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class="bread-crumbs-first" href="/">Home</a><i class="inline-icon arrow-breadcrumbs"></i><span class="bread-crumbs-second">Polymer Composite</span></div> <div class="page-name-block underline-begin"> <h1 class="page-name-block-text">Papers by Keyword: Polymer Composite</h1> </div> <div class="papers-author-content"> <div class="block-search-pagination"> <div class="pagination-container"><ul class="pagination"><li class="PagedList-skipToFirst"><a href="/paper-keyword/polymer-composite/1"><<</a></li><li class="PagedList-skipToPrevious"><a href="/paper-keyword/polymer-composite/6" rel="prev"><</a></li><li class="PagedList-ellipses"><a class="PagedList-skipToPrevious" href="/paper-keyword/polymer-composite/4" rel="prev">…</a></li><li><a href="/paper-keyword/polymer-composite/5">5</a></li><li><a href="/paper-keyword/polymer-composite/6">6</a></li><li class="active"><span>7</span></li><li><a href="/paper-keyword/polymer-composite/8">8</a></li><li><a href="/paper-keyword/polymer-composite/9">9</a></li><li class="PagedList-ellipses"><a class="PagedList-skipToNext" href="/paper-keyword/polymer-composite/10" rel="next">…</a></li><li class="PagedList-skipToNext"><a href="/paper-keyword/polymer-composite/8" rel="next">></a></li><li class="PagedList-skipToLast"><a href="/paper-keyword/polymer-composite/12">>></a></li></ul></div> </div> <div class="block-volume-title normal-text-gray"> <p> Paper Title<span>Page</span> </p> </div> <div class="item-block"> <div class="item-link"> <a href="/AMR.746.250">Simulation of the Mechanical Behavior of Nanodispersed Elastomer Particle-Modified Polyamide 6</a> </div> <div class="item-link volume-authors"> <div class="semibold-middle-text"> Authors: Jing Wiedmaier, Ulrich Weber, Siegfried Schmauder </div> </div> <div id="abstractTextBlock303666" class="volume-info volume-info-text volume-info-description"> Abstract: In this work the nanodispersed elastomer copolymer particle-modified polyamide 6 (PA 6) is investigated. Micromechanical modelling is proposed to predict the mechanical behaviour of this material up to failure. A three-dimensional self-consistent embedded unit cell model is chosen which has been well applied for simulating the elastoplasticdeformation of this PA 6-composite [1,. This model will be here modified with the consideration of debonding between the elastomer particles and the PA 6-matrix. The predictions are in very good agreement with the experimental results. In terms of crash behavior, e.g. in the automotive industry the material behaviour under dynamic loading is also of particular interest. Impact strength is one of the most important parameters for describing this material behaviour. A full three-dimensional dynamic simulation of V-notched Charpy impact test is performed in ABAQUS/Explicit. The calculated impact strength coincides plausibly well with the experimental determination. </div> <div> <a data-readmore="{ block: '#abstractTextBlock303666', lines: 2, expandText: '...more', collapseText: '...less' }"></a> </div> <div class="page-number semibold-large-text"> 250 </div> </div> <div class="item-block"> <div class="item-link"> <a href="/AMR.740.507">Malaysian Foxtail Grass - A Potential Source of Natural/Agro Fibre for Polymer Composite Panel</a> </div> <div class="item-link volume-authors"> <div class="semibold-middle-text"> Authors: C.M. Ruzaidi, A.M. Mustafa Al Bakri, H. Kamarudin, M.N. Norazian, Rafiza Abd Razak, Yahya Zarina </div> </div> <div id="abstractTextBlock294713" class="volume-info volume-info-text volume-info-description"> Abstract: Foxtail grass, also known as rumput bulu by the local people, is one of the fast growing grasses abundantly available all over Malaysia. A full grown Foxtail grass attains a height of about 0.5 1.5 meters. The fibres were prepared by mechanical grinding procedure and the fibre size and length produced can be controlled through the grinding time of this grass material. The weight loss of the different grinding time was calculated. The polymer composites panel were then made from the mixing the polystyrene with various size of fibre produced. Flexural test exhibited good and comparable strength properties. The results show that this grass fibre may be considered as one of the potential sources of