN_(identifier)" class="mw-redirect" title="ISBN (identifier)">ISBN</a>&#160;<a href="/wiki/Special:BookSources/0-263-51708-X" title="Special:BookSources/0-263-51708-X"><bdi>0-263-51708-X</bdi></a>.</cite><span title="ctx_ver=Z39.88-2004&amp;rft_val_fmt=info%3Aofi%2Ffmt%3Akev%3Amtx%3Abook&amp;rft.genre=book&amp;rft.btitle=Vacuum+Brazing&amp;rft.place=London&amp;rft.pub=Mills+and+Boon+Limited&amp;rft.date=1971&amp;rft.isbn=0-263-51708-X&amp;rft.aulast=Fletcher&amp;rft.aufirst=M.J.&amp;rfr_id=info%3Asid%2Fen.wikipedia.org%3ABrazing" class="Z3988"></span></li> <li>P.M. Roberts, "Industrial Brazing Practice", CRC Press, Boca Raton, Florida, 2004.</li> <li>Kent White, "Authentic Aluminum Gas Welding: Plus Brazing &amp; Soldering." Publisher: TM Technologies, 2008.</li> <li><link rel="mw-deduplicated-inline-style" href="mw-data:TemplateStyles:r1238218222"><cite id="CITEREFAndrea_Cagnetti2009" class="citation journal cs1"><a href="/wiki/Andrea_Cagnetti" class="mw-redirect" title="Andrea Cagnetti">Andrea Cagnetti</a> (2009). "Experimental survey on fluid brazing in ancient goldsmith' art". <i>International Journal of Materials Research</i>. <b>100</b> (1): 81–85. <a href="/wiki/Bibcode_(identifier)" class="mw-redirect" title="Bibcode (identifier)">Bibcode</a>:<a rel="nofollow" class="external text" href="https://ui.adsabs.harvard.edu/abs/2009IJMR..100...81C">2009IJMR..100...81C</a>. <a href="/wiki/Doi_(identifier)" class="mw-redirect" title="Doi (identifier)">doi</a>:<a rel="nofollow" class="external text" href="https://doi.org/10.3139%2F146.101783">10.3139/146.101783</a>. <a href="/wiki/S2CID_(identifier)" class="mw-redirect" title="S2CID (identifier)">S2CID</a>&#160;<a rel="nofollow" class="external text" href="https://api.semanticscholar.org/CorpusID:137786674">137786674</a>.</cite><span title="ctx_ver=Z39.88-2004&amp;rft_val_fmt=info%3Aofi%2Ffmt%3Akev%3Amtx%3Ajournal&amp;rft.genre=article&amp;rft.jtitle=International+Journal+of+Materials+Research&amp;rft.atitle=Experimental+survey+on+fluid+brazing+in+ancient+goldsmith%27+art&amp;rft.volume=100&amp;rft.issue=1&amp;rft.pages=81-85&amp;rft.date=2009&amp;rft_id=https%3A%2F%2Fapi.semanticscholar.org%2FCorpusID%3A137786674%23id-name%3DS2CID&amp;rft_id=info%3Adoi%2F10.3139%2F146.101783&amp;rft_id=info%3Abibcode%2F2009IJMR..100...81C&amp;rft.au=Andrea+Cagnetti&amp;rfr_id=info%3Asid%2Fen.wikipedia.org%3ABrazing" class="Z3988"></span></li> <li><link rel="mw-deduplicated-inline-style" href="mw-data:TemplateStyles:r1238218222"><cite id="CITEREFGroover2007" class="citation book cs1">Groover, Mikell P. (2007). <i>Fundamentals Of Modern Manufacturing: Materials Processes, And Systems</i> (2nd&#160;ed.). John Wiley &amp; Sons. <a href="/wiki/ISBN_(identifier)" class="mw-redirect" title="ISBN (identifier)">ISBN</a>&#160;<a href="/wiki/Special:BookSources/978-81-265-1266-9" title="Special:BookSources/978-81-265-1266-9"><bdi>978-81-265-1266-9</bdi></a>.</cite><span title="ctx_ver=Z39.88-2004&amp;rft_val_fmt=info%3Aofi%2Ffmt%3Akev%3Amtx%3Abook&amp;rft.genre=book&amp;rft.btitle=Fundamentals+Of+Modern+Manufacturing%3A+Materials+Processes%2C+And+Systems&amp;rft.edition=2nd&amp;rft.pub=John+Wiley+%26+Sons&amp;rft.date=2007&amp;rft.isbn=978-81-265-1266-9&amp;rft.aulast=Groover&amp;rft.aufirst=Mikell+P.