Superplastic Deformation Behaviour Of AZ31 Magnesium Alloy

Superplastic deformation behaviour of AZ31 magnesium alloy having initial grain sizes 8, 11 and 17μm alloy was investigated at 673 K with initial strain rates ranging from 1x10-2 to 1x10-4 s-1. Mechanical data on fine grained AZ31 alloy with grain sizes 8 and 11 μm indicated a transition in deforma...

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Main Author: Panicker, Radhakrishna M R
Other Authors: Chokshi, Atul H
Language:en_US
Published: 2009
Subjects:
Online Access:http://hdl.handle.net/2005/521
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spelling ndltd-IISc-oai-etd.ncsi.iisc.ernet.in-2005-5212013-01-07T21:20:29ZSuperplastic Deformation Behaviour Of AZ31 Magnesium AlloyPanicker, Radhakrishna M RMagnesium AlloysSuperplasticityAlloys - DeformationGrain Boundary Sliding (GBS)Fracture MechanicsAZ31 Magnesium AlloySuperplastic FlowMg AlloysMetallurgySuperplastic deformation behaviour of AZ31 magnesium alloy having initial grain sizes 8, 11 and 17μm alloy was investigated at 673 K with initial strain rates ranging from 1x10-2 to 1x10-4 s-1. Mechanical data on fine grained AZ31 alloy with grain sizes 8 and 11 μm indicated a transition in deformation mechanisms. The strain rate sensitivity, m ~ 0.5 at low strain rates and m ~ 0.2 at high strain rates which suggest GBS and dislocation slip as the corresponding deformation mechanism. For coarse grained alloy having grain size 17 μm, m < 0.4 at low strain rates and ~ 0.2 at high strain rates, suggesting dislocation slip as the deformation mechanism. A superplastic maximum elongation of ~ 475% was observed for 8 μm alloy at low rate of deformation. At high strain rates, the deformation was non-superplastic for fine and coarse grained alloys. The contribution of GBS to total strain, ξ in the low strain rate regime was evaluated to be 50 – 60%, for both low and high elongation. EBSD studies indicated the maintenance of high fraction of high angle boundaries up to true strain of ~ 0.88 and a reduction in texture intensity. These observations show GBS as the dominant deformation mechanism for fine grained alloy. At higher strain rate, ξ was estimated to be 30%. Fraction of high angle boundaries was reduced and [0001] direction of grains was found to be rotated towards the tensile direction, suggesting dislocation slip. Based on mechanical data, flow localization and cavitation studies; the failure of the material during high rates of deformation was mainly due to flow localization. Extensive cavitation along with more uniform flow at a lower strain rate regime suggests the failure due to the cavity interlinkage and coalescence. The present GBS data are consistent with the previous relevant data in fine grained Mg based alloys in the low strain rate regime. The GBS data obtained in the dislocation regime in the present study are also in agreement with that of the previous investigations in fine grained Mg alloys.Chokshi, Atul H2009-05-29T09:46:40Z2009-05-29T09:46:40Z2009-05-29T09:46:40Z2007-08Thesishttp://hdl.handle.net/2005/521en_USG21656
collection NDLTD
language en_US
sources NDLTD
topic Magnesium Alloys
Superplasticity
Alloys - Deformation
Grain Boundary Sliding (GBS)
Fracture Mechanics
AZ31 Magnesium Alloy
Superplastic Flow
Mg Alloys
Metallurgy
spellingShingle Magnesium Alloys
Superplasticity
Alloys - Deformation
Grain Boundary Sliding (GBS)
Fracture Mechanics
AZ31 Magnesium Alloy
Superplastic Flow
Mg Alloys
Metallurgy
Panicker, Radhakrishna M R
Superplastic Deformation Behaviour Of AZ31 Magnesium Alloy
description Superplastic deformation behaviour of AZ31 magnesium alloy having initial grain sizes 8, 11 and 17μm alloy was investigated at 673 K with initial strain rates ranging from 1x10-2 to 1x10-4 s-1. Mechanical data on fine grained AZ31 alloy with grain sizes 8 and 11 μm indicated a transition in deformation mechanisms. The strain rate sensitivity, m ~ 0.5 at low strain rates and m ~ 0.2 at high strain rates which suggest GBS and dislocation slip as the corresponding deformation mechanism. For coarse grained alloy having grain size 17 μm, m < 0.4 at low strain rates and ~ 0.2 at high strain rates, suggesting dislocation slip as the deformation mechanism. A superplastic maximum elongation of ~ 475% was observed for 8 μm alloy at low rate of deformation. At high strain rates, the deformation was non-superplastic for fine and coarse grained alloys. The contribution of GBS to total strain, ξ in the low strain rate regime was evaluated to be 50 – 60%, for both low and high elongation. EBSD studies indicated the maintenance of high fraction of high angle boundaries up to true strain of ~ 0.88 and a reduction in texture intensity. These observations show GBS as the dominant deformation mechanism for fine grained alloy. At higher strain rate, ξ was estimated to be 30%. Fraction of high angle boundaries was reduced and [0001] direction of grains was found to be rotated towards the tensile direction, suggesting dislocation slip. Based on mechanical data, flow localization and cavitation studies; the failure of the material during high rates of deformation was mainly due to flow localization. Extensive cavitation along with more uniform flow at a lower strain rate regime suggests the failure due to the cavity interlinkage and coalescence. The present GBS data are consistent with the previous relevant data in fine grained Mg based alloys in the low strain rate regime. The GBS data obtained in the dislocation regime in the present study are also in agreement with that of the previous investigations in fine grained Mg alloys.
author2 Chokshi, Atul H
author_facet Chokshi, Atul H
Panicker, Radhakrishna M R
author Panicker, Radhakrishna M R
author_sort Panicker, Radhakrishna M R
title Superplastic Deformation Behaviour Of AZ31 Magnesium Alloy
title_short Superplastic Deformation Behaviour Of AZ31 Magnesium Alloy
title_full Superplastic Deformation Behaviour Of AZ31 Magnesium Alloy
title_fullStr Superplastic Deformation Behaviour Of AZ31 Magnesium Alloy
title_full_unstemmed Superplastic Deformation Behaviour Of AZ31 Magnesium Alloy
title_sort superplastic deformation behaviour of az31 magnesium alloy
publishDate 2009
url http://hdl.handle.net/2005/521
work_keys_str_mv AT panickerradhakrishnamr superplasticdeformationbehaviourofaz31magnesiumalloy
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