natural/ agro fibres for polymer composites panel. </div> <div> <a data-readmore="{ block: '#abstractTextBlock294713', lines: 2, expandText: '...more', collapseText: '...less' }"></a> </div> <div class="page-number semibold-large-text"> 507 </div> </div> <div class="item-block"> <div class="item-link"> <a href="/MSF.766.37">Prediction of Cutting Forces during Turning PA66 GF-30 Glass Fiber Reinforced Polyamide by Soft Computing Techniques</a> </div> <div class="item-link volume-authors"> <div class="semibold-middle-text"> Authors: Nikolaos A. Fountas, Ioannis Ntziantzias, John Kechagias, Aggelos Koutsomichalis, J. Paulo Davim, Nikolaos M. Vaxevanidis </div> </div> <div id="abstractTextBlock319690" class="volume-info volume-info-text volume-info-description"> Abstract: In the present paper the influence of the main cutting parameters on process performance during longitudinal turning of <i>PA66 GF-30</i> Glass Fiber Reinforced Polyamide is investigated. The selected cutting parameters are cutting speed and feed-rate whilst depth of cut is kept constant. As outputs (responses), cutting force components <i>F_t</i>, <i>F_V</i> and <i>F_r</i> were selected. Test specimens in the form of round bars and cemented carbide cutting tool were used during the experimental process. Fifteen experiments were conducted having all different combinations of cutting parameter values. Analysis of Variance (ANOVA), statistical approaches and soft computing techniques (artificial neural network) were applied in order to formulate stochastic models for relating the responses with main cutting parameters. The results obtained, indicate that the proposed soft computing techniques can be effectively used to predict the cutting force components (<i>F_t</i>, <i>F_V</i> and <i>F_r</i>) thus; facilitating decision making during process planning since costly and time-consuming experimentation can be avoided. </div> <div> <a data-readmore="{ block: '#abstractTextBlock319690', lines: 2, expandText: '...more', collapseText: '...less' }"></a> </div> <div class="page-number semibold-large-text"> 37 </div> </div> <div class="item-block"> <div class="item-link"> <a href="/AMR.716.387">Self-Healing Epoxy Composites – Part II: Healing Performance</a> </div> <div class="item-link volume-authors"> <div class="semibold-middle-text"> Authors: Tao Yin, Min Zhi Rong, Ming Qiu Zhang </div> </div> <div id="abstractTextBlock286846" class="volume-info volume-info-text volume-info-description"> Abstract: Epoxy composites were provided with healing capability by pre-dispersing a novel repair system in the composites matrix cured by 2-ethyl-4-methylimidazole (2E4MIm). The healing agent consisted of ureaformaldehyde microcapsules containing epoxy and latent hardener CuBr₂(2-MeIm)₄ (the complex of CuBr2 and 2-methylimidazole). Single-edge notched bending (SENB) test were conducted to evaluate fracture toughness of the composites before and after healing. Moreover, healing efficiency was studied as a function of the content of the two-component healing agents. It was found that a healing efficiency of 173% relative to the fracture toughness of virgin composites was obtained in the case of 15 wt% epoxy-loaded microcapsules and 3 wt% CuBr₂(2-MeIm)₄. </div> <div> <a data-readmore="{ block: '#abstractTextBlock286846', lines: 2, expandText: '...more', collapseText: '...less' }"></a> </div> <div class="page-number semibold-large-text"> 387 </div> </div> <div class="item-block"> <div class="item-link"> <a href="/AMR.716.383">Self-Healing Epoxy Composites – Part I: Curing Kinetics and Heat-Resistant Performance</a> </div> <div class="item-link volume-authors"> <div class="semibold-middle-text"> Authors: Tao Yin, Min Zhi Rong, Ming Qiu Zhang </div> </div> <div id="abstractTextBlock286843" class="volume-info volume-info-text volume-info-description"> Abstract: This paper reports a study of self-healing epoxy composites. The healing agent was a two-component one synthesized in the authors laboratory, which consisted of epoxy-loaded urea-formaldehyde microcapsules as the polymerizable binder and CuBr₂(2-MeIm)₄ (the complex of CuBr₂ and 2-methylimidazole) as the latent hardener. Both the microcapsules and the matching catalyst were pre-embedded and pre-dissolved in the composites matrix cured by 2-ethyl-4-methylimidazole (2E4MIm), respectively. The data of curing kinetics show that the latent hardener CuBr₂(2-MeIm)₄ is not affected during the curing process of 2 h at 80°C, 2 h at 120°C and 2 h at 140°C, and heat deformation temperature of composites consisting of 2 wt% CuBr₂(2-MeIm)₄ and 5 wt% mcirocapsules cured at the same curing process is 180.2°C. </div> <div> <a data-readmore="{ block: '#abstractTextBlock286843', lines: 2, expandText: '...more', collapseText: '...less' }"></a> </div> <div class="page-number semibold-large-text"> 383 </div> </div> <div class="item-block"> <div class="item-link"> <a href="/AEF.8-9.353">Dielectric and Electromagnetic Behavior of Conductive Nanocomposites Polymers: PP/MWCNT Investigations for EMI Applications</a> </div> <div class="item-link volume-authors"> <div class="semibold-middle-text"> <i class="inline-icon lock-open-red inline-icon-small" title="Open Access"></i> Authors: &#x15E;tefan Ursache, Romeo Cristian Ciobanu, Vlad Scarlatache, Andrei Niagu </div> </div> <div id="abstractTextBlock291293" class="volume-info volume-info-text volume-info-description"> Abstract: The paper highlights the most important dielectric features for some nanocomposites polymer matrix based on polypropylene (PP) with insertion of carbon nanotubes multi-walled (MWCNTs). The dielectric characteristics analyzed are the real permittivity and dielectric losses of the sample based on PP with 5% insertion of MWCNTs. The measurements are made in a range of frequency between 1 MHz to 3 GHz. The composite form was also analyzed through computer modeling and simulation and electromagnetic properties for EMC shielding applications are also considered. PP/MWCNTs composite with shielding effectiveness of 15-20 dB was investigated through modeling and simulation at about 5% MWCNTs filling. Shielding mechanism was estimated by calculating the total shielding effectiveness (SE) into absorption and reflection loss. PP/MWCNTs composite indicates a shielding mostly by absorption mechanism; therefore it also can be used in other microwave applications or like a radar absorbing material. The effect of MWCNTs affects the electrical conductivity of the nanocomposite. The proposed material shows some interesting electromagnetic compatibility (EMC) properties and promises better performance using different amounts of MWCNTs. </div> <div> <a data-readmore="{ block: '#abstractTextBlock291293', lines: 2, expandText: '...more', collapseText: '...less' }"></a> </div> <div class="page-number semibold-large-text"> 353 </div> </div> <div class="item-block"> <div class="item-link"> <a href="/AMR.682.105">Eshelby-Kröner Viscoelastic Self-Consistent Model Multi-Scale Behavior of Polymer Composites under Creep Loading</a> </div> <div class="item-link volume-authors"> <div class="semibold-middle-text"> Authors: A. Yousfi, Sylvain Fr&#xE9;our, Frederic Jacquemin </div> </div> <div id="abstractTextBlock278514" class="volume-info volume-info-text volume-info-description"> Abstract: The mechanical response of the composite structure in T650-35/PMR-15 aged at different temperatures was studied numerically. The time-dependent internal stresses in the composite ply and its constituents were computed during the creep process. In order to predict the effective properties of PMR-15/T650-35 composite ply in the temperature range [250-350°, the time-dependent mechanical properties of PMR-15 matrix determined experimentally [, were considered. The mechanical properties of the fibers do not experience any change due to the aging process in such a temperature range [2, . In order to achieve the computations, the visco-elastic Eshelby Kröner self-consistent model was used. </div> <div> <a data-readmore="{ block: '#abstractTextBlock278514', lines: 2, expandText: '...more', collapseText: '...less' }"></a> </div> <div class="page-number semibold-large-text"> 105 </div> </div> <div class="item-block"> <div class="item-link"> <a href="/MSF.737.183">Role of Multiwall Carbon Nanotubes (MWCNT) on Electrical Conductivity of Polymer Composite as Alternative Materials for Bipolar Plate Fuel Cell</a> </div> <div class="item-link volume-authors"> <div class="semibold-middle-text"> Authors: Anne Zulfia, Sutopo Sutopo, Bangkit Indriyana, M.E. Albar, S. Rohman </div> </div> <div id="abstractTextBlock223950" class="volume-info