Microstructural evolution in boron-added advanced high-strength steel suitable for hot stamping

被引:0
|
作者
Deva A. [1 ]
Deepa M. [1 ]
Sahu G. [1 ]
Bhakat A.K. [1 ]
Jha B.K. [1 ]
机构
[1] Research & Development Centre for Iron and Steel, Steel Authority of India Limited, Ranchi, Jharkhand
来源
Deva, Anjana (anjana@sail-rdcis.com) | 2018年 / Springer Heidelberg卷 / PartF2期
关键词
AHSS; Boron; Formability; Hardenability; Hot stamping; Molybdenum;
D O I
10.1007/978-981-10-7892-7_13
中图分类号
学科分类号
摘要
Fuel cost, dwindling resources, and exponentially increasing traffic density have brought about a sea change in thinking of automotive designers, manufacturers, and end users. Though number of recently developed advanced high-strength steels fulfill the expectation of automobile component manufacturers in terms of weight reduction and safety norms, it suffers the inherent problem of spring back phenomena and limited formability. This problem can be addressed if the component is formed at high temperature where it has adequate formability and subsequently it is controlled cooled to get the desired combination of strength and ductility; the process is commonly known as hot stamping. As C (0.2–0.3 wt%)- Mn (1.2–1.3%)- Cr (0.1–0.2 wt%)- B (25–35 ppm) alloyed steels have been the point of focus for the choice of materials in hot stamping, study has been carried out on effect of concurrent deformation and cooling on hardening behavior and associated microstructural changes of C–Mn–Cr–B steel. Further, effect of molybdenum (~0.1 wt%) in influencing the microstructure and thereby hardening in conventional C–Mn–Cr–B steels has also been evaluated. The present study reveals that a range of tailored properties can be achieved through locally controlling strain, strain rate, cooling rate, and resultant microstructure within the stamping die. © 2018, Springer Nature Singapore Pte Ltd.
引用
收藏
页码:115 / 123
页数:8
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