Tensile properties analysis and characterization of single fiber and biocomposites

The natural fiber is an emerging area in polymer science and the best option for replacing synthetic polymer in relevant applications. The study reviewed the future development of tensile strength and stiffness properties of monotonic single fiber and biocomposite using Weibull analysis. The Weibull...

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Main Authors: Hassan, Mohamad Zaki, Ibrahim, Mohamad Ikhwan, Sapuan, S. M.
Format: Book Section
Published: CRC Press 2022
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author Hassan, Mohamad Zaki
Ibrahim, Mohamad Ikhwan
Sapuan, S. M.
author_facet Hassan, Mohamad Zaki
Ibrahim, Mohamad Ikhwan
Sapuan, S. M.
author_sort Hassan, Mohamad Zaki
collection UPM
description The natural fiber is an emerging area in polymer science and the best option for replacing synthetic polymer in relevant applications. The study reviewed the future development of tensile strength and stiffness properties of monotonic single fiber and biocomposite using Weibull analysis. The Weibull distribution model that statistically interprets the reliability of distribution of tensile test was deeply discussed. The distinctive parameters, especially in determining the Weibull modulus (m), were also examined. Further, the latest trend in evaluating the single fiber and biocomposite structures by using a statistical approach was addressed.
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institution Universiti Putra Malaysia
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spelling upm.eprints-999882024-04-22T08:16:48Z http://psasir.upm.edu.my/id/eprint/99988/ Tensile properties analysis and characterization of single fiber and biocomposites Hassan, Mohamad Zaki Ibrahim, Mohamad Ikhwan Sapuan, S. M. The natural fiber is an emerging area in polymer science and the best option for replacing synthetic polymer in relevant applications. The study reviewed the future development of tensile strength and stiffness properties of monotonic single fiber and biocomposite using Weibull analysis. The Weibull distribution model that statistically interprets the reliability of distribution of tensile test was deeply discussed. The distinctive parameters, especially in determining the Weibull modulus (m), were also examined. Further, the latest trend in evaluating the single fiber and biocomposite structures by using a statistical approach was addressed. CRC Press 2022 Book Section PeerReviewed Hassan, Mohamad Zaki and Ibrahim, Mohamad Ikhwan and Sapuan, S. M. (2022) Tensile properties analysis and characterization of single fiber and biocomposites. In: Value-Added Biocomposutes: Technology, Innovation, and Opportunity. CRC Press, U.S.A, 87 - 101. ISBN 978036784266 https://www.taylorfrancis.com/chapters/edit/10.1201/9781003137535-4/tensile-properties-analysis-characterizations-single-fiber-biocomposites-mohamad-zaki-hassan-mohamad-ikhwan-ibrahim-sm-sapuan 10.1201/9781003137535-4
spellingShingle Hassan, Mohamad Zaki
Ibrahim, Mohamad Ikhwan
Sapuan, S. M.
Tensile properties analysis and characterization of single fiber and biocomposites
title Tensile properties analysis and characterization of single fiber and biocomposites
title_full Tensile properties analysis and characterization of single fiber and biocomposites
title_fullStr Tensile properties analysis and characterization of single fiber and biocomposites
title_full_unstemmed Tensile properties analysis and characterization of single fiber and biocomposites
title_short Tensile properties analysis and characterization of single fiber and biocomposites
title_sort tensile properties analysis and characterization of single fiber and biocomposites
work_keys_str_mv AT hassanmohamadzaki tensilepropertiesanalysisandcharacterizationofsinglefiberandbiocomposites
AT ibrahimmohamadikhwan tensilepropertiesanalysisandcharacterizationofsinglefiberandbiocomposites
AT sapuansm tensilepropertiesanalysisandcharacterizationofsinglefiberandbiocomposites