In this work, the warm deformation of carbon steel with starting martensite (M) structure, full annealing structure and spheroidized annealing structure in Q235, 45, T8 and T12 steels were investigated by warm compression tests performed on a Gleeble3500 machine.
本文利用Gleeble 3500热力模拟试验机,对Q235、45、T8和T12钢的马氏体(M)组织、完全退火组织和球化退火组织的温变形进行了模拟实验研究。
参考来源 - 几种不同含碳量碳钢的组织对温变形行为的影响·2,447,543篇论文数据,部分数据来源于NoteExpress
The texture evolution of ferrite during warm compression of Q235 low carbon steel was determined quantitatively by means of orientation mapping based on the EBSD technique.
利用背散射电子衍射取向成像技术定量分析了热模拟单向压缩条件下Q235碳素钢热变形时铁素体的织构形成规律。
The mechanical property of m is higher than that of annealing structure after warm compression, probably because of the fine ferrite grain with uniformly distributed nano-sized carbide particles.
温变形后组织的力学性能高于退火变形组织的原因是晶粒的细化和纳米碳化物的均匀分布。
The warm and ice-rich frozen soil under an outside load will generate relatively large compression deformation which greatly influences the stability of roadbed.
高温–高含冰量冻土在外荷载作用下会产生较大的压缩变形,对路基稳定性产生极大影响。
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