Influence research of ultrasonic processing on nature of plastic deformation on mesoscale level steel samples ST3/sup 0/

Proceedings of the 6th International Scientific and Practical Conference of Students, Post-graduates and Young Scientists. Modern Techniques and Technology. MTT'2000 (Cat. No.00EX369) Pub Date : 2000-02-28 DOI:10.1109/SPCMTT.2000.896092

N. Korobkina, S. Panin

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Abstract

The method of ultrasonic forging allows creating on a surface a hardened layer, which does not have a marked interface with a substrate. The presence of such a layer on a surface should not result in considerable effects of localization, but at the same time, due to high-density of defects in a near-surface layer in control of homogeneous development of plastic deformation as a whole according to specimen. Low-carbon steel ST3/sup 0/ was used. Hardening the surface was conducted on the one hand of a specimen under conditions of ultrasonic burnishing. Under used treatment conditions the depth of study of a near-surface layer revealed according to analysis of a microhardness, amounted to 180 microns. The tests for single-axis static stretching were conducted on the test facility "IMASH 20-7" with speed of stretching of 0.05 mm/min. With the usage of an optical and television measuring complex "TOMSC-1", the principle of operation which one is based on computer processing of the optical images of a surface, fields of vectors of displacement were plotted. The analysis of distribution of vectors of displacement constructed at overseeing for a surface of a lateral face was conducted. The character of plastic deformation at a mesoscale level was investigated.

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超声处理对中尺度钢试样塑性变形性质的影响研究ST3/sup 0/

超声波锻造方法允许在表面上形成硬化层，该硬化层不具有与基板的标记界面。表面上存在这样一层不应造成相当大的局部化影响，但同时，由于近表层缺陷的高密度，从整体上控制了试样塑性变形的均匀发展。采用低碳钢ST3/sup 0/。在超声抛光条件下，对试样进行了一方面表面硬化处理。在使用的处理条件下，根据显微硬度分析，近表层的研究深度达到180微米。单轴静态拉伸试验在“IMASH 20-7”试验机上进行，拉伸速度为0.05 mm/min。利用光学电视测量复合体“TOMSC-1”，利用计算机处理表面光学图像，绘制出位移矢量场的工作原理。分析了侧向工作面监理处构造的位移矢量分布。研究了中尺度水平上的塑性变形特征。

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Proceedings of the 6th International Scientific and Practical Conference of Students, Post-graduates and Young Scientists. Modern Techniques and Technology. MTT'2000 (Cat. No.00EX369)

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