Finite Element Evaluation of Elasto-Plastic Residual Stresses around Coldworked Fastener Holes

Finite Element Evaluation of Elasto-Plastic Residual Stresses around Coldworked Fastener Holes

The present work on the simulation of cold-working process using finite element analysis was devoted to two parts. The first part concerns with axisymmetric finite element analysis of elastic-plastic 2024-T351 aluminium alloy. The material was considered isotropic and a Von Mises yield stress criter...

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Main Author: Ab. Rashdi, Abdalla A.
Format: Thesis
Language:English
English
Published: 2000
Online Access:http://psasir.upm.edu.my/id/eprint/10502/
http://psasir.upm.edu.my/id/eprint/10502/1/FK_2000_33_A.pdf
id upm-10502
recordtype eprints
spelling upm-105022014-10-28T01:15:22Z http://psasir.upm.edu.my/id/eprint/10502/ Finite Element Evaluation of Elasto-Plastic Residual Stresses around Coldworked Fastener Holes Ab. Rashdi, Abdalla A. The present work on the simulation of cold-working process using finite element analysis was devoted to two parts. The first part concerns with axisymmetric finite element analysis of elastic-plastic 2024-T351 aluminium alloy. The material was considered isotropic and a Von Mises yield stress criterion with hardening rule was assumed. The commercial finite element software, LUSAS-13.1, was used to simulate the cold-working process in a 6 mm thick plate with a 6.35 mm diameter hole with 4% radial expansion for three different models. The second part deals with the effect of support position along the exit face on the residual stress distribution around the hole. Finite element analysis of eight axisymmetric models with different support positions was considered. The finite element results for first part of the analysis showed that the radial residual stresses were of a compressive nature, except for a thin layer on the entrance face of the specimen. Models 1 and 2 gave a lesser spread of compressive tangential residual stresses data than that obtained from model 3. The tangential residual stresses at the entrance face were tensile in nature while beyond 1 mm from the top surface through the rest of the thickness and along the edge of the hole they were compressive in nature. The results were compared with previous results in the literature and good agreement was obtained. The analysis of the second part showed that the distribution of the tangential residual stresses at the exit face suggest the superiority of the support conditions 7 and 8 compared to support conditions 1 to 6. The magnitude of the spurt in value of the residual stresses varied with support condition and finally reduced to zero for support condition starting from 15 to 20 mm from the edge of the hole. 2000-06 Thesis NonPeerReviewed application/pdf en http://psasir.upm.edu.my/id/eprint/10502/1/FK_2000_33_A.pdf Ab. Rashdi, Abdalla A. (2000) Finite Element Evaluation of Elasto-Plastic Residual Stresses around Coldworked Fastener Holes. Masters thesis, Universiti Putra Malaysia. English
repository_type Digital Repository
institution_category Local University
institution Universiti Putra Malaysia
building UPM Institutional Repository
collection Online Access
language English
English
description The present work on the simulation of cold-working process using finite element analysis was devoted to two parts. The first part concerns with axisymmetric finite element analysis of elastic-plastic 2024-T351 aluminium alloy. The material was considered isotropic and a Von Mises yield stress criterion with hardening rule was assumed. The commercial finite element software, LUSAS-13.1, was used to simulate the cold-working process in a 6 mm thick plate with a 6.35 mm diameter hole with 4% radial expansion for three different models. The second part deals with the effect of support position along the exit face on the residual stress distribution around the hole. Finite element analysis of eight axisymmetric models with different support positions was considered. The finite element results for first part of the analysis showed that the radial residual stresses were of a compressive nature, except for a thin layer on the entrance face of the specimen. Models 1 and 2 gave a lesser spread of compressive tangential residual stresses data than that obtained from model 3. The tangential residual stresses at the entrance face were tensile in nature while beyond 1 mm from the top surface through the rest of the thickness and along the edge of the hole they were compressive in nature. The results were compared with previous results in the literature and good agreement was obtained. The analysis of the second part showed that the distribution of the tangential residual stresses at the exit face suggest the superiority of the support conditions 7 and 8 compared to support conditions 1 to 6. The magnitude of the spurt in value of the residual stresses varied with support condition and finally reduced to zero for support condition starting from 15 to 20 mm from the edge of the hole.
format Thesis
author Ab. Rashdi, Abdalla A.
spellingShingle Ab. Rashdi, Abdalla A.
Finite Element Evaluation of Elasto-Plastic Residual Stresses around Coldworked Fastener Holes
author_facet Ab. Rashdi, Abdalla A.
author_sort Ab. Rashdi, Abdalla A.
title Finite Element Evaluation of Elasto-Plastic Residual Stresses around Coldworked Fastener Holes
title_short Finite Element Evaluation of Elasto-Plastic Residual Stresses around Coldworked Fastener Holes
title_full Finite Element Evaluation of Elasto-Plastic Residual Stresses around Coldworked Fastener Holes
title_fullStr Finite Element Evaluation of Elasto-Plastic Residual Stresses around Coldworked Fastener Holes
title_full_unstemmed Finite Element Evaluation of Elasto-Plastic Residual Stresses around Coldworked Fastener Holes
title_sort finite element evaluation of elasto-plastic residual stresses around coldworked fastener holes
publishDate 2000
url http://psasir.upm.edu.my/id/eprint/10502/
http://psasir.upm.edu.my/id/eprint/10502/1/FK_2000_33_A.pdf
first_indexed 2018-09-07T13:02:15Z
last_indexed 2018-09-07T13:02:15Z
_version_ 1610953874778095616

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