Further Analysis into Best Infill Structure Used in Additive Manufacturing for Mechanical Applications

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Miralbes; citation_author=J. Cuartero; citation_author=D. Ranz; citation_author=N. Correia; citation_volume=31; citation_issue=18; citation_publication_date=2023/4/4; citation_pages=4236-4245; citation_doi=10.1080/15376494.2023.2192712" /> <meta name="citation_reference" content="citation_title=IMPACT RESISTANCE OF DIFFERENT TYPES OF LATTICE STRUCTURES MANUFACTURED BY SLM; citation_author=Radek Vrana; citation_author=Daniel Koutny; citation_author=David Palousek; citation_volume=2016; citation_issue=06; citation_publication_date=2016/12/14; citation_pages=1579-1585; citation_doi=10.17973/mmsj.2016_12_2016186" /> <meta name="person" content="Matei Marin-Corciu, Nicu艧or Alin Sîrbu, Sergiu Valentin Galatanu, Nicolae Trihenea, Aurelia Ioana Biholar" /> <meta name="description" content="This paper delves into further analysis of the best infill structure for mechanical applications in 3D printing. Infill plays a crucial role in determining the strength, weight, and overall mechanical properties of printed objects. This study aims to explore and evaluate different infill structures to identify the optimal choice for mechanical applications. Specifically, the focus is on investigating the gyroid infill pattern due to its unique properties and potential advantages. The research includes an assessment of the structural integrity and mechanical performance of objects printed with gyroid infill compared to other commonly used infill patterns. Experimental testing, including tensile strength and load-bearing capacity, will be conducted to quantify and compare the mechanical properties of the printed parts. The results of this study will provide valuable insights and guidance for selecting the most suitable infill structure in mechanical applications, contributing to enhanced design and manufacturing capabilities in the field of 3D printing." /> <meta name="keywords" content="Additive Manufacturing, Lattice Structures, Mechanical Testing" /> <meta name="copyright" content="2024 Trans Tech Publications Ltd. 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Infill Structure Used in Additive Manufacturing for Mechanical Applications</h1> </div> <div class="paper-statistics"> <div class="loading"> <i class="inline-icon download-and-visitor-statistics-icon"></i> <span class="normal-text" id="paperDownloadsAndVisitorsCount"></span> </div> </div> <div class="clearfix"></div> <div class="page-paper-title"> <div class="preview-block"> <img alt="Article Preview" width="128" height="180" src="/MSF.1130.51/thumbnail.gif"> <div id="preview-button" data-url-preview-log="/Paper/PreviewImageLog?paperId=607465"> <i class="inline-icon preview-icon"></i> </div>  <div id="paper-preview-modal" class="modal fade"> <div class="modal-dialog" role="document"> <div class="popup-page-name underline-begin"> <div class="page-name-block-text">Article Preview</div> </div> <img alt="Article Preview" class="preview-image lazyload" data-src="/MSF.1130.51/preview.gif"> <a data-dismiss="modal" title="Close" class="inline-icon close-icon"></a> </div> </div>  </div> <div class="abstract-block-description"> <h3 class="page-paper-first-header">Abstract:</h3> <p class="normal-text"> This paper delves into further analysis of the best infill structure for mechanical applications in 3D printing. Infill plays a crucial role in determining the strength, weight, and overall mechanical properties of printed objects. This study aims to explore and evaluate different infill structures to identify the optimal choice for mechanical applications. Specifically, the focus is on investigating the gyroid infill pattern due to its unique properties and potential advantages. The research includes an assessment of the structural integrity and mechanical performance of objects printed with gyroid infill compared to other commonly used infill patterns. Experimental testing, including tensile strength and load-bearing capacity, will be conducted to quantify and compare the mechanical properties of the printed parts. The results of this study will provide valuable insights and guidance for selecting the most suitable infill structure in mechanical applications, contributing to enhanced design and manufacturing capabilities in the field of 3D printing. </p> </div> <div class="paper-access-buttons col-xs-12"> <div class="row"> <div class="sa-button-wrap"> <a id="sa-button" class="wayfinder-login d-flex sa-button" href="javascript:;"> <div class="sa-button-logo-wrap"> <i class="inline-icon sa-white"></i> </div> <div class="d-flex justify-content-center align-items-center sa-button-text text-truncate"> <div class="sa-button-text-primary text-truncate">Access through your institution</div> </div> </a> </div> <div class="title-button-pdf"> <button id="readPaperButton" data-url-read-paper-log="/Paper/ReadThePaperLog?paperId=607465" class="button button-160"> <span class="inline-element">Read The Paper</span> </button> </div> </div> <div class="row"> </div> </div> <div class="clearfix"></div> <div 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