电流和塑性变形引起的非典型硬化

IF 0.4 Q4 ENGINEERING, MECHANICAL
V. V. Stolyarov
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引用次数: 0

摘要

摘要 根据文献和实验数据,简要探讨了脉冲电流通过时的效应以及金属和合金的相关结构变化。研究显示了电流的类型和模式以及材料性质的特殊作用。介绍了纯金属、发生马氏体转变的钛合金和钢中电流与准静态拉伸塑性变形相互作用的研究结果。据推测,导致检测到的变形效应的原因包括脉冲周期和持续时间的比率、应力和温度的循环、变形机制的变化、可逆转变、晶粒大小的变化以及第二相颗粒的出现。改变占空比可以调节热效应和电塑性效应的比例,从而影响硬化/软化机制。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Atypical Hardening Caused by Current and Plastic Deformation

Atypical Hardening Caused by Current and Plastic Deformation

Atypical Hardening Caused by Current and Plastic Deformation

Based on literary and experimental data, the effects accompanying the passage of pulsed current and associated structural changes in metals and alloys have been considered briefly. The special role of the type and modes of current, as well as the nature of the material, has been shown. The results of studies of the interaction of electric current and plastic deformation by quasi-static tension in pure metals, titanium alloys with martensitic transformation, and steels have been presented. It is assumed that the causes of the detected deformation effects are the ratio of the period and duration of the pulse, cycling of stress and temperature, changes in the deformation mechanism, reversible transformations, changes in grain size, and the appearance of particles of second phases. Variation of the duty cycle makes it possible to regulate the ratio of thermal and electroplastic effects and thereby influence the mechanisms of hardening/softening.

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来源期刊
CiteScore
0.80
自引率
33.30%
发文量
61
期刊介绍: Journal of Machinery Manufacture and Reliability  is devoted to advances in machine design; CAD/CAM; experimental mechanics of machines, machine life expectancy, and reliability studies; machine dynamics and kinematics; vibration, acoustics, and stress/strain; wear resistance engineering; real-time machine operation diagnostics; robotic systems; new materials and manufacturing processes, and other topics.
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