1) cyclic deformation
循环变形
1.
Numerical relationship between hardness and microstructure of JLF-1 steel after cyclic deformation
JLF-1钢高温循环变形后硬度与微观结构的数值关系
2.
To investigate the microstructural stability,stress-strain response and fatigue fracture of a new generation γ-TiAl alloy with high Nb content under cyclic deformation,Low aycle fatigue tests under total strain controlling were carried out in the temperature range of 550℃~750℃ Deformed microstructures and fatigue fracture surfaces were observed.
为研究新一代高Nb含量γ-TiAl合金在低周疲劳过程中双态组织稳定性对应力-应变响应和疲劳断裂过程的影响,测试了Ti-47Al-5Nb合金在总应变控制条件下550℃~750℃温度范围的低周疲劳性能,并观察了循环变形后的显微组织,缺陷特征和断口形貌。
3.
The monotonic tensile and uniaxial cyclic deformation behaviors of the SiC_p/6061A1 alloy composites were simulated numerically by using elastic-plastic finite element code ABAQUS, and the simulated results were compared with the corresponding experiments in order to discuss the reasonability of the finite element simulation.
在细观分析模型的基础上,利用ABAQUS有限元程序对T6热处理后不同体积分数的颗粒增强SiC_p/6061Al合金复合材料的单调拉伸行为和单轴循环变形行为进行了有限元数值模拟;同时,通过与相应的实验结果的比较对模拟效果进行了评价。
2) cyclic deformation
循环形变
1.
Tensile behaviors of ultrafine grained copper (UFG-Cu) processed by equal channel angular pressing (ECAP) were investigated at room temperature in the as-processed state and after cyclic deformation treatment.
研究了循环形变处理对等通道转角挤压方法(ECAP)制备的超细晶铜(UFG—Cu)室温拉伸行为的影响。
2.
A study has been performed relating to the micromechanisms of cyclic deformation in polycrystalline copper and aluminium under low cycle impact fatigue (LCIF) loading.
对面心立方结构多晶纯铜和纯铝在低周冲击疲劳载荷下循环形变的微观机制进行了研究。
3.
It was shown that the appearance ofDBs seems to be a general phenomenon in difFerently oriented crystals during cyclic deformation.
系统研究了循环形变铜单晶体中宏观形变带的产生规律和特征及相应的位错结构,并对其形成机制进行了综合探讨。
3) cycles-deformation
循环-变形
4) circular deformation behavior
循环变形行为
1.
The result shows that, the circular deformation behavior of two-phase steel not only relates to the evolutional process of the dislocation configuration of the microstructure, but also is affected by the intensity, type and loading modes of the circular load.
结果表明 ,双相钢的循环变形行为 ,不仅与组织中位错组态的演变过程有关 ,同时也受循环载荷大小、类型以及加载方式所影响。
5) Stochastic cyclic deformation
随机循环变形
6) low temperature cyclic deformation
低温循环变形
补充资料:大坝内部变形观测(见水工建筑物变形观测)
大坝内部变形观测(见水工建筑物变形观测)
daba neibubianxing guanCe大坝内部变形观测见水工建筑物变形观测。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条