Effect of Fiber Loading and Void Content on Tensile Properties of Keratin Based Randomly Oriented Human Hair Fiber Composites

P. Divakara Rao; C. Udaya Kiran; K. Eshwara Prasad

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Effect of Fiber Loading and Void Content on Tensile Properties of Keratin Based Randomly Oriented Human Hair Fiber Composites

机译：纤维载荷和空隙含量对基于角蛋白的随机取向人发纤维复合材料的拉伸性能的影响

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摘要

Human hair is a non-biodegradable waste available in abundant quantity across the world, but is not explored fully for applications in engineering field. Tensile strength of human hair ranges from 150 to 220 MPa. This property of human hair can be made use in the field of making bio-composites. In the present work, hair based bio-composites are prepared by combining the human hair and polyester using hand layup technique. Volume fraction of the human hair fiber is varied by fixing the fibre length at 20 mm and tensile tests were conducted as per the standards. While increasing the fibre volume fraction up to a certain range the composite materials have shown superior amendments in their tensile properties. Further, the experimental results are compared with theoretical models.

机译：人的头发是世界各地丰富的不可生物降解的废物，但在工程领域的应用没有完全探索。人毛的拉伸强度范围为150至220MPa。人头发的这种性质可以在制作生物复合材料领域。在本作本作中，通过使用手持式技术组合人的头发和聚酯来制备毛发的生物复合材料。通过固定20mM的纤维长度来改变人毛纤维的体积分数，并且根据标准进行拉伸试验。在将纤维体积分数增加到一定范围的同时，复合材料在其拉伸性能下显示出优异的修正。此外，将实验结果与理论模型进行比较。

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来源
《International Journal of Composite Materials》 |2017年第5期|共8页
作者
P. Divakara Rao; C. Udaya Kiran; K. Eshwara Prasad;
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作者单位

Department of Mechanical Engineering J.B. Institute of Engineering and Technology Hyderabad Telangana India;

Department of Mechanical Engineering J.B. Institute of Engineering and Technology Hyderabad Telangana India;

Department of Mechanical Engineering Jawaharlal Nehru Technological University Hyderabad Telangana India;

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原文格式 PDF
正文语种 eng
中图分类计量学;
关键词
Polyester resin; Human Hair Fiber; Bio-composite; Theoretical model;

机译：聚酯树脂;人头纤维;生物复合材料;理论模型;

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机译：定向短纤维复合材料的成型。 I.终极拉伸性能

Effect of Fiber Loading and Void Content on Tensile Properties of Keratin Based Randomly Oriented Human Hair Fiber Composites

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