Study on Dynamic Mechanical Properties and Constitutive Model Construction of TC18 Titanium Alloy
In order to investigate the static and dynamic mechanical properties of TC18 titanium alloy, the quasi-static stress−strain curve of TC18 titanium alloy under room temperature was obtained by DNS 100 electronic universal testing machine (Changchun Institute of Mechanical Science Co., Ltd.,...
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doaj-10412fa89fb941ffb87ad4d338f710482020-11-25T01:54:25ZengMDPI AGMetals2075-47012019-12-011014410.3390/met10010044met10010044Study on Dynamic Mechanical Properties and Constitutive Model Construction of TC18 Titanium AlloyChangming Zhang0Anle Mu1Yun Wang2Hui Zhang3School of Mechanical and Precision Instrument Engineering, Xi’an University of Technology, Xi’an 710048, ChinaSchool of Mechanical and Precision Instrument Engineering, Xi’an University of Technology, Xi’an 710048, ChinaSchool of Mechanical Engineering, Shaanxi University of Technology, Hanzhong 723000, ChinaSchool of Mechanical Engineering, Shaanxi University of Technology, Hanzhong 723000, ChinaIn order to investigate the static and dynamic mechanical properties of TC18 titanium alloy, the quasi-static stress−strain curve of TC18 titanium alloy under room temperature was obtained by DNS 100 electronic universal testing machine (Changchun Institute of Mechanical Science Co., Ltd., Changchun, China). Meanwhile, the flow stress−strain curves under different temperatures and strain rates are analyzed by split Hopkinson pressure bar (SHPB) device with synchronous assembly system. On the basis of the two experimental data, the JC constitutive model under the combined action of high temperature and impact load is established using the linear least squares method. The results show the following: the yield strength and flow stress of TC18 titanium alloy increase slowly with the increase of the strain rate, and the strain value corresponding to the yield strength is reduced. With the increase of strain, the flow stress increases at first and then decreases at different temperatures. The strain value corresponding to the transition point rises with the temperature increase, and the corresponding stress value remains basically unchanged. With the increase of experimental temperature, the flow stress shows a downward trend, and the JC constitutive model can predict the plastic flow stress well.https://www.mdpi.com/2075-4701/10/1/44tc18 titanium alloyhopkinson pressure bar (shpb)jc constitutive modeldynamic mechanical properties |
collection |
DOAJ |
language |
English |
format |
Article |
sources |
DOAJ |
author |
Changming Zhang Anle Mu Yun Wang Hui Zhang |
spellingShingle |
Changming Zhang Anle Mu Yun Wang Hui Zhang Study on Dynamic Mechanical Properties and Constitutive Model Construction of TC18 Titanium Alloy Metals tc18 titanium alloy hopkinson pressure bar (shpb) jc constitutive model dynamic mechanical properties |
author_facet |
Changming Zhang Anle Mu Yun Wang Hui Zhang |
author_sort |
Changming Zhang |
title |
Study on Dynamic Mechanical Properties and Constitutive Model Construction of TC18 Titanium Alloy |
title_short |
Study on Dynamic Mechanical Properties and Constitutive Model Construction of TC18 Titanium Alloy |
title_full |
Study on Dynamic Mechanical Properties and Constitutive Model Construction of TC18 Titanium Alloy |
title_fullStr |
Study on Dynamic Mechanical Properties and Constitutive Model Construction of TC18 Titanium Alloy |
title_full_unstemmed |
Study on Dynamic Mechanical Properties and Constitutive Model Construction of TC18 Titanium Alloy |
title_sort |
study on dynamic mechanical properties and constitutive model construction of tc18 titanium alloy |
publisher |
MDPI AG |
series |
Metals |
issn |
2075-4701 |
publishDate |
2019-12-01 |
description |
In order to investigate the static and dynamic mechanical properties of TC18 titanium alloy, the quasi-static stress−strain curve of TC18 titanium alloy under room temperature was obtained by DNS 100 electronic universal testing machine (Changchun Institute of Mechanical Science Co., Ltd., Changchun, China). Meanwhile, the flow stress−strain curves under different temperatures and strain rates are analyzed by split Hopkinson pressure bar (SHPB) device with synchronous assembly system. On the basis of the two experimental data, the JC constitutive model under the combined action of high temperature and impact load is established using the linear least squares method. The results show the following: the yield strength and flow stress of TC18 titanium alloy increase slowly with the increase of the strain rate, and the strain value corresponding to the yield strength is reduced. With the increase of strain, the flow stress increases at first and then decreases at different temperatures. The strain value corresponding to the transition point rises with the temperature increase, and the corresponding stress value remains basically unchanged. With the increase of experimental temperature, the flow stress shows a downward trend, and the JC constitutive model can predict the plastic flow stress well. |
topic |
tc18 titanium alloy hopkinson pressure bar (shpb) jc constitutive model dynamic mechanical properties |
url |
https://www.mdpi.com/2075-4701/10/1/44 |
work_keys_str_mv |
AT changmingzhang studyondynamicmechanicalpropertiesandconstitutivemodelconstructionoftc18titaniumalloy AT anlemu studyondynamicmechanicalpropertiesandconstitutivemodelconstructionoftc18titaniumalloy AT yunwang studyondynamicmechanicalpropertiesandconstitutivemodelconstructionoftc18titaniumalloy AT huizhang studyondynamicmechanicalpropertiesandconstitutivemodelconstructionoftc18titaniumalloy |
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1724987568772087808 |