Mercerization Optimization of Bamboo (Bambusa vulgaris<i>)</i> Fiber-Reinforced Epoxy Composite Structures Using a Box–Behnken Design

Mercerization Optimization of Bamboo (Bambusa vulgaris<i>)</i> Fiber-Reinforced Epoxy Composite Structures Using a Box–Behnken Design

The objective of this research is to optimize the alkaline treatment variables, including sodium hydroxide (NaOH) concentration, soaking, and drying time, that influence the mechanical behavior of bamboo fiber-reinforced epoxy composites. In this study, a Box–Behnken design (BBD) of the response sur...

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Main Authors: Mohamad Zaki Hassan, Siti Amni Roslan, S. M. Sapuan, Zainudin A Rasid, Ariff Farhan Mohd Nor, Mohd Yusof Md Daud, Rozzeta Dolah, Mohd Zuhri Mohamed Yusoff
Format: Article
Language:English
Published: MDPI AG 2020-06-01
Series:Polymers
Subjects:
alkaline treatment
optimization
bamboo fibers
response surface methodology
Online Access:https://www.mdpi.com/2073-4360/12/6/1367
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spelling doaj-b4151f8164b748e99bdb4158d1e7fe3f2020-11-25T02:23:46ZengMDPI AGPolymers2073-43602020-06-01121367136710.3390/polym12061367Mercerization Optimization of Bamboo (Bambusa vulgaris<i>)</i> Fiber-Reinforced Epoxy Composite Structures Using a Box–Behnken DesignMohamad Zaki Hassan0Siti Amni Roslan1S. M. Sapuan2Zainudin A Rasid3Ariff Farhan Mohd Nor4Mohd Yusof Md Daud5Rozzeta Dolah6Mohd Zuhri Mohamed Yusoff7Razak Faculty of Technology and Informatics, Universiti Teknologi Malaysia, Kuala Lumpur, Jalan Sultan Yahya Petra, Kuala Lumpur 54100, MalaysiaMalaysia-Japan International Institute of Technology, Universiti Teknologi Malaysia, Kuala Lumpur, Jalan Sultan Yahya Petra, Kuala Lumpur 54100, MalaysiaAdvanced Engineering Materials and Composites Research Centre, Department of Mechanical and Manufacturing Engineering, Universiti Putra Malaysia, UPM Serdang 43400, Selangor, MalaysiaMalaysia-Japan International Institute of Technology, Universiti Teknologi Malaysia, Kuala Lumpur, Jalan Sultan Yahya Petra, Kuala Lumpur 54100, MalaysiaMalaysia-Japan International Institute of Technology, Universiti Teknologi Malaysia, Kuala Lumpur, Jalan Sultan Yahya Petra, Kuala Lumpur 54100, MalaysiaRazak Faculty of Technology and Informatics, Universiti Teknologi Malaysia, Kuala Lumpur, Jalan Sultan Yahya Petra, Kuala Lumpur 54100, MalaysiaRazak Faculty of Technology and Informatics, Universiti Teknologi Malaysia, Kuala Lumpur, Jalan Sultan Yahya Petra, Kuala Lumpur 54100, MalaysiaAdvanced Engineering Materials and Composites Research Centre, Department of Mechanical and Manufacturing Engineering, Universiti Putra Malaysia, UPM Serdang 43400, Selangor, MalaysiaThe objective of this research is to optimize the alkaline treatment variables, including sodium hydroxide (NaOH) concentration, soaking, and drying time, that influence the mechanical behavior of bamboo fiber-reinforced epoxy composites. In this study, a Box–Behnken design (BBD) of the response surface methodology (RSM) was employed to design an experiment to investigate the mercerization effect of bamboo fiber-reinforced epoxy composites. The evaluation of predicted tensile strength as a variable parameter of bamboo fiber (<i>Bambusa vulgaris</i>) reinforced epoxy composite structures was determined using analysis of variance (ANOVA) of the quadratic model. In this study, a total of 17 experiment runs were measured and a significant regression for the coefficient between the variables was obtained. Further, the triangular and square core structures made of treated and untreated bamboo fiber-reinforced epoxy composites were tested under compressive loading. It was found that the optimum mercerization condition lies at 5.81 wt.% of the NaOH, after a soaking time of 3.99 h and a drying time of 72 h. This optimum alkaline treatment once again had a great effect on the structures whereby all the treated composite cores with square and triangular structures impressively outperformed the untreated bamboo structures. The treated triangular core of bamboo reinforced composites gave an outstanding performance compared to the treated and untreated square core composite structures for compressive loading and specific energy absorbing capability.https://www.mdpi.com/2073-4360/12/6/1367alkaline treatmentoptimizationbamboo fibersresponse surface methodology
