利用有限元法评估编织物绿色纺织复合材料的抗压机械性能 利用有限元法评估编织物绿色纺织复合材料的抗压机械性能

IF 1.2 4区 材料科学 Q4 MATERIALS SCIENCE, MULTIDISCIPLINARY
M. Kumar, A. Tevatia, A. Dixit
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引用次数: 0

摘要

该研究旨在利用三维有限元方法预测混合编织物天然复合材料受压时的机械性能。针对亚麻、玄武岩和黄麻等不同材料以及这些材料的组合(纱间混合玄武岩-亚麻、黄麻-亚麻和玄武岩-黄麻织物),创建并分析了平纹编织物单元格的详细有限元模型。据观察,织物的压缩响应主要受横向纵向剪切行为和纱线横截面刚度的影响。单层机织物的压缩涉及纱线弯曲和压实,压实导致不同区域的纤维体积分数不同。就压缩下的机械性能而言,玄武岩-黄麻混合平纹机织物优于以聚丙烯为基体的其他植物纤维织物。纱线间距和织物厚度的增加导致应变能和位移增加,这归因于纤维体积分数和卷曲角的变化。而增加纱线宽度则会增加交叉区域的接触面积和弯曲刚度,从而提高织物刚度,降低应变能和位移。重要的是,所开发的模型可有效模拟具有不同织造模式、材料特性和加载条件的纺织织物。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Assessing compressive mechanical behavior of woven fabric green textile composite using finite element method
      Bewertung des mechanischen Druckverhaltens von gewebten grünen Textilverbundstoffen mit Hilfe der Finite-Elemente-Methode

Assessing compressive mechanical behavior of woven fabric green textile composite using finite element method Bewertung des mechanischen Druckverhaltens von gewebten grünen Textilverbundstoffen mit Hilfe der Finite-Elemente-Methode

The research aims to forecast the mechanical performance of a hybrid woven fabric natural composite subjected to compression, utilizing the three-dimensional finite element method. A detailed finite element model of a plain woven fabric unit cell is created and analyzed for different materials like flax, basalt, and jute, and combinations of these materials (inter-yarn hybrid basalt-flax, jute-flax and basalt-jute fabrics). It is observed that fabric‘s response to compression is mainly influenced by the transverse longitudinal shear behaviour and the stiffness of the yarn cross-section. Compression of single-layer woven fabric involves yarn bending and compaction, resulting in varying fiber volume fractions in different areas due to compaction. The basalt-jute hybrid plain woven fabric outperformed other plant-based fiber fabrics with a polypropylene matrix in terms of mechanical performance under compression. Increase in yarn spacing and fabric thickness resulted in higher strain energy and displacement, attributed to changes in fiber volume fraction and crimp angle. Whereas, increasing yarn width led to a stiffer fabric due to increased contact area at the crossover region and higher bending rigidity, resulting in decreased strain energy and displacement. Importantly, this developed model can effectively simulate textile fabrics with diverse weaving patterns, material properties, and loading conditions.

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来源期刊
Materialwissenschaft und Werkstofftechnik
Materialwissenschaft und Werkstofftechnik 工程技术-材料科学:综合
CiteScore
2.10
自引率
9.10%
发文量
154
审稿时长
4-8 weeks
期刊介绍: Materialwissenschaft und Werkstofftechnik provides fundamental and practical information for those concerned with materials development, manufacture, and testing. Both technical and economic aspects are taken into consideration in order to facilitate choice of the material that best suits the purpose at hand. Review articles summarize new developments and offer fresh insight into the various aspects of the discipline. Recent results regarding material selection, use and testing are described in original articles, which also deal with failure treatment and investigation. Abstracts of new publications from other journals as well as lectures presented at meetings and reports about forthcoming events round off the journal.
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