Strain Rate Effect on Tensile Flow Behavior and Anisotropy of a Medium-Manganese TRIP Steel

The dependence of the plastic anisotropy on the nominal strain rate for a medium-manganese (10 wt.% Mn) transformation-induced plasticity (TRIP) steel with initial austenite volume fraction of 66% (balance ferrite) has been investigated. The material exhibited yield point elongation, propagative ins...

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Published in	JOM (1989) Vol. 70; no. 6; pp. 894 - 905
Main Authors	Alturk, Rakan, Hector, Louis G., Matthew Enloe, C., Abu-Farha, Fadi, Brown, Tyson W.
Format	Journal Article
Language	English
Published	New York Springer US 01.06.2018 Springer Nature B.V Springer
Subjects	Anisotropy Annealing Austenite CAE Chemistry/Food Science Computer aided engineering Deformation Dependence Digital imaging Ductility Earth Sciences Elongation Engineering Environment International organizations Investigations Load Manganese Martensite Martensitic transformations Materials Science Mechanical tests Metallurgy & Metallurgical Engineering Mineralogy Mining & Mineral Processing Morphology Physics Plastic anisotropy Shaping & Forming of Advanced High Strength Steels Steel Strain rate TRIP steels Yield criteria Yield point Yield strength
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ISSN	1047-4838 1543-1851
DOI	10.1007/s11837-018-2830-3

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Abstract	The dependence of the plastic anisotropy on the nominal strain rate for a medium-manganese (10 wt.% Mn) transformation-induced plasticity (TRIP) steel with initial austenite volume fraction of 66% (balance ferrite) has been investigated. The material exhibited yield point elongation, propagative instabilities during hardening, and austenite transformation to α ′-martensite either directly or through ε -martensite. Uniaxial strain rates within the range of 0.005–500 s −1 along the 0°, 45°, and 90° orientations were selected based upon their relevance to automotive applications. The plastic anisotropy ( r ) and normal anisotropy ( r n ) indices corresponding to each direction and strain rate were determined using strain fields obtained from stereo digital image correlation systems that enabled both quasistatic and dynamic measurements. The results provide evidence of significant, orientation-dependent strain rate effects on both the flow stress and the evolution of r and r n with strain. This has implications not only for material performance during forming but also for the development of future strain-rate-dependent anisotropic yield criteria. Since tensile data alone for the subject medium-manganese TRIP steel do not satisfactorily determine the microstructural mechanisms responsible for the macroscopic-scale behavior observed on tensile testing, additional tests that must supplement the mechanical test results presented herein are discussed.
AbstractList	The dependence of the plastic anisotropy on the nominal strain rate for a medium-manganese (10 wt.% Mn) transformation-induced plasticity (TRIP) steel with initial austenite volume fraction of 66% (balance ferrite) has been investigated. The material exhibited yield point elongation, propagative instabilities during hardening, and austenite transformation to α ′-martensite either directly or through ε -martensite. Uniaxial strain rates within the range of 0.005–500 s −1 along the 0°, 45°, and 90° orientations were selected based upon their relevance to automotive applications. The plastic anisotropy ( r ) and normal anisotropy ( r n ) indices corresponding to each direction and strain rate were determined using strain fields obtained from stereo digital image correlation systems that enabled both quasistatic and dynamic measurements. The results provide evidence of significant, orientation-dependent strain rate effects on both the flow stress and the evolution of r and r n with strain. This has implications not only for material performance during forming but also for the development of future strain-rate-dependent anisotropic yield criteria. Since tensile data alone for the subject medium-manganese TRIP steel do not satisfactorily determine the microstructural mechanisms responsible for the macroscopic-scale behavior observed on tensile testing, additional tests that must supplement the mechanical test results presented herein are discussed. The dependence of the plastic anisotropy on the nominal strain rate for a medium-manganese (10 wt.% Mn) transformation-induced plasticity (TRIP) steel with initial austenite volume fraction of 66% (balance ferrite) has been investigated. The material exhibited yield point elongation, propagative instabilities during hardening, and austenite transformation to α'-martensite either directly or through s-martensite. Uniaxial strain rates within the range of 0.005-500 s-1 along the 0°, 45°, and 90° orientations were selected based upon their relevance to automotive applications. The plastic anisotropy (r) and normal anisotropy (rn) indices corresponding to each direction and strain rate were determined using strain fields obtained from stereo digital image correlation systems that enabled both quasistatic and dynamic measurements. The results provide evidence of significant, orientation-dependent strain rate effects on both the flow stress and the evolution of r and rn with strain. This has implications not only for material performance during forming but also for the development of future strain-rate-dependent anisotropic yield criteria. Since tensile data alone for the subject medium-manganese TRIP steel do not satisfactorily determine the microstructural mechanisms responsible for the macroscopic-scale behavior observed on tensile testing, additional tests that must supplement the mechanical test results presented herein are discussed. Not provided.
Author	Abu-Farha, Fadi Alturk, Rakan Matthew Enloe, C. Hector, Louis G. Brown, Tyson W.
Author_xml	– sequence: 1 givenname: Rakan orcidid: 0000-0002-2143-4575 surname: Alturk fullname: Alturk, Rakan email: ralturk@g.clemson.edu organization: Clemson University – International Center for Automotive Research (CU-ICAR) – sequence: 2 givenname: Louis G. surname: Hector fullname: Hector, Louis G. organization: General Motors Global Research and Development – sequence: 3 givenname: C. surname: Matthew Enloe fullname: Matthew Enloe, C. organization: GM Product Integrity, Body Structures and Closures Materials Engineering – sequence: 4 givenname: Fadi surname: Abu-Farha fullname: Abu-Farha, Fadi organization: Clemson University – International Center for Automotive Research (CU-ICAR) – sequence: 5 givenname: Tyson W. surname: Brown fullname: Brown, Tyson W. organization: General Motors Global Research and Development
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Snippet	The dependence of the plastic anisotropy on the nominal strain rate for a medium-manganese (10 wt.% Mn) transformation-induced plasticity (TRIP) steel with... The dependence of the plastic anisotropy on the nominal strain rate for a medium-manganese (10 wt.% Mn) transformation-induced plasticity (TRIP) steel with... Not provided.
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SubjectTerms	Anisotropy Annealing Austenite CAE Chemistry/Food Science Computer aided engineering Deformation Dependence Digital imaging Ductility Earth Sciences Elongation Engineering Environment International organizations Investigations Load Manganese Martensite Martensitic transformations Materials Science Mechanical tests Metallurgy & Metallurgical Engineering Mineralogy Mining & Mineral Processing Morphology Physics Plastic anisotropy Shaping & Forming of Advanced High Strength Steels Steel Strain rate TRIP steels Yield criteria Yield point Yield strength
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Title	Strain Rate Effect on Tensile Flow Behavior and Anisotropy of a Medium-Manganese TRIP Steel
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