&amp;rfr_id=info%3Asid%2Fen.wikipedia.org%3ABrazing" class="Z3988"></span></li> <li><link rel="mw-deduplicated-inline-style" href="mw-data:TemplateStyles:r1238218222"><cite id="CITEREFSchwartz1987" class="citation book cs1">Schwartz, Mel M. (1987). <i>Brazing</i>. ASM International. <a href="/wiki/ISBN_(identifier)" class="mw-redirect" title="ISBN (identifier)">ISBN</a>&#160;<a href="/wiki/Special:BookSources/978-0-87170-246-3" title="Special:BookSources/978-0-87170-246-3"><bdi>978-0-87170-246-3</bdi></a>.</cite><span title="ctx_ver=Z39.88-2004&amp;rft_val_fmt=info%3Aofi%2Ffmt%3Akev%3Amtx%3Abook&amp;rft.genre=book&amp;rft.btitle=Brazing&amp;rft.pub=ASM+International&amp;rft.date=1987&amp;rft.isbn=978-0-87170-246-3&amp;rft.aulast=Schwartz&amp;rft.aufirst=Mel+M.&amp;rfr_id=info%3Asid%2Fen.wikipedia.org%3ABrazing" class="Z3988"></span></li></ul> <div class="mw-heading mw-heading2"><h2 id="External_links">External links</h2><span class="mw-editsection"><span class="mw-editsection-bracket">[</span><a href="/w/index.php?title=Brazing&amp;action=edit&amp;section=20" title="Edit section: External links"><span>edit</span></a><span class="mw-editsection-bracket">]</span></span></div> <style data-mw-deduplicate="TemplateStyles:r1235681985">.mw-parser-output .side-box{margin:4px 0;box-sizing:border-box;border:1px solid #aaa;font-size:88%;line-height:1.25em;background-color:var(--background-color-interactive-subtle,#f8f9fa);display:flow-root}.mw-parser-output .side-box-abovebelow,.mw-parser-output .side-box-text{padding:0.25em 0.9em}.mw-parser-output .side-box-image{padding:2px 0 2px 0.9em;text-align:center}.mw-parser-output .side-box-imageright{padding:2px 0.9em 2px 0;text-align:center}@media(min-width:500px){.mw-parser-output .side-box-flex{display:flex;align-items:center}.mw-parser-output .side-box-text{flex:1;min-width:0}}@media(min-width:720px){.mw-parser-output .side-box{width:238px}.mw-parser-output .side-box-right{clear:right;float:right;margin-left:1em}.mw-parser-output .side-box-left{margin-right:1em}}</style><style data-mw-deduplicate="TemplateStyles:r1237033735">@media print{body.ns-0 .mw-parser-output .sistersitebox{display:none!important}}@media 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src="//upload.wikimedia.org/wikipedia/commons/thumb/4/4c/Wikisource-logo.svg/38px-Wikisource-logo.svg.png" decoding="async" width="38" height="40" class="mw-file-element" srcset="//upload.wikimedia.org/wikipedia/commons/thumb/4/4c/Wikisource-logo.svg/57px-Wikisource-logo.svg.png 1.5x, //upload.wikimedia.org/wikipedia/commons/thumb/4/4c/Wikisource-logo.svg/76px-Wikisource-logo.svg.png 2x" data-file-width="410" data-file-height="430" /></span></span></div> <div class="side-box-text plainlist"><a href="/wiki/Wikisource" title="Wikisource">Wikisource</a> has the text of the <a href="/wiki/Encyclop%C3%A6dia_Britannica_Eleventh_Edition" title="Encyclopædia Britannica Eleventh Edition">1911 <i>Encyclopædia Britannica</i></a> article "<span style="font-weight:bold;"><a href="https://en.wikisource.org/wiki/1911_Encyclop%C3%A6dia_Britannica/Brazing_and_Soldering" class="extiw" title="wikisource:1911 Encyclopædia Britannica/Brazing and Soldering">Brazing and Soldering</a></span>".