动态应变时效
材料科学
数字图像相关
锰
极限抗拉强度
应变率
变形(气象学)
拉伤
延伸率
奥氏体
产量(工程)
冶金
复合材料
拉伸试验
微观结构
医学
内科学
作者
Sebastian Wesselmecking,Wenwen Song,Wolfgang Bleck
标识
DOI:10.1002/srin.202100707
摘要
Carbon‐containing high‐manganese steels are susceptible to strain aging, which influences the mechanical properties during and after deformation. To understand the strain aging behavior of austenitic Fe‐22Mn‐1.3Al‐0.3C high‐manganese steel, dynamic as well as static strain aging are examined. Dynamic strain aging, occurring during deformation, is quantified by tensile tests at different strain rates. The strain localization during straining is analyzed by digital image correlation. A decrease in strain rate increases the tensile strength and influences the onset of a serrated flow. Static strain aging is quantified by interrupted tensile tests, combined with digital image correlation and small‐angle neutron scattering (SANS). The yield strength increases due to static strain aging at room temperature within the period of days. The samples show extended yield point (yield point elongation) and the effect strengthens at higher pre‐deformation. With SANS, evidence of carbon‐manganese ordering (C–Mn ordering) during aging is obtained and correlated.
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