volume-info-text volume-info-description"> Abstract: Polypropylene can be improved an electrical conductivity by addition of carbon and multiwall carbon nanotube (MWCNT) as well as combination with copper (Cu) powder. Multiwall carbon nanotube used from 0.1 wt%, 0.5 wt% to 1 wt% while the addition of Cu powder into PP/C was various from 0.1 wt%, 0.2wt% to 0.5wt% respectively. This research focuses on material design of composite based on polymer and carbon to improve an electrical conductivity according to electrical conductivity requirement for bipolar plate. Bipolar plate is one of the components in PEMFC constituted a crucial component that collects and transfers electron from the anode to the cathode, therefore it should possess high electrical conductivity. The main discussion in this research is to analyze the role of multiwall carbon nano tube (MWCNT) and copper on electrical conductivity of polymer composites produced. Functional groups analysis using Fourier Transform Infrared Spectroscopy (FTIR) was also carried out to investigate whether carbon has been mixed perfectly within polypropylene. It is found that the effect of adding a small amount of MWCNT and Cu have improved their electrical conductivity of composites up to 15.62 S/cm. </div> <div> <a data-readmore="{ block: '#abstractTextBlock223950', lines: 2, expandText: '...more', collapseText: '...less' }"></a> </div> <div class="page-number semibold-large-text"> 183 </div> </div> <div class="item-block"> <div class="item-link"> <a href="/AMR.646.14">Microwave Absorbing Properties of Polymer Composites Containing High-Permeability Magnetic Flake Particles in Quasi-Microwave Frequency Band</a> </div> <div class="item-link volume-authors"> <div class="semibold-middle-text"> Authors: Sung Soo Kim </div> </div> <div id="abstractTextBlock256584" class="volume-info volume-info-text volume-info-description"> Abstract: This study investigates high-frequency magnetic, dielectric, and microwave absorbing properties of Sendust (Fe-Si-Al alloy) flake particles dispersed in rubber matrix for the design of thin microwave absorbers in quasi-microwave frequency band. At high particle loading (92% in weight) in the magnetic composite, reflection loss of -9 dB was obtained at 2 GHz with a small thickness of 1 mm. The result is attributed to the high values of magnetic permeability and dielectric constant of the composites resulting from a low eddy current loss (increase of permeability) of the flake particles and enhancement of space charge polarization (increase of permittivity) between the metallic particles. However, the investigation of impedance matching reveals that the magnetic permeability is still small to satisfy the zero-reflected condition at the quasi-microwave frequency band of 1-2 GHz with a composite thickness smaller than 1 mm. It is suggested that greater magnetic permeability (by control of composition and shape of magnetic particles) is required for more improved microwave absorbance at a quasi-microwave frequency. </div> <div> <a data-readmore="{ block: '#abstractTextBlock256584', lines: 2, expandText: '...more', collapseText: '...less' }"></a> </div> <div class="page-number semibold-large-text"> 14 </div> </div> <div class="item-block"> <div class="item-link"> <a href="/AMM.253-255.865">Preparation and Characterization of Al₂O₃/TiO₂/PVDF Polymer Composites Ultrafiltration Membrane</a> </div> <div class="item-link volume-authors"> <div class="semibold-middle-text"> Authors: Sun Hong, Song Hua, Lu Yan </div> </div> <div id="abstractTextBlock236597" class="volume-info volume-info-text volume-info-description"> Abstract: The polymer polyvinylidene fluoride (PVDF) membranes were modified by blending with nanometer particles to improve its hydrophilic property and anti-fouling performances in the process of waste water treatment. The organic macromolecule composite ultrafiltration (UF) membranes modified by the inorganic nanometer TiO2 and Al2O3 were prepared by a phase inversion process. The composite membranes performances, such as water flux, mechanical strength, water contact angle, retention rate, pores size and pores size distribution, were compared to those of organic membranes. The surface and sectional structures of membranes were observed by scanning electron