</div></div> 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style="width:1%">Forming processes</th><td class="navbox-list-with-group navbox-list navbox-even hlist" style="width:100%;padding:0"><div style="padding:0 0.25em"> <ul><li><a href="/wiki/Coining_(metalworking)" title="Coining (metalworking)">Coining</a></li> <li><a href="/wiki/Casting_(metalworking)" class="mw-redirect" title="Casting (metalworking)">Casting (metalworking)</a></li> <li><a href="/wiki/Drawing_(manufacturing)" title="Drawing (manufacturing)">Drawing</a></li> <li><a href="/wiki/Electrohydraulic_forming" title="Electrohydraulic forming">Electrohydraulic forming</a></li> <li><a href="/wiki/Electromagnetic_forming" title="Electromagnetic forming">Electromagnetic forming</a></li> <li><a href="/wiki/Explosive_forming" title="Explosive forming">Explosive forming</a></li> <li><a href="/wiki/Extrusion" title="Extrusion">Extrusion</a></li> <li><a href="/wiki/Forging" title="Forging">Forging</a></li> <li><a href="/wiki/Hydroforming" title="Hydroforming">Hydroforming</a></li> <li><a href="/wiki/Stamping_(metalworking)" title="Stamping (metalworking)">Stamping</a></li> <li><a href="/wiki/Press_hardening" title="Press hardening">Press hardening</a></li> <li><a href="/wiki/Progressive_stamping" title="Progressive stamping">Progressive stamping</a></li> <li><a href="/wiki/Punching" title="Punching">Punching</a></li> <li><a href="/wiki/Rolling_(metalworking)" title="Rolling (metalworking)">Rolling</a></li> <li><a href="/wiki/Sinking_(metalworking)" title="Sinking (metalworking)">Sinking</a></li> <li><a href="/wiki/Metal_spinning" title="Metal spinning">Spinning</a></li> <li><a href="/wiki/Swaging" title="Swaging">Swaging</a></li> <li><a href="/wiki/Tube_bending" title="Tube bending">Tube bending</a></li></ul> </div></td></tr><tr><th scope="row" class="navbox-group" style="width:1%">Joining processes</th><td class="navbox-list-with-group navbox-list navbox-odd hlist" style="width:100%;padding:0"><div style="padding:0 0.25em"> <ul><li><a class="mw-selflink 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title="Peening">Peening</a></li> <li><a href="/wiki/Plating" title="Plating">Plating</a></li> <li><a href="/wiki/Polishing_(metalworking)" title="Polishing (metalworking)">Polishing</a></li></ul> </div></td></tr></tbody></table><div></div></td></tr><tr><td class="navbox-abovebelow" colspan="2"><div> <ul><li><a href="/wiki/Casting" title="Casting">Casting</a></li> <li><a href="/wiki/Metal_fabrication" title="Metal fabrication">Fabrication</a></li> <li><a href="/wiki/Forming_processes" title="Forming processes">Forming</a></li> <li><a href="/wiki/Jewellery" title="Jewellery">Jewellery</a></li> <li><a href="/wiki/Machining" title="Machining">Machining</a></li> <li><a href="/wiki/Metallurgy" title="Metallurgy">Metallurgy</a></li> <li><a href="/wiki/Metalsmith" title="Metalsmith">Smithing</a></li> <li><a href="/wiki/Outline_of_metalworking" title="Outline of metalworking">Tools and terminology</a></li> <li><a href="/wiki/Welding" title="Welding">Welding</a></li></ul> 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