Effect of Microstructure on the Onset Strain and Rate per Strain of Deformation-Induced Martensite Transformation in Q&P Steel by Modeling

doi:10.3390/ma15030952

IMECH-IR > 非线性力学国家重点实验室

	Effect of Microstructure on the Onset Strain and Rate per Strain of Deformation-Induced Martensite Transformation in Q&P Steel by Modeling
	Cao, Jingyi ; Jin, Jianfeng 1; Li, Shaojie ; Wang, Mingtao ; Tang, Shuai 1; Peng Q(彭庆); Zong, Yaping
Source Publication	MATERIALS
	2022-02
Volume	15 Issue:3 Pages:952
Abstract	The effect of microstructure on the onset strain and rate of deformation-induced martensitic transformation (DIMT) in Q&P steel is studied by a mean-field micromechanics model, in which the residual austenite (RA) and primary martensite (M) phases are treated as elastoplastic particles embedded into the ferrite (F) matrix. The results show that when the volume fraction of the RA increases with a constant fraction of the M, the onset strain of DIMT increases and transformation rate decreases, in contrast to the case of the RA fraction effect with a fixed F fraction. Increasing the volume fraction of the M postpones the DIMT, regardless of the corresponding change from the RA or F fraction, which is similar to the effect of the RA fraction with the constant M but to a higher degree. Conversely, when increasing the fraction of the matrix F, the onset strain of DIMT increases and the rate decreases, and the effect is greater when the corresponding fraction change comes from the M rather than from the RA. Moreover, when the aspect ratio of the RA increases, the onset strain of DIMT decreases with a gradual increase in transformation rate, in agreement with the experimental observation that the equiaxial austenite is more stable in Q&P steels. However, the aspect ratio effect of the M is opposite to that of the RA, indicating that the lath-shaped primary martensite could protect the austenite from DIMT.
Keyword	deformation-induced martensitic transformation microstructure onset strain of phase transformation Q&P steel micromechanics model
Subject Area	Chemistry, Physical ; Materials Science, Multidisciplinary ; Metallurgy & Metallurgical Engineering ; Physics, Applied ; Physics, Condensed Matter
DOI	10.3390/ma15030952
Indexed By	SCI ; EI
Language	英语
WOS ID	WOS:000755557500001
Funding Organization	Fundamental Research Funds for the Central Universities [N2007011] ; National Natural Science Foundation of China [52175293] ; Project of Introducing Talents of Discipline to Universities (111 Project) [B20029]
Classification	二类/Q1
Ranking	3+
Contributor	Jin, JF (corresponding author), Northeastern Univ, Sch Mat Sci & Engn, Shenyang 110819, Peoples R China. ; Jin, JF (corresponding author), Northeastern Univ, State Key Lab Rolling & Automat, Shenyang 110819, Peoples R China.
Citation statistics	Cited Times:2[WOS] [WOS Record] [Related Records in WOS]
Document Type	期刊论文
Identifier	http://dspace.imech.ac.cn/handle/311007/90189
Collection	非线性力学国家重点实验室
Affiliation	1.Northeastern Univ, Sch Mat Sci & Engn, Shenyang 110819, Peoples R China 2.Northeastern Univ, State Key Lab Rolling & Automat, Shenyang 110819, Peoples R China 3.Chinese Acad Sci, Inst Mech, State Key Lab Nonlinear Mech, Beijing 100190, Peoples R China
Recommended Citation GB/T 7714	Cao, Jingyi,Jin, Jianfeng,Li, Shaojie,et al. Effect of Microstructure on the Onset Strain and Rate per Strain of Deformation-Induced Martensite Transformation in Q&P Steel by Modeling[J]. MATERIALS,2022,15,3,:952.Rp_Au:Jin, JF (corresponding author), Northeastern Univ, Sch Mat Sci & Engn, Shenyang 110819, Peoples R China., Jin, JF (corresponding author), Northeastern Univ, State Key Lab Rolling & Automat, Shenyang 110819, Peoples R China.
APA	Cao, Jingyi.,Jin, Jianfeng.,Li, Shaojie.,Wang, Mingtao.,Tang, Shuai.,...&Zong, Yaping.(2022).Effect of Microstructure on the Onset Strain and Rate per Strain of Deformation-Induced Martensite Transformation in Q&P Steel by Modeling.MATERIALS,15(3),952.
MLA	Cao, Jingyi,et al."Effect of Microstructure on the Onset Strain and Rate per Strain of Deformation-Induced Martensite Transformation in Q&P Steel by Modeling".MATERIALS 15.3(2022):952.

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