A general perspective of Fe–Mn–Al–C steels

被引:5
作者
O. A. Zambrano
机构
[1] Universidad del Valle,Research Group of Fatigue and Surfaces (GIFS), Mechanical Engineering School
[2] Universidad del Valle,Research Group of Tribology, Polymers, Powder Metallurgy and Processing of Solid Waste (TPMR), Materials Engineering School
来源
Journal of Materials Science | 2018年 / 53卷
关键词
Twinning-induced Plasticity (TWIP); TWIP Steel; Transformation-induced Plasticity (TRIP); Microband-induced Plasticity (MBIP); Hadfield Steel;
D O I
暂无
中图分类号
学科分类号
摘要
During the last years, the scientific and industrial community has focused on the astonishing properties of Fe–Mn–Al–C steels. These high advanced steels allow high-density reductions about ~ 18% lighter than conventional steels, high corrosion resistance, high strength (ultimate tensile strength ~ 1 Gpa), and at the same time ductility above 60%. The increase in the tensile or yield strength and the ductility at the same time is almost a special feature of this kind of new steels, which makes them so interesting for many applications such as in the automotive, armor, and mining industry. The control of these properties depends on a complex relationship between the chemical composition of the steel, the test temperature, the external loads, and the processing parameters of the steel. This review has been conceived to elucidate these complex relations and gather the most important aspects of Fe–Mn–Al–C steels developed so far.
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页码:14003 / 14062
页数:59
相关论文
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