对基本成分为Fe-0.1C-Mo的微合金HSLA钢进行了变化轧制与冷却参数的试验,分析了钢的组织形貌及微观结构;研究了变形和冷却参数与钢的屈服比、缺口冲击功、延伸率等的关系.指出:通过轧制、冷却工艺的组合与变化,可以实现钢的强度、塑性、屈服比的控制;抗拉强度800 MPa级的厚钢板,其屈服比可控制在0.75以下,低温冲击韧性良好.钢的组织主要由针状铁素体和马氏体两相组成.
参考文献
| [1] | Rashid M S;Davenport A T.In Formable HSLA and Dual Phase Steels[M].AIME,New York,NY,1979:1-24. |
| [2] | Enomoto M.Nucleation of Phase Transformation at Intragranular Inclusions in Steel[J].Metals and Materials,1998(04):115. |
| [3] | Maki T .Current State and Future Prospect of Microstructure Control in Steels[J].Tetsu-to-Hagané,1995,81:547. |
| [4] | Lawson R D;Metlock D K;Krauss G.IN Fundamentals of Dual Phase Steels[A].New York,USA,1981:347-381. |
| [5] | Wang X M;He X L;Yang S W;Shang C J Wu H B .Refining of Intermediate Transformation Microstructure by Relaxation Processing[J].ISIJ International,2002,42:1553. |
| [6] | Speich G R;Miller B L.Structure and Properties of Dualphase Steels[A].New York,USA,1979:145-182. |
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