Achieving Strength-Ductility Synergy via Huge Lüders-Type Deformation

Computational Materials Science eJournal Pub Date : 2021-01-01 DOI:10.2139/ssrn.3834116
Yuxuan Chen, A. Li, Zhiyuan Ma, Hui Zhang, D. Jiang, Yang Ren, L. Cui
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Abstract

This study presents a strategy to achieve strength-ductility synergy by introducing huge Lüders-type deformation in ultrafine grained alloys. The Lüders-type deformation occurs at a temperature range when the critical stress of deformation twinning is close to that of dislocation slip, which allows the mutual promotion between deformation twinning and dislocation slip and thus induces the band formation. The strategy was verified in a NiTiNbFe alloy which exhibited a ~50% Lüders-type strain and 1090 MPa strength when deformed at -50 ℃. This property is superb than those deformed at other temperatures.
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通过巨大的德尔斯型变形实现强度-延性协同
本研究提出了一种通过在超细晶合金中引入巨大的l ders型变形来实现强度-塑性协同的策略。在变形孪晶临界应力与位错滑移临界应力接近的温度范围内,发生l ders型变形,使变形孪晶与位错滑移相互促进,从而诱发带状形成。该方法在-50℃变形的NiTiNbFe合金中得到了验证,该合金在-50℃变形时具有~50%的lders型应变和1090 MPa的强度。这种性能比在其他温度下变形的材料要好。
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Computational Materials Science eJournal
Computational Materials Science eJournal
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