Investigation of Hot Deformation Behavior of 321 Stainless Steel using Hot Compression Test and Modeling with Constitutive Equations

Investigation of Hot Deformation Behavior of 321 Stainless Steel using Hot Compression Test and Modeling with Constitutive Equations

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In this research, industrial hot deformation processes was simulated for 321 austenitic stainless steel using hot compression test with the aim of acquiring technical knowledge and indigenization of stainless steel production. The obtained stress-strain curves showed the common retrieval dynamic beh...

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Bibliographic Details
Main Authors: H. Chavilian, K. Farmanesh, A. Soltanipour, E. Maghsoudi
Format: Article
Language:fas
Published: Isfahan University of Technology 2017-11-01
Series:Journal of Advanced Materials in Engineering
Subjects:
321 austenitic stainless steel
constitutive equations
dynamic recrystallization.
Online Access:http://jame.iut.ac.ir/article-1-677-en.html
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spelling doaj-a23d76b6c1394ca092ce2ed7bd80775e2021-03-08T10:00:10ZfasIsfahan University of TechnologyJournal of Advanced Materials in Engineering2251-600X2423-57332017-11-013636372Investigation of Hot Deformation Behavior of 321 Stainless Steel using Hot Compression Test and Modeling with Constitutive EquationsH. Chavilian0K. Farmanesh1A. Soltanipour2E. Maghsoudi3 Department of Material Engineering, Malek Ashtar University of Technology, Isfahan, Iran. Department of Material Engineering, Malek Ashtar University of Technology, Isfahan, Iran. Department of Material Engineering, Malek Ashtar University of Technology, Isfahan, Iran. Department of Material Engineering, Malek Ashtar University of Technology, Isfahan, Iran. In this research, industrial hot deformation processes was simulated for 321 austenitic stainless steel using hot compression test with the aim of acquiring technical knowledge and indigenization of stainless steel production. The obtained stress-strain curves showed the common retrieval dynamic behaviour. By microscopic studies, the main restoration mechanism during hot deformation in this steel was diagnosed as dynamic recrystallization, that due to low stacking fault energy of 321 stainless steel, this phenomenon was justified. Then, using diagrams related to real stress, real strain and strain rate, the onset point of dynamic recrystallization was determined under different conditions. Also, using the constitutive equations and Zener-Holloman parameter, hot deformation behaviour of 321 stainless steel was studied and the activation energy of hot deformation for this steel was determined as 422 (Kj/mol).http://jame.iut.ac.ir/article-1-677-en.html321 austenitic stainless steelconstitutive equationsdynamic recrystallization.
collection DOAJ
language fas
format Article
sources DOAJ
author H. Chavilian
K. Farmanesh
A. Soltanipour
E. Maghsoudi
spellingShingle H. Chavilian
K. Farmanesh
A. Soltanipour
E. Maghsoudi
Investigation of Hot Deformation Behavior of 321 Stainless Steel using Hot Compression Test and Modeling with Constitutive Equations
Journal of Advanced Materials in Engineering
321 austenitic stainless steel
constitutive equations
dynamic recrystallization.
author_facet H. Chavilian
K. Farmanesh
A. Soltanipour
E. Maghsoudi
author_sort H. Chavilian
title Investigation of Hot Deformation Behavior of 321 Stainless Steel using Hot Compression Test and Modeling with Constitutive Equations
title_short Investigation of Hot Deformation Behavior of 321 Stainless Steel using Hot Compression Test and Modeling with Constitutive Equations
title_full Investigation of Hot Deformation Behavior of 321 Stainless Steel using Hot Compression Test and Modeling with Constitutive Equations
title_fullStr Investigation of Hot Deformation Behavior of 321 Stainless Steel using Hot Compression Test and Modeling with Constitutive Equations
title_full_unstemmed Investigation of Hot Deformation Behavior of 321 Stainless Steel using Hot Compression Test and Modeling with Constitutive Equations
title_sort investigation of hot deformation behavior of 321 stainless steel using hot compression test and modeling with constitutive equations
publisher Isfahan University of Technology
series Journal of Advanced Materials in Engineering
issn 2251-600X
2423-5733
publishDate 2017-11-01
description In this research, industrial hot deformation processes was simulated for 321 austenitic stainless steel using hot compression test with the aim of acquiring technical knowledge and indigenization of stainless steel production. The obtained stress-strain curves showed the common retrieval dynamic behaviour. By microscopic studies, the main restoration mechanism during hot deformation in this steel was diagnosed as dynamic recrystallization, that due to low stacking fault energy of 321 stainless steel, this phenomenon was justified. Then, using diagrams related to real stress, real strain and strain rate, the onset point of dynamic recrystallization was determined under different conditions. Also, using the constitutive equations and Zener-Holloman parameter, hot deformation behaviour of 321 stainless steel was studied and the activation energy of hot deformation for this steel was determined as 422 (Kj/mol).
topic 321 austenitic stainless steel
constitutive equations
dynamic recrystallization.
url http://jame.iut.ac.ir/article-1-677-en.html
work_keys_str_mv AT hchavilian investigationofhotdeformationbehaviorof321stainlesssteelusinghotcompressiontestandmodelingwithconstitutiveequations
AT kfarmanesh investigationofhotdeformationbehaviorof321stainlesssteelusinghotcompressiontestandmodelingwithconstitutiveequations
AT asoltanipour investigationofhotdeformationbehaviorof321stainlesssteelusinghotcompressiontestandmodelingwithconstitutiveequations
AT emaghsoudi investigationofhotdeformationbehaviorof321stainlesssteelusinghotcompressiontestandmodelingwithconstitutiveequations
_version_ 1724229009694261248

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