Momordica augustisepala L. stem fibre reinforced thermoplastic starch: Mechanical property characterization and fuzzy logic artificial intelligent modelling

Momordica augustisepala L. stem fibre reinforced thermoplastic starch: Mechanical property characterization and fuzzy logic artificial intelligent modelling

Understanding the effect of reinforcement scales on the properties of fibre reinforced composite and establishment of suitable material property predictive model are important for successful composite development. This study investigated the effect of micro and nano scale Momordica augustisepala ste...

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Main Authors: Abiola John Adeyi, Dr., PhD, Mondiu Olayinka Durowoju, Prof., PhD, Oladayo Adeyi, Dr., PhD, Emmanuel Olusola Oke, Dr, PhD, Olusegun Abayomi Olalere, Dr, PhD, Akinola David Ogunsola, Dr., PhD
Format: Article
Language:English
Published: Elsevier 2021-06-01
Series:Results in Engineering
Subjects:
Fuzzy logic
Momordica augustisepala
Reinforcements
Starch
Cassava
Online Access:http://www.sciencedirect.com/science/article/pii/S2590123021000232
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spelling doaj-0704acd4242047479d74918e283a6eaf2021-06-19T04:56:04ZengElsevierResults in Engineering2590-12302021-06-0110100222Momordica augustisepala L. stem fibre reinforced thermoplastic starch: Mechanical property characterization and fuzzy logic artificial intelligent modellingAbiola John Adeyi, Dr., PhD0Mondiu Olayinka Durowoju, Prof., PhD1Oladayo Adeyi, Dr., PhD2Emmanuel Olusola Oke, Dr, PhD3Olusegun Abayomi Olalere, Dr, PhD4Akinola David Ogunsola, Dr., PhD5Department of Mechanical Engineering, Ladoke Akintola University of Technology, P.M.B. 4000, Ogbomoso, Oyo State, Nigeria; Corresponding author.Department of Mechanical Engineering, Ladoke Akintola University of Technology, P.M.B. 4000, Ogbomoso, Oyo State, NigeriaDepartment of Chemical Engineering, Michael Okpara University of Agriculture, P.M.B 7267, Umudike, Abia State, NigeriaDepartment of Chemical Engineering, Michael Okpara University of Agriculture, P.M.B 7267, Umudike, Abia State, NigeriaUniversity Sains Malaysia, MalaysiaDepartment of Mechanical Engineering, Ladoke Akintola University of Technology, P.M.B. 4000, Ogbomoso, Oyo State, NigeriaUnderstanding the effect of reinforcement scales on the properties of fibre reinforced composite and establishment of suitable material property predictive model are important for successful composite development. This study investigated the effect of micro and nano scale Momordica augustisepala stem natural fibre (MASNF) on the mechanical properties of cassava starch thermoplastic (CSTP). Thereafter, fuzzy logic artificial intelligent method (FLAIM) was utilized to predict the mechanical properties. Micro and nano MASNF reinforcements were extracted through alkalization, bleaching and acid hydrolysis methods. For environmental preservation purposes, starch was extracted from cassava processing factory's liquid waste. Micro and nano MASNF reinforced CSTP film samples at different fibre weight fraction were developed by casting method. The morphological, crystallinity and mechanical properties of the samples were established using SEM, XRD and Instron Universal Machine, respectively. The experimental data were modelled and predicted with FLAIM using Matlab software. SEM and TEM showed that used chemical treatments were sufficient to extract suitable MASNF reinforcements. Crystallinity of raw, alkalized, and bleached and nano MASNF were 24.00, 36.96 and 45.00 and 62.00, respectively. Nano and micro MASNF improved the mechanical properties of CSTP film; however, nano MASNF had the highest tensile strength and modulus of 6.35 ​MPa and 245.22 ​MPa, respectively at 9 ​wt % fibre weight fraction. FLAIM was effective to predict the observed mechanical properties with average model accuracy and coefficient of determination that ranged between 92.08 – 97.18 and 0.7981–0.9969, respectively. It is concluded that these results have prospect in technical and economic development of composite.http://www.sciencedirect.com/science/article/pii/S2590123021000232Fuzzy logicMomordica augustisepalaReinforcementsStarchCassava
