Effect of solution heat treatment on the stress-induced martensite transformation in two new titanium alloys

•Ti–10V–2Cr–3Al and Ti–10V–1Fe–3Al show apparent stress-induced martensitic transformation.•The stress at which β to α″ transformation triggers are very stable to the solution time.•The solution temperature has a greater impact on triggering stress than solution time.•The pre-existing thermal marten...

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Published in:Journal of alloys and compounds 2015-08, Vol.641, p.192-200
Main Authors: Li, C., Chen, J., Ren, Y.J., Li, W., He, J.J., Chen, J.H.
Format: Article
Language:English
Subjects:
Alloys
Martensite
Martensitic transformations
Microstructure
SIM
Solution heat treatment
Solution treatment
Stress-induced martensite transformation
Ti alloys
Titanium base alloys
Transformations
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cited_by cdi_FETCH-LOGICAL-c408t-d51da87acf5450dae1989017ae335325cc9e96cc743634d82782577338d3dd273
cites cdi_FETCH-LOGICAL-c408t-d51da87acf5450dae1989017ae335325cc9e96cc743634d82782577338d3dd273
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container_start_page 192
container_title Journal of alloys and compounds
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creator Li, C.
Chen, J.
Ren, Y.J.
Li, W.
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Chen, J.H.
description •Ti–10V–2Cr–3Al and Ti–10V–1Fe–3Al show apparent stress-induced martensitic transformation.•The stress at which β to α″ transformation triggers are very stable to the solution time.•The solution temperature has a greater impact on triggering stress than solution time.•The pre-existing thermal martensite has an obstructive effect on SIM transformation. Ti–10V–2Cr–3Al and Ti–10V–1Fe–3Al alloys are newly designed two phase titanium alloy for stress-induced martensite (SIM) transformation on the basis of Ti–10V–2Fe–3Al alloy. The effect of solution heat treatment on the SIM transformation in these two alloys was studied through microstructural observation and mechanical property test. The results show that, after β, α+β and β+(α+β) solution treatments, most of the samples contain a highly metastable β microstructure. Under compression loading, the β phase transform to a martensite. The stress at which β to α″ transformation is triggered is very stable to the solution time. The pre-existing thermal martensite has an obstructive effect on SIM transformation. In β+(α+β) solution conditions, tuning the volume fraction of the α phase leads to a sufficiently stable β phase so that no martensite is formed under deformation and only slip is activated. Moreover, the effect of solution temperature on triggering stress is more intense compared with that of solution time.
doi_str_mv 10.1016/j.jallcom.2015.04.070
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Ti–10V–2Cr–3Al and Ti–10V–1Fe–3Al alloys are newly designed two phase titanium alloy for stress-induced martensite (SIM) transformation on the basis of Ti–10V–2Fe–3Al alloy. The effect of solution heat treatment on the SIM transformation in these two alloys was studied through microstructural observation and mechanical property test. The results show that, after β, α+β and β+(α+β) solution treatments, most of the samples contain a highly metastable β microstructure. Under compression loading, the β phase transform to a martensite. The stress at which β to α″ transformation is triggered is very stable to the solution time. The pre-existing thermal martensite has an obstructive effect on SIM transformation. In β+(α+β) solution conditions, tuning the volume fraction of the α phase leads to a sufficiently stable β phase so that no martensite is formed under deformation and only slip is activated. 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Ti–10V–2Cr–3Al and Ti–10V–1Fe–3Al alloys are newly designed two phase titanium alloy for stress-induced martensite (SIM) transformation on the basis of Ti–10V–2Fe–3Al alloy. The effect of solution heat treatment on the SIM transformation in these two alloys was studied through microstructural observation and mechanical property test. The results show that, after β, α+β and β+(α+β) solution treatments, most of the samples contain a highly metastable β microstructure. Under compression loading, the β phase transform to a martensite. The stress at which β to α″ transformation is triggered is very stable to the solution time. The pre-existing thermal martensite has an obstructive effect on SIM transformation. In β+(α+β) solution conditions, tuning the volume fraction of the α phase leads to a sufficiently stable β phase so that no martensite is formed under deformation and only slip is activated. 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Ti–10V–2Cr–3Al and Ti–10V–1Fe–3Al alloys are newly designed two phase titanium alloy for stress-induced martensite (SIM) transformation on the basis of Ti–10V–2Fe–3Al alloy. The effect of solution heat treatment on the SIM transformation in these two alloys was studied through microstructural observation and mechanical property test. The results show that, after β, α+β and β+(α+β) solution treatments, most of the samples contain a highly metastable β microstructure. Under compression loading, the β phase transform to a martensite. The stress at which β to α″ transformation is triggered is very stable to the solution time. The pre-existing thermal martensite has an obstructive effect on SIM transformation. In β+(α+β) solution conditions, tuning the volume fraction of the α phase leads to a sufficiently stable β phase so that no martensite is formed under deformation and only slip is activated. 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subjects Alloys
Martensite
Martensitic transformations
Microstructure
SIM
Solution heat treatment
Solution treatment
Stress-induced martensite transformation
Ti alloys
Titanium base alloys
Transformations
title Effect of solution heat treatment on the stress-induced martensite transformation in two new titanium alloys
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