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Application of BP Artificial Neural Network in Preparation of Ni–W Graded Coatings

The internal stress difference between soft-ductile aluminum alloy substrate and hard-brittle Ni–W alloy coating will cause stress concentration, thus leading to the problem of poor bonding force. Herein, this work prepared the Ni–W graded coating on aluminum alloy matrix by the pulse electrodeposit...

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Autores principales: Feng, Pei, Shi, Yuhua, Shang, Peng, Wei, Hanjun, Peng, Tongtong, Pang, Lisha, Feng, Rongrong, Zhang, Wenyuan
Formato: Online Artículo Texto
Lenguaje:English
Publicado: MDPI 2021
Materias:
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC8622298/
https://www.ncbi.nlm.nih.gov/pubmed/34832182
http://dx.doi.org/10.3390/ma14226781
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author Feng, Pei
Shi, Yuhua
Shang, Peng
Wei, Hanjun
Peng, Tongtong
Pang, Lisha
Feng, Rongrong
Zhang, Wenyuan
author_facet Feng, Pei
Shi, Yuhua
Shang, Peng
Wei, Hanjun
Peng, Tongtong
Pang, Lisha
Feng, Rongrong
Zhang, Wenyuan
author_sort Feng, Pei
collection PubMed
description The internal stress difference between soft-ductile aluminum alloy substrate and hard-brittle Ni–W alloy coating will cause stress concentration, thus leading to the problem of poor bonding force. Herein, this work prepared the Ni–W graded coating on aluminum alloy matrix by the pulse electrodeposition method in order to solve the mechanical mismatch problem between substrate and coatings. More importantly, a backward propagation (BP) neural network was applied to efficiently optimize the pulse electrodeposition process of Ni–W graded coating. The SEM, EDS, XRD, Vickers hardness tester and Weighing scales are used to analyze the micromorphology, chemical element, phase composition, and micro hardness as well as oxidation weight increase, respectively. The results show that the optimal process conditions with BP neural network are as follows: the bath temperature is 30 °C, current density is 15 mA/cm(2) and duty cycle is 0.3. The predicted value of the model agrees well with the experimental value curve, the relative error is minor. The maximum error is less than 3%, and the correlation coefficient is 0.9996. The Ni–W graded coating prepared by BP neural network shows good bonding with the substrate which has flat and smooth interface. The thickness of the coating is about 136 μm, which slows down the oxidation of the substrate and plays an effective role in protecting the substrate.
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spelling pubmed-86222982021-11-27 Application of BP Artificial Neural Network in Preparation of Ni–W Graded Coatings Feng, Pei Shi, Yuhua Shang, Peng Wei, Hanjun Peng, Tongtong Pang, Lisha Feng, Rongrong Zhang, Wenyuan Materials (Basel) Article The internal stress difference between soft-ductile aluminum alloy substrate and hard-brittle Ni–W alloy coating will cause stress concentration, thus leading to the problem of poor bonding force. Herein, this work prepared the Ni–W graded coating on aluminum alloy matrix by the pulse electrodeposition method in order to solve the mechanical mismatch problem between substrate and coatings. More importantly, a backward propagation (BP) neural network was applied to efficiently optimize the pulse electrodeposition process of Ni–W graded coating. The SEM, EDS, XRD, Vickers hardness tester and Weighing scales are used to analyze the micromorphology, chemical element, phase composition, and micro hardness as well as oxidation weight increase, respectively. The results show that the optimal process conditions with BP neural network are as follows: the bath temperature is 30 °C, current density is 15 mA/cm(2) and duty cycle is 0.3. The predicted value of the model agrees well with the experimental value curve, the relative error is minor. The maximum error is less than 3%, and the correlation coefficient is 0.9996. The Ni–W graded coating prepared by BP neural network shows good bonding with the substrate which has flat and smooth interface. The thickness of the coating is about 136 μm, which slows down the oxidation of the substrate and plays an effective role in protecting the substrate. MDPI 2021-11-10 /pmc/articles/PMC8622298/ /pubmed/34832182 http://dx.doi.org/10.3390/ma14226781 Text en © 2021 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
Feng, Pei
Shi, Yuhua
Shang, Peng
Wei, Hanjun
Peng, Tongtong
Pang, Lisha
Feng, Rongrong
Zhang, Wenyuan
Application of BP Artificial Neural Network in Preparation of Ni–W Graded Coatings
title Application of BP Artificial Neural Network in Preparation of Ni–W Graded Coatings
title_full Application of BP Artificial Neural Network in Preparation of Ni–W Graded Coatings
title_fullStr Application of BP Artificial Neural Network in Preparation of Ni–W Graded Coatings
title_full_unstemmed Application of BP Artificial Neural Network in Preparation of Ni–W Graded Coatings
title_short Application of BP Artificial Neural Network in Preparation of Ni–W Graded Coatings
title_sort application of bp artificial neural network in preparation of ni–w graded coatings
topic Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC8622298/
https://www.ncbi.nlm.nih.gov/pubmed/34832182
http://dx.doi.org/10.3390/ma14226781
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