collection DOAJ
language English
format Article
sources DOAJ
author Abiola John Adeyi, Dr., PhD
Mondiu Olayinka Durowoju, Prof., PhD
Oladayo Adeyi, Dr., PhD
Emmanuel Olusola Oke, Dr, PhD
Olusegun Abayomi Olalere, Dr, PhD
Akinola David Ogunsola, Dr., PhD
spellingShingle Abiola John Adeyi, Dr., PhD
Mondiu Olayinka Durowoju, Prof., PhD
Oladayo Adeyi, Dr., PhD
Emmanuel Olusola Oke, Dr, PhD
Olusegun Abayomi Olalere, Dr, PhD
Akinola David Ogunsola, Dr., PhD
Momordica augustisepala L. stem fibre reinforced thermoplastic starch: Mechanical property characterization and fuzzy logic artificial intelligent modelling
Results in Engineering
Fuzzy logic
Momordica augustisepala
Reinforcements
Starch
Cassava
author_facet Abiola John Adeyi, Dr., PhD
Mondiu Olayinka Durowoju, Prof., PhD
Oladayo Adeyi, Dr., PhD
Emmanuel Olusola Oke, Dr, PhD
Olusegun Abayomi Olalere, Dr, PhD
Akinola David Ogunsola, Dr., PhD
author_sort Abiola John Adeyi, Dr., PhD
title Momordica augustisepala L. stem fibre reinforced thermoplastic starch: Mechanical property characterization and fuzzy logic artificial intelligent modelling
title_short Momordica augustisepala L. stem fibre reinforced thermoplastic starch: Mechanical property characterization and fuzzy logic artificial intelligent modelling
title_full Momordica augustisepala L. stem fibre reinforced thermoplastic starch: Mechanical property characterization and fuzzy logic artificial intelligent modelling
title_fullStr Momordica augustisepala L. stem fibre reinforced thermoplastic starch: Mechanical property characterization and fuzzy logic artificial intelligent modelling
title_full_unstemmed Momordica augustisepala L. stem fibre reinforced thermoplastic starch: Mechanical property characterization and fuzzy logic artificial intelligent modelling
title_sort momordica augustisepala l. stem fibre reinforced thermoplastic starch: mechanical property characterization and fuzzy logic artificial intelligent modelling
publisher Elsevier
series Results in Engineering
issn 2590-1230
publishDate 2021-06-01
description Understanding the effect of reinforcement scales on the properties of fibre reinforced composite and establishment of suitable material property predictive model are important for successful composite development. This study investigated the effect of micro and nano scale Momordica augustisepala stem natural fibre (MASNF) on the mechanical properties of cassava starch thermoplastic (CSTP). Thereafter, fuzzy logic artificial intelligent method (FLAIM) was utilized to predict the mechanical properties. Micro and nano MASNF reinforcements were extracted through alkalization, bleaching and acid hydrolysis methods. For environmental preservation purposes, starch was extracted from cassava processing factory's liquid waste. Micro and nano MASNF reinforced CSTP film samples at different fibre weight fraction were developed by casting method. The morphological, crystallinity and mechanical properties of the samples were established using SEM, XRD and Instron Universal Machine, respectively. The experimental data were modelled and predicted with FLAIM using Matlab software. SEM and TEM showed that used chemical treatments were sufficient to extract suitable MASNF reinforcements. Crystallinity of raw, alkalized, and bleached and nano MASNF were 24.00, 36.96 and 45.00 and 62.00, respectively. Nano and micro MASNF improved the mechanical properties of CSTP film; however, nano MASNF had the highest tensile strength and modulus of 6.35 ​MPa and 245.22 ​MPa, respectively at 9 ​wt % fibre weight fraction. FLAIM was effective to predict the observed mechanical properties with average model accuracy and coefficient of determination that ranged between 92.08 – 97.18 and 0.7981–0.9969, respectively. It is concluded that these results have prospect in technical and economic development of composite.
topic Fuzzy logic
Momordica augustisepala
Reinforcements
Starch
Cassava
url http://www.sciencedirect.com/science/article/pii/S2590123021000232
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