Cu-Ni-Mn, as a alloy with intense age hardening characteristic and high intensity, low melting point, is a potential matrix material of abrasive-resistance MMC.
Cu-Ni-Mn合金作为一种具有强烈时效硬化特性的高强度、低熔点合金,是一种很有潜力的以抗磨料磨损为目标的金属基复合抗磨材料的基体材料。
参考来源 - Cu·2,447,543篇论文数据,部分数据来源于NoteExpress
讨论了材料在不同加载路径及不同工况下的循环硬化特性。
The cyclic hard- ening behavior under different loading paths and different load conditions was studied.
该模型考虑了材料的各向异性、加工硬化特性及包辛格效应的影响。
This model took account of material anisotropic and work hardening properties, and included the influence of the Bauschinger effect.
利用金属材料弯曲变形时的塑变硬化特性来弯曲矩形管,较好地解决了雨阳棚骨架现场弯曲加工的问题。
The hardening characteristic of plastic deformation is also discussed, which is useful to bend the steel tubes of awning on worksite.
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