中高应变速率下马氏体-铁素体双相组织钢的变形协调机制

EngRN: Metals & Alloys (Topic) Pub Date : 2019-05-27 DOI:10.2139/ssrn.3394586

Yi Li, R. Song, Erding Wen, Leifeng Zhang, Zhiyang Zhao, C. Cai, Yingchao Zhang, Chao Zhao, P. Yu, Shuyi Quan

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引用次数: 0

摘要

在中等应变速率(1 s- 1,10 s- 1,100 s-1)和高应变速率(500 s- 1,700 s- 1,800 s- 1,1000 s-1)下，1200 MPa级马氏体-铁素体双相钢的变形协调机制与准静态或低应变速率(10-4-1 s-1)下的变形协调机制完全相反。当应变速率超过700 s-1左右时，较硬相(马氏体)取代较软相(铁素体)成为优先变形相，M/F(马氏体/铁素体)界面的配位作用失效。随着应变速率的进一步增大，马氏体变形量急剧增大。当马氏体变形量在1000 s-1左右达到饱和时，铁素体变形量重新开始增加。

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Deformation Coordination Mechanism of Dual-Phase Structure Steel Based on Martensite-Ferrite Under Medium-High Strain Rate

Under medium (1 s-1, 10 s-1, 100 s-1) and high (500 s-1, 700 s-1, 800 s-1, 1000 s-1) strain rates, deformation coordination mechanism of 1200 MPa grade martensitic-ferrite dual-phase steel is completely opposite to that under quasi static or low strain rate (10-4-1 s-1). When the strain rate exceeds about 700 s-1, the harder phase (martensite) replaces the softer phase (ferrite) as prior deformation phase, and coordination effect of M/F (martensite/ferrite) interface is failed. As strain rate further increases, martensitic deformation amount increase dramatically. When martensitic deformation amount reaches saturation under about 1000 s-1, ferritic deformation amount restarts to increase.

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EngRN: Metals & Alloys (Topic)

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