collection DOAJ
language English
format Article
sources DOAJ
author Mohamad Zaki Hassan
Siti Amni Roslan
S. M. Sapuan
Zainudin A Rasid
Ariff Farhan Mohd Nor
Mohd Yusof Md Daud
Rozzeta Dolah
Mohd Zuhri Mohamed Yusoff
spellingShingle Mohamad Zaki Hassan
Siti Amni Roslan
S. M. Sapuan
Zainudin A Rasid
Ariff Farhan Mohd Nor
Mohd Yusof Md Daud
Rozzeta Dolah
Mohd Zuhri Mohamed Yusoff
Mercerization Optimization of Bamboo (Bambusa vulgaris<i>)</i> Fiber-Reinforced Epoxy Composite Structures Using a Box–Behnken Design
Polymers
alkaline treatment
optimization
bamboo fibers
response surface methodology
author_facet Mohamad Zaki Hassan
Siti Amni Roslan
S. M. Sapuan
Zainudin A Rasid
Ariff Farhan Mohd Nor
Mohd Yusof Md Daud
Rozzeta Dolah
Mohd Zuhri Mohamed Yusoff
author_sort Mohamad Zaki Hassan
title Mercerization Optimization of Bamboo (Bambusa vulgaris<i>)</i> Fiber-Reinforced Epoxy Composite Structures Using a Box–Behnken Design
title_short Mercerization Optimization of Bamboo (Bambusa vulgaris<i>)</i> Fiber-Reinforced Epoxy Composite Structures Using a Box–Behnken Design
title_full Mercerization Optimization of Bamboo (Bambusa vulgaris<i>)</i> Fiber-Reinforced Epoxy Composite Structures Using a Box–Behnken Design
title_fullStr Mercerization Optimization of Bamboo (Bambusa vulgaris<i>)</i> Fiber-Reinforced Epoxy Composite Structures Using a Box–Behnken Design
title_full_unstemmed Mercerization Optimization of Bamboo (Bambusa vulgaris<i>)</i> Fiber-Reinforced Epoxy Composite Structures Using a Box–Behnken Design
title_sort mercerization optimization of bamboo (bambusa vulgaris<i>)</i> fiber-reinforced epoxy composite structures using a box–behnken design
publisher MDPI AG
series Polymers
issn 2073-4360
publishDate 2020-06-01
description The objective of this research is to optimize the alkaline treatment variables, including sodium hydroxide (NaOH) concentration, soaking, and drying time, that influence the mechanical behavior of bamboo fiber-reinforced epoxy composites. In this study, a Box–Behnken design (BBD) of the response surface methodology (RSM) was employed to design an experiment to investigate the mercerization effect of bamboo fiber-reinforced epoxy composites. The evaluation of predicted tensile strength as a variable parameter of bamboo fiber (<i>Bambusa vulgaris</i>) reinforced epoxy composite structures was determined using analysis of variance (ANOVA) of the quadratic model. In this study, a total of 17 experiment runs were measured and a significant regression for the coefficient between the variables was obtained. Further, the triangular and square core structures made of treated and untreated bamboo fiber-reinforced epoxy composites were tested under compressive loading. It was found that the optimum mercerization condition lies at 5.81 wt.% of the NaOH, after a soaking time of 3.99 h and a drying time of 72 h. This optimum alkaline treatment once again had a great effect on the structures whereby all the treated composite cores with square and triangular structures impressively outperformed the untreated bamboo structures. The treated triangular core of bamboo reinforced composites gave an outstanding performance compared to the treated and untreated square core composite structures for compressive loading and specific energy absorbing capability.
topic alkaline treatment
optimization
bamboo fibers
response surface methodology
url https://www.mdpi.com/2073-4360/12/6/1367
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