microscope (SEM). The experimental results show that the composite membrane water fluxes increases 79.5% than that of organic membrane with 3% nanometer particles addition and the proportion of TiO2 and Al2O3 is 1:1. The composite membrane average pore size is larger than that of organic membrane and the pore size distribution is more uniform. The composite UF membrane has not only maintained PVDF membrane’s favorable performances but also improved its permeation performance, intensity, hydrophilic and anti-fouling performances. </div> <div> <a data-readmore="{ block: '#abstractTextBlock236597', lines: 2, expandText: '...more', collapseText: '...less' }"></a> </div> <div class="page-number semibold-large-text"> 865 </div> </div> <div class="block-bottom-pagination"> <div class="pager-info"> Showing 61 to 70 of 115 Paper Titles </div> <div class="pagination-container"><ul class="pagination"><li class="PagedList-skipToFirst"><a href="/paper-keyword/polymer-composite/1"><<</a></li><li class="PagedList-skipToPrevious"><a href="/paper-keyword/polymer-composite/6" rel="prev"><</a></li><li class="PagedList-ellipses"><a class="PagedList-skipToPrevious" href="/paper-keyword/polymer-composite/4" rel="prev">…</a></li><li><a href="/paper-keyword/polymer-composite/5">5</a></li><li><a href="/paper-keyword/polymer-composite/6">6</a></li><li class="active"><span>7</span></li><li><a href="/paper-keyword/polymer-composite/8">8</a></li><li><a href="/paper-keyword/polymer-composite/9">9</a></li><li class="PagedList-ellipses"><a class="PagedList-skipToNext" href="/paper-keyword/polymer-composite/10" rel="next">…</a></li><li class="PagedList-skipToNext"><a href="/paper-keyword/polymer-composite/8" rel="next">></a></li><li class="PagedList-skipToLast"><a href="/paper-keyword/polymer-composite/12">>></a></li></ul></div> </div> </div> </div> </div> </div> </div> <div class="social-icon-popup"> <a href="https://www.facebook.com/Scientific.Net.Ltd/" target="_blank" rel="noopener" title="Scientific.Net"><i class="inline-icon facebook-popup-icon social-icon"></i></a> <a href="https://twitter.com/Scientific_Net/" target="_blank" rel="noopener" title="Scientific.Net"><i class="inline-icon twitter-popup-icon social-icon"></i></a> <a href="https://www.linkedin.com/company/scientificnet/" target="_blank" rel="noopener" title="Scientific.Net"><i class="inline-icon linkedin-popup-icon social-icon"></i></a> </div> </div> <div class="sc-footer"> <div class="footer-fluid"> <div class="container"> <div class="row"> <div class="footer-menu col-md-12 col-sm-12 col-xs-12"> <ul class="list-inline menu-font"> <li><a href="/ForLibraries">For Libraries</a></li> <li><a href="/ForPublication/Paper">For Publication</a></li> <li><a href="/insights" target="_blank">Insights</a></li> <li><a href="/DocuCenter">Downloads</a></li> <li><a href="/Home/AboutUs">About Us</a></li> <li><a href="/PolicyAndEthics/PublishingPolicies">Policy &amp; Ethics</a></li> <li><a href="/Home/Contacts">Contact Us</a></li> <li><a href="/Home/Imprint">Imprint</a></li> <li><a href="/Home/PrivacyPolicy">Privacy Policy</a></li> <li><a href="/Home/Sitemap">Sitemap</a></li> <li><a href="/Conferences">All Conferences</a></li> <li><a href="/special-issues">All Special Issues</a></li> <li><a href="/news/all">All News</a></li> <li><a href="/read-and-publish-agreements">Read &amp; Publish Agreements</a></li> </ul> </div> </div> </div> </div> <div class="line-footer"></div> <div class="footer-fluid"> <div class="container"> <div class="row"> <div class="col-xs-12"> <a href="https://www.facebook.com/Scientific.Net.Ltd/" target="_blank" rel="noopener" title="Scientific.Net"><i class="inline-icon facebook-footer-icon social-icon"></i></a> <a href="https://twitter.com/Scientific_Net/" target="_blank" rel="noopener" title="Scientific.Net"><i class="inline-icon twitter-footer-icon social-icon"></i></a> <a href="https://www.linkedin.com/company/scientificnet/" target="_blank" rel="noopener" title="Scientific.Net"><i class="inline-icon linkedin-footer-icon social-icon"></i></a> </div> </div> </div> </div> <div class="line-footer"></div> <div class="footer-fluid"> <div class="container"> <div class="row"> <div class="col-xs-12 footer-copyright"> <p> &#169; 2024 Trans Tech Publications Ltd. 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