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- The microstructure of different annealing treatment for TWIP steel before and after tensile deformation was investigated by static and TEM. 摘要对特定成分的TWIP钢进行不同的退火处理,用金相、透射电镜对其拉伸变形前后的组织进行观察和分析。
- The uniaxial tensile deformation and shear deformation of nano bicrystal copper within (111) atomic layer are studied with molecular dynamics. 模拟结果显示纳米铜双晶的拉伸与剪切变形都是由弹性变形与塑性变形两个阶段构成。
- C.P.Cheng, S.M.Chen, T.S.Lui and L.H.Chen, “High Temperature Tensile Deformation and Thermal Cracking of Ferritic Spheroidal Graphite Cast Iron ”, Metall.Trans.A., vol.28A,pp.1-5, 1995. 程金保、吕传盛,“肥粒铁基球墨铸铁共析变态温度附近以下之热疲劳龟裂性质探讨”国立成功大学博士论文,1988。
- The mechanical characteristics and structural changes ofa CrMnN stainless steel with metastable austenite during tensile deformation are investigated and the work-hardening mechanism is discussed. 研究了一种含亚稳奥氏体铬锰氮不锈钢在拉伸变形过程中的力学特性与组织变化,并对其加工硬化机制进行了讨论。
- high temperature tensile deformation 高温拉伸
- large-scale uniaxial tensile deformation 单向拉伸大变形
- Mechanical Analysis of First Tensile Deformation of Square Shaped Parts 方盒形件首次拉深变形的力学分析
- RECRYSTALLIZATION OF Al AND Cu SINGLE CRYSTALS AFTER TENSILE DEFORMATION Al和Cu单晶体拉伸变形后的再结晶
- Molecular dynamics simulation of tensile deformation behavior at nanometer scale 纳米尺度拉伸变形行为的分子动力学模拟
- Molecular dynamics simulation of the uniaxial tensile deformation of nanocrystalline copper 纳米晶铜单向拉伸变形的分子动力学模拟
- MOLECULAR DYNAMICS SIMULATIONS OF NANOCRYSTALLINE Ta DURING UNIAXIAL TENSILE DEFORMATION PROCESS 纳米晶钽在单向拉伸载荷下的分子动力学模拟
- Crystal plasticity finite element modeling of F. C. C. Pure Al in unaxial tensile deformation 面心纯铝单向拉伸的晶体塑性学有限元模拟
- Tensile deformation mechanism in pure copper subjected to surface mechanical attrition treatment 表面机械研磨处理的纯铜拉伸形变机制
- Study on tensile deformation characteristic of CrMnN stainless steel with metastable austenite 含亚稳奥氏体铬锰氮不锈钢的拉伸变形特性研究
- Molecular Dynamics Simulation of Tensile Deformation of Single Crystal Aluminum Microstructure 单晶铝微构件拉伸过程的分子动力学仿真研究
- Molecular Dynamics Simulation of Uniaxial Tensile Deformation and Shear Deformation for Nano-Bicrystal Copper 纳米铜双晶拉伸与剪切变形的分子动力学模拟
- The heat treatment improves the tensile strength. 热处理能提高抗拉强度。
- This shape allows only tensile strain. 这种形状使膜片只允承受拉伸压力。
- The circumferential normal stress is tensile. 周向正应力是张性的。
- Ice crystals begin to deform measurably. 冰晶就产生某种程度的变形了。
