退火时间对含铌高强细晶IF钢组织性能的影响
Effect of annealing time on the microstructure and properties of Nb-bearing high-strength IF steel with super-fine grains
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摘要: 以新型含铌高强细晶IF钢为研究对象,在实验室进行了冷轧以及轧后模拟连续退火实验.结果表明,选择合适的退火时间,晶粒变得细小、均匀,同时存在一定量的饼形晶粒.由于添加Si、Mn等固溶强化元素,增加了钢的固溶强化作用;而合金元素Nb的添加,在组织中形成了细小的碳氮化物Nb(C,N),这些碳氮化物弥散分布,通过细晶强化和沉淀析出强化增加了钢的抗拉强度,因而高强细晶IF钢的强化机制为固溶强化、细晶强化和沉淀析出强化.更值得注意的是,由于存在PFZ带(无析出物区)而使实验钢呈现高强度低屈服现象.与传统的IF钢相比,含铌高强细晶IF钢不仅具有细小的晶粒,而且具有低的屈服强度、较高的r值等良好的成型性能.Abstract: Taking a Nb-bearing high-strength IF steel with super-fine grains as an object of study, cold rolling and simulative continuous annealing experiments were carried out in the laboratory. The results show that its microstructure can be refined and homogenized by choosing a feasible annealing time, with a number of cake-shaped grains. The steel is solid-solution strengthened by adding solid-solution elements such as Si and Mn; fine Nb(C,N) forms in its microstructure by adding micro-alloy element Nb. The tensile strength of the steel is improved by fine-grain strengthening and precipitation strengthening due to a dispersive distribution of fine niobium earbonitride and the strengthen mechanisms are solid solution strengthening, fine-grain strengthening and precipitation strengthening. It is noted that the yield strength is low but the tensile strength is high since precipitated free zones exist on one side of grain boundaries. In contrast to a conventional IF steel, the steel has super fine grains and exhibits excellent formability such as low yield strength and high r-values.