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Microstructure and Properties of Mo Microalloyed Cold Rolled DP1000 Steels

HAN Qihang , KANG Yonglin , ZHAO Xianmeng , L Chao , GAO Lufeng

钢铁研究学报(英文版)

Two kinds of ultrahigh strength cold rolled dual phase steels have been developed by designing CSiMnCr and CSiMnCrMo alloy systems. Tensile strength and elongation of both steels exceed 1100 MPa and 10%, respectively. The microstructures of both steels consist of massive martensite and ferrite. And the massive martensite of Mofree steel disperses in the ferrite with volume fraction of 64%. However, the massive martensite of Mocontaining steel is connected or closed by small martensite islands each other, and martensite volume fraction is 69%. As to Mofree steel, the yield strength, yield ratio, and work hardening exponent n are 548 MPa, 049, and 026, respectively. As for Mocontaining one, the yield strength, yield ratio, and n value are 746 MPa, 066, and 033, respectively. Besides, the ferrite of Mofree steel is deformed at the initial stage of plastic deformation. However, for Mocontaining one, Mo solution strengthened ferrite and small overaged martensite islands are deformed preferentially at small strain, which causes the yield strength to reach approximately 200 MPa higher than that of Mofree steel.

关键词: Mo , dual phase steel , microstructure , property , deformation mechanism

钼、铬对低碳铌钛微合金钢连续冷却转变行为的影响

李冰，郑磊，崔天成，章传国

钢铁

为研究合金元素钼、铬对低碳铌钛微合金钢连续冷却转变行为的影响，采用Gleeble-3800热模拟试验机和热膨胀试验方法，测定了钼、铬含量不同的3种低碳铌钛成分微合金钢在不同冷却速度下的相变点，采用光学显微镜及扫描电子显微镜观察了其转变产物的微观组织，同时结合维氏硬度测试，绘制了动态CCT曲线。结果表明，钼和铬均降低奥氏体向针状铁素体转变的相变温度，并且在冷速大于1℃/s时，钼比铬的作用效果更加明显。钼、铬均能抑制先共析铁素体和珠光体的转变，扩大针状铁素体形成冷速范围，并能够显著细化组织。

关键词: 钼 , Cr , microalloyed steel , continuous cooling , phase transformation

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