Deep Convolutional Neural Network Modeling and Laplace Transformation Algorithm for the Analysis of Surface Quality of Friction Stir Welded Joints

Deep Convolutional Neural Network Modeling and Laplace Transformation Algorithm for the Analysis of Surface Quality of Friction Stir Welded Joints

The quality of Friction Stir Welded joint depends on the input parameters like tool rotational speed, tool traverse speed (mm/min), tool tilt angle, and an axial plunge force. If there is any variation in these input parameters then there will be a chance of formation of various surface defects such...

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Bibliographic Details
Main Authors: Akshansh Mishra, Anusri Patti
Format: Article
Language:English
Published: Ediciones Universidad de Salamanca 2021-10-01
Series:Advances in Distributed Computing and Artificial Intelligence Journal
Subjects:
machine learning
friction stir welding
convolutional neural network
surface defects
laplace algorithm
Online Access:https://revistas.usal.es/index.php/2255-2863/article/view/26549
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spelling doaj-d8231402c07a4162bf3da08763b2c2272021-10-06T12:14:20ZengEdiciones Universidad de SalamancaAdvances in Distributed Computing and Artificial Intelligence Journal2255-28632021-10-0110330732010.14201/ADCAIJ202110330732023524Deep Convolutional Neural Network Modeling and Laplace Transformation Algorithm for the Analysis of Surface Quality of Friction Stir Welded JointsAkshansh Mishra0Anusri Patti1https://orcid.org/0000-0002-2908-0943Stir Research TechnologiesSRM Institute of Science and TechnologyThe quality of Friction Stir Welded joint depends on the input parameters like tool rotational speed, tool traverse speed (mm/min), tool tilt angle, and an axial plunge force. If there is any variation in these input parameters then there will be a chance of formation of various surface defects such as groovy edges, flash formation, and non-homogeneous mixing of alloys. The main objective of the present work is to use machine learning algorithms such as Deep Convolutional Neural Network (DCNN) and Laplace transformation algorithm to detect these surface defects present on the Friction Stir Welded joint.  The results showed that the used algorithms can easily detect such surface defects with good accuracy.https://revistas.usal.es/index.php/2255-2863/article/view/26549machine learningfriction stir weldingconvolutional neural networksurface defectslaplace algorithm
collection DOAJ
language English
format Article
sources DOAJ
author Akshansh Mishra
Anusri Patti
spellingShingle Akshansh Mishra
Anusri Patti
Deep Convolutional Neural Network Modeling and Laplace Transformation Algorithm for the Analysis of Surface Quality of Friction Stir Welded Joints
Advances in Distributed Computing and Artificial Intelligence Journal
machine learning
friction stir welding
convolutional neural network
surface defects
laplace algorithm
author_facet Akshansh Mishra
Anusri Patti
author_sort Akshansh Mishra
title Deep Convolutional Neural Network Modeling and Laplace Transformation Algorithm for the Analysis of Surface Quality of Friction Stir Welded Joints
title_short Deep Convolutional Neural Network Modeling and Laplace Transformation Algorithm for the Analysis of Surface Quality of Friction Stir Welded Joints
title_full Deep Convolutional Neural Network Modeling and Laplace Transformation Algorithm for the Analysis of Surface Quality of Friction Stir Welded Joints
title_fullStr Deep Convolutional Neural Network Modeling and Laplace Transformation Algorithm for the Analysis of Surface Quality of Friction Stir Welded Joints
title_full_unstemmed Deep Convolutional Neural Network Modeling and Laplace Transformation Algorithm for the Analysis of Surface Quality of Friction Stir Welded Joints
title_sort deep convolutional neural network modeling and laplace transformation algorithm for the analysis of surface quality of friction stir welded joints
publisher Ediciones Universidad de Salamanca
series Advances in Distributed Computing and Artificial Intelligence Journal
issn 2255-2863
publishDate 2021-10-01
description The quality of Friction Stir Welded joint depends on the input parameters like tool rotational speed, tool traverse speed (mm/min), tool tilt angle, and an axial plunge force. If there is any variation in these input parameters then there will be a chance of formation of various surface defects such as groovy edges, flash formation, and non-homogeneous mixing of alloys. The main objective of the present work is to use machine learning algorithms such as Deep Convolutional Neural Network (DCNN) and Laplace transformation algorithm to detect these surface defects present on the Friction Stir Welded joint.  The results showed that the used algorithms can easily detect such surface defects with good accuracy.
topic machine learning
friction stir welding
convolutional neural network
surface defects
laplace algorithm
url https://revistas.usal.es/index.php/2255-2863/article/view/26549
work_keys_str_mv AT akshanshmishra deepconvolutionalneuralnetworkmodelingandlaplacetransformationalgorithmfortheanalysisofsurfacequalityoffrictionstirweldedjoints
AT anusripatti deepconvolutionalneuralnetworkmodelingandlaplacetransformationalgorithmfortheanalysisofsurfacequalityoffrictionstirweldedjoints
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