Low temperature superplasticity through grain refinement in Ti-6Al-4V by a novel route of quench-roll-recrystallise

Low temperature superplasticity through grain refinement in Ti-6Al-4V by a novel route of quench-roll-recrystallise

A ‘quench + roll + recrystallise’ method was simulated through compression testing of initially ‘water quenched’ Ti-6Al-4V alloy at a temperature of 973 K and rolling strain-rate 100 s−1 in order to achieve superplasticity at lower temperature through grain refinement, with a view to increase die li...

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Main Authors: Jalumedi Babu, Abhijit Dutta
Format: Article
Language:English
Published: Elsevier 2015-07-01
Series:Journal of Materials Research and Technology
Subjects:
Low temperature superplasticity
Fine grain size
Water quenching
Annealing
Strain rate
Online Access:http://www.sciencedirect.com/science/article/pii/S2238785415000630
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spelling doaj-426e21e0b5544e88bf8c530fbcab4f452020-11-25T03:39:33ZengElsevierJournal of Materials Research and Technology2238-78542015-07-014334835210.1016/j.jmrt.2015.04.004Low temperature superplasticity through grain refinement in Ti-6Al-4V by a novel route of quench-roll-recrystalliseJalumedi Babu0Abhijit Dutta1Department of Mechanical Engineering, St. Joseph's College of Engineering & Technology, Palai, IndiaDepartment of Mechanical Engineering, Ashoka Institute of Engineering and Technology, Malkapur, Chotuppal(M), Nalgonda, IndiaA ‘quench + roll + recrystallise’ method was simulated through compression testing of initially ‘water quenched’ Ti-6Al-4V alloy at a temperature of 973 K and rolling strain-rate 100 s−1 in order to achieve superplasticity at lower temperature through grain refinement, with a view to increase die life. Subsequent annealing of wire-cut specimens of a rolled sheet at temperatures 1023, 1073, 1123, and 1173 K revealed that, the structures became finer and equi-axial in the range of 1–2 μm, when annealed at 1073 and 1123 K. In compliance to this behavior, a tensile sample from industrially ‘quenched + rolled’ sheet at 973 K could produce an elongation of 740% at a temperature of 1073 K under a strain-rate of 10−3 s−1. Significant elongation of 652% was obtained at further lower temperature of 1023 K under a strain-rate of 10−3 s−1. Quench-roll-recrystallise technique pushes down superplastic forming temperature to 1023 K.http://www.sciencedirect.com/science/article/pii/S2238785415000630Low temperature superplasticityFine grain sizeWater quenchingAnnealingStrain rate
collection DOAJ
language English
format Article
sources DOAJ
author Jalumedi Babu
Abhijit Dutta
spellingShingle Jalumedi Babu
Abhijit Dutta
Low temperature superplasticity through grain refinement in Ti-6Al-4V by a novel route of quench-roll-recrystallise
Journal of Materials Research and Technology
Low temperature superplasticity
Fine grain size
Water quenching
Annealing
Strain rate
author_facet Jalumedi Babu
Abhijit Dutta
author_sort Jalumedi Babu
title Low temperature superplasticity through grain refinement in Ti-6Al-4V by a novel route of quench-roll-recrystallise
title_short Low temperature superplasticity through grain refinement in Ti-6Al-4V by a novel route of quench-roll-recrystallise
title_full Low temperature superplasticity through grain refinement in Ti-6Al-4V by a novel route of quench-roll-recrystallise
title_fullStr Low temperature superplasticity through grain refinement in Ti-6Al-4V by a novel route of quench-roll-recrystallise
title_full_unstemmed Low temperature superplasticity through grain refinement in Ti-6Al-4V by a novel route of quench-roll-recrystallise
title_sort low temperature superplasticity through grain refinement in ti-6al-4v by a novel route of quench-roll-recrystallise
publisher Elsevier
series Journal of Materials Research and Technology
issn 2238-7854
publishDate 2015-07-01
description A ‘quench + roll + recrystallise’ method was simulated through compression testing of initially ‘water quenched’ Ti-6Al-4V alloy at a temperature of 973 K and rolling strain-rate 100 s−1 in order to achieve superplasticity at lower temperature through grain refinement, with a view to increase die life. Subsequent annealing of wire-cut specimens of a rolled sheet at temperatures 1023, 1073, 1123, and 1173 K revealed that, the structures became finer and equi-axial in the range of 1–2 μm, when annealed at 1073 and 1123 K. In compliance to this behavior, a tensile sample from industrially ‘quenched + rolled’ sheet at 973 K could produce an elongation of 740% at a temperature of 1073 K under a strain-rate of 10−3 s−1. Significant elongation of 652% was obtained at further lower temperature of 1023 K under a strain-rate of 10−3 s−1. Quench-roll-recrystallise technique pushes down superplastic forming temperature to 1023 K.
topic Low temperature superplasticity
Fine grain size
Water quenching
Annealing
Strain rate
url http://www.sciencedirect.com/science/article/pii/S2238785415000630
work_keys_str_mv AT jalumedibabu lowtemperaturesuperplasticitythroughgrainrefinementinti6al4vbyanovelrouteofquenchrollrecrystallise
AT abhijitdutta lowtemperaturesuperplasticitythroughgrainrefinementinti6al4vbyanovelrouteofquenchrollrecrystallise
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