摘要
本文采用层错能估算和相图计算的方法,通过增C降Mn的成分优选,设计了Fe-18Mn-0.528Si-0.6C(质量分数,%)实验钢,研究表明,该钢种在室温拉伸变形时会发生γ→ε相变.借助OM,XRD和TEM对热轧实验钢板室温拉伸性能测试前后的组织进行了分析与研究,结果表明:经过1100℃开轧,850℃终轧后空冷的热轧钢板由于孪晶诱发塑性(TWIP)+相变诱发塑性(TRIP,γ→ε)双重效应的作用,实现了抗拉强度超过1 GPa,延伸率大于60%的优良性能,达到了第三代汽车用钢的要求;淬火ε马氏体和应力诱发ε马氏体的存在会导致力学性能下降.
There exists obvious deficiency in traditional twining induced plasticity(TWIP) steel which exhibits excessive ductility but rather low strength.In order to improve the property,new composition of a test steel,i.e.,Fe-18Mn-0.528Si-0.6C(mass fraction,%) steel is designed through increasing C content and decreasing Mn content upon the estimation result of stack fault energy and phase diagram calculation.That theγ→εtransformation may happen during deformation at room temperature in the designed steel is predicted through calculation.The microstructure,before and after tensile test,of the hot rolling test steel is analyzed with OM,XRD and TEM.It is shown that there occurs simultaneously TWIP and transformation induced plasticity(TRIP) effect in the steel treated by a special hot rolling process(rolling starting temperature 1100℃,finishing rolling temperature 850℃and air cooling) and superior mechanical property with strength higher than 1 GPa and elongation rate higher than 60%are then obtained which fit very well with the requirement of the third generation automobile steel.It is also revealed the existence ofεmartensite obtained through quenching or induced by stress would damage the mechanical property.
出处
《金属学报》
SCIE
EI
CAS
CSCD
北大核心
2012年第1期122-128,共7页
Acta Metallurgica Sinica
基金
国家重点基础研究发展计划项目2010CB630802
国家自然科学基金项目50934011和50971137资助~~
关键词
孪晶诱发塑性(TWIP)钢
Ε马氏体
层错能
材料设计
第三代汽车用钢
twining induced plasticity (TWIP) steel, ε martensite, stack fault energy, materialdesigning, 3th generation auto steel
