Deformation-induced HCP phase transformation of CrCoNiSi0.3 medium-entropy alloy under high strain rate tension

The yield strength of a CrCoNiSi0.3 medium-entropy alloy is significantly increased from 450 MPa (quasi-static, 0.001 s−1) to 1600 MPa (at a strain rate of 5000 s−1) under dynamic tension, with a considerable ductility of 60%. The high strain-rate sensitivity (SRS) of strength and work hardening is...

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Veröffentlicht in:	Applied physics letters 2024-04, Vol.124 (14)
Hauptverfasser:	Chang, Hui, Zhang, Tuanwei, Qiao, Junwei, Liaw, Peter K., Jiao, Zhiming, Li, Zhiqiang, Quan, Long, Wang, Zhihua
Format:	Artikel
Sprache:	eng
Schlagworte:	Constitutive models Deformation mechanisms Entropy Evolution High strain rate Medium entropy alloys Phase transitions Strain rate sensitivity Work hardening Yield strength
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container_title	Applied physics letters
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creator	Chang, Hui Zhang, Tuanwei Qiao, Junwei Liaw, Peter K. Jiao, Zhiming Li, Zhiqiang Quan, Long Wang, Zhihua
description	The yield strength of a CrCoNiSi0.3 medium-entropy alloy is significantly increased from 450 MPa (quasi-static, 0.001 s−1) to 1600 MPa (at a strain rate of 5000 s−1) under dynamic tension, with a considerable ductility of 60%. The high strain-rate sensitivity (SRS) of strength and work hardening is obtained, and the strength SRS reaches 0.408. The dominant deformation mechanisms are abundant multiple-twinning, increasing fractions of deformation twins and phase transformation from face-centered-cubic to hexagonal-close-packed (HCP) phases with a strain rate. A universal dislocation-hardened constitutive model considering the evolution of the twin and HCP transformation is established to predict the flow stress and microstructure evolution.
doi_str_mv	10.1063/5.0202924
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The high strain-rate sensitivity (SRS) of strength and work hardening is obtained, and the strength SRS reaches 0.408. The dominant deformation mechanisms are abundant multiple-twinning, increasing fractions of deformation twins and phase transformation from face-centered-cubic to hexagonal-close-packed (HCP) phases with a strain rate. 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subjects	Constitutive models Deformation mechanisms Entropy Evolution High strain rate Medium entropy alloys Phase transitions Strain rate sensitivity Work hardening Yield strength
title	Deformation-induced HCP phase transformation of CrCoNiSi0.3 medium-entropy alloy under high strain rate tension
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