混合增强复合材料层合板假体承口准静态强度的实验与数值研究

IF 2.2 4区 工程技术 Q1 MATERIALS SCIENCE, TEXTILES Journal of Industrial Textiles Pub Date : 2023-01-01 DOI:10.1177/15280837231178567
H. Dalfi, Rand Ayad, Khadhum Shabeeb, Khayale Jan, Roy Conway
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引用次数: 0

摘要

本研究旨在开发用于制造机械性能增强的假肢承窝的复合材料层压板。织物(即玻璃、碳和Kevlar织物)的分层混合用于通过真空装袋法注入树脂来制造混合复合材料层压板。通过压缩载荷试验研究了这些材料对压缩载荷的响应,并通过拉伸强度试验检验了其承载能力。此外,还使用Abaqus软件进行了有限元分析,以预测所有插座样品的压缩破坏载荷和损伤破坏模式。实验结果表明,在压缩载荷试验中,与非混合层压板相比,混合层压板表现出更高的稳定性和吸收能。此外,与没有杂交的复合材料层压板相比,织物层的杂交可以在提高混合复合材料层合板的拉伸强度性能方面发挥关键作用。压缩破坏载荷和损伤破坏模式的数值模拟结果与实验结果定性和定量一致。
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Enhancing the quasi-static strength of prosthetic socket made from composite laminates via hybridisation: Experimental and numerical study
This study aims to develop composite laminates for the manufacture of prosthesis socket with enhanced mechanical performance. Layered hybridisation of fabrics (i.e. glass, carbon, and Kevlar fabrics) is used to manufacture hybrid composite laminates by resin infusion via vacuum bagging method. The response of these materials to compression loading is investigated by using compression-loading testes and the load-bearing ability was examined by tensile strength tests. Moreover, finite element analysis has been carried out by using the Abaqus software to predict the compressive failure load and damage failure modes for all sockets samples. Experimental results revealed that the hybrid laminates exhibited more stability and higher absorbing energy compared to non-hybrid laminates during compressive loading tests. Furthermore, the hybridisation of fabrics layers can play key role for improving the tensile strength properties of hybrid composite laminates compared to composite laminates without hybridisation. The numerical simulation results of compressive failure load and damage failure modes are in accordance with experimental results qualitatively as well as quantitatively.
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来源期刊
Journal of Industrial Textiles
Journal of Industrial Textiles MATERIALS SCIENCE, TEXTILES-
CiteScore
5.30
自引率
18.80%
发文量
165
审稿时长
2.3 months
期刊介绍: The Journal of Industrial Textiles is the only peer reviewed journal devoted exclusively to technology, processing, methodology, modelling and applications in technical textiles, nonwovens, coated and laminated fabrics, textile composites and nanofibers.
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