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The Flexural Strength Prediction of Carbon Fiber/Epoxy Composite Using Artificial Neural Network Approach

There is a developing demand for natural resources because of the growing population. Alternative materials have been developed to address these shortages, concentrating on characteristics such as durability and lightness. By researching composite materials, natural materials can be replaced. It is...

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Autores principales: Phunpeng, Veena, Saensuriwong, Karunamit, Kerdphol, Thongchart, Uangpairoj, Pichitra
Formato: Online Artículo Texto
Lenguaje:English
Publicado: MDPI 2023
Materias:
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC10420282/
https://www.ncbi.nlm.nih.gov/pubmed/37570005
http://dx.doi.org/10.3390/ma16155301
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author Phunpeng, Veena
Saensuriwong, Karunamit
Kerdphol, Thongchart
Uangpairoj, Pichitra
author_facet Phunpeng, Veena
Saensuriwong, Karunamit
Kerdphol, Thongchart
Uangpairoj, Pichitra
author_sort Phunpeng, Veena
collection PubMed
description There is a developing demand for natural resources because of the growing population. Alternative materials have been developed to address these shortages, concentrating on characteristics such as durability and lightness. By researching composite materials, natural materials can be replaced. It is vital to consider the mechanical properties of composite materials when selecting them for a specific application. This study aims to measure the flexural strength of carbon fiber/epoxy composites. However, the cost of forming these composites is relatively high, given the expense of composite materials. Consequently, this study seeks to reduce molding costs by predicting flexural strength. Conducting many tests for each case is costly; therefore, it is necessary to discover an economical method. To accomplish this, the flexural strength of carbon fiber/epoxy composites was investigated using an artificial neural network (ANN) technique to reduce the expense of material testing. The output parameter investigated was flexural strength, while input parameters included ply orientation, manufacturing, width, thickness, and graphite filler percentage. The scope alternative was determined by identifying the values of variables that substantially affect the flexural strength. The prediction of flexural strength was deemed acceptable if the mean squared error (MSE) value was less than 0.001, and the coefficient of determination (R(2)) was greater than or equal to 0.95. The obtained results demonstrated an MSE of 0.003039 and an R(2) value of 0.95274, indicating a low prediction error and high prediction accuracy for all flexural strength data. Thus, the outcomes of this study provide accurate predictions of flexural strength in the composite materials.
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spelling pubmed-104202822023-08-12 The Flexural Strength Prediction of Carbon Fiber/Epoxy Composite Using Artificial Neural Network Approach Phunpeng, Veena Saensuriwong, Karunamit Kerdphol, Thongchart Uangpairoj, Pichitra Materials (Basel) Article There is a developing demand for natural resources because of the growing population. Alternative materials have been developed to address these shortages, concentrating on characteristics such as durability and lightness. By researching composite materials, natural materials can be replaced. It is vital to consider the mechanical properties of composite materials when selecting them for a specific application. This study aims to measure the flexural strength of carbon fiber/epoxy composites. However, the cost of forming these composites is relatively high, given the expense of composite materials. Consequently, this study seeks to reduce molding costs by predicting flexural strength. Conducting many tests for each case is costly; therefore, it is necessary to discover an economical method. To accomplish this, the flexural strength of carbon fiber/epoxy composites was investigated using an artificial neural network (ANN) technique to reduce the expense of material testing. The output parameter investigated was flexural strength, while input parameters included ply orientation, manufacturing, width, thickness, and graphite filler percentage. The scope alternative was determined by identifying the values of variables that substantially affect the flexural strength. The prediction of flexural strength was deemed acceptable if the mean squared error (MSE) value was less than 0.001, and the coefficient of determination (R(2)) was greater than or equal to 0.95. The obtained results demonstrated an MSE of 0.003039 and an R(2) value of 0.95274, indicating a low prediction error and high prediction accuracy for all flexural strength data. Thus, the outcomes of this study provide accurate predictions of flexural strength in the composite materials. MDPI 2023-07-28 /pmc/articles/PMC10420282/ /pubmed/37570005 http://dx.doi.org/10.3390/ma16155301 Text en © 2023 by the authors. https://creativecommons.org/licenses/by/4.0/Licensee MDPI, Basel, Switzerland. This article is an open access article distributed under the terms and conditions of the Creative Commons Attribution (CC BY) license (https://creativecommons.org/licenses/by/4.0/).
spellingShingle Article
Phunpeng, Veena
Saensuriwong, Karunamit
Kerdphol, Thongchart
Uangpairoj, Pichitra
The Flexural Strength Prediction of Carbon Fiber/Epoxy Composite Using Artificial Neural Network Approach
title The Flexural Strength Prediction of Carbon Fiber/Epoxy Composite Using Artificial Neural Network Approach
title_full The Flexural Strength Prediction of Carbon Fiber/Epoxy Composite Using Artificial Neural Network Approach
title_fullStr The Flexural Strength Prediction of Carbon Fiber/Epoxy Composite Using Artificial Neural Network Approach
title_full_unstemmed The Flexural Strength Prediction of Carbon Fiber/Epoxy Composite Using Artificial Neural Network Approach
title_short The Flexural Strength Prediction of Carbon Fiber/Epoxy Composite Using Artificial Neural Network Approach
title_sort flexural strength prediction of carbon fiber/epoxy composite using artificial neural network approach
topic Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC10420282/
https://www.ncbi.nlm.nih.gov/pubmed/37570005
http://dx.doi.org/10.3390/ma16155301
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