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核岛用P280GH钢的冷却相变过程及数值模拟
引用本文:于辉,刘利刚,王秀琳,黄洪涛,冯庆.核岛用P280GH钢的冷却相变过程及数值模拟[J].钢铁,2016(12):58-64.
作者姓名:于辉  刘利刚  王秀琳  黄洪涛  冯庆
作者单位:1. 燕山大学机械工程学院,河北 秦皇岛,066004;2. 攀钢集团成都钢钒有限公司,四川成都,610303
基金项目:国家自然科学基金资助项目(51275445);河北省自然科学基金钢铁联合基金项目(E2014203077)
摘    要:为了研究核岛用P280GH钢管热轧成形后的冷却过程组织演变,采用物理模拟方法建立了CCT和TTT相变动力学曲线。结果表明,低冷速会形成粗大铁素体和珠光体,增大冷速可细化低温相组织,当冷速超过10℃/s时即开始出现贝氏体组织。运用叠加原理,基于有限元法,建立了试验钢冷却过程数值模型,分析了?219.1 mm×18.26 mm规格P280GH钢管在空冷和水冷两种冷却过程沿壁厚方向温度场、组织演变规律。结果显示,空冷条件相变组织为均匀的珠光体、无贝氏体和残余奥氏体;水冷条件获得相变组织为马氏体组织,管内外表面体积分数相差3.6%,计算结果与实际热处理工况基本一致。研究结果可为热轧P280GH钢管生产的控冷工艺提供指导。

关 键 词:核电钢管  相变动力学  组织演变  数值模拟  热处理

Cooling phase transformation and numerical simulation of nuclear steel P280GH
Abstract:In order to study the phase transformation of P280GH steel nuclear power tube during cooling process after hot-roll process,the CCT and TTT transformation kinetics curves were measured by using physical simulation method. The results show that coarse ferrite and pearlite form at low cooling rates and the low-temperature microstructure phase can be reduced by increasing the cooling rate. When the cooling rate is more than 10 ℃/s,bainite begins to appear. Based on the superposition principle,the numerical model of the cooling process of the test steel is established by using the finite element method. The temperature field and the evolution of phase transformation along the direction of the wall thickness of the P280GH steel specimen with dimensions of ?219.1 mm ×18.26 mm were analyzed for air cooling and water cooling,respectively. The results show that the microstructure under air cooling condition is homogeneous pearl-ite,and there is no bainite and retained austenite. The microstructure under water cooling condition is martensite,and the difference between the internal surface and the external surface was 3.6%,which is basically consistent with that of the actual heat treatment. The research results can provide guidance for the cooling process of hot rolling P280GH steel pipe production.
Keywords:nuclear power tube  phase transformation kinetics  numerical simulation  heat treatment
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