黄铜初步热处理和径向剪切轧制的计算机模拟

Q3 Engineering
A. Naizabekov, S. Lezhnev, E. Panin, A. Arbuz, A. Tolkushkin, Pavel Tsyba, Vasily Rubanik, Yury Tsarenko
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引用次数: 0

摘要

本文介绍了用单元自动机方法在 Deform 程序中对 L63 黄铜的初步热处理和径向剪切轧制进行计算机建模的结果。淬火和退火作为预热处理模式进行了模拟。径向剪切轧制包括三次轧制,每次压缩 3 毫米。可变参数为轧辊转速(40 rpm、70 rpm 和 100 rpm)和轧制前的工件加热温度(500°C 和 700°C)。研究发现,L63 黄铜初步热处理的最有效模式是在 500°C 温度下退火。轧制前工件加热温度的最合理值是 500°C,因为在这种情况下,在所有选定的速度下,再结晶过程都不会开始,这有助于强化晶粒研磨。轧辊转速的增加会引起额外的变形加热,从而导致再结晶,降低晶粒研磨强度。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
COMPUTER SIMULATION OF PRELIMINARY HEAT TREATMENT AND RADIAL-SHEAR ROLLING OF BRASS
This paper presents the results of computer modeling of preliminary heat treatment and radial-shear rolling of L63 brass in the Deform program by cellular automata method. Quenching and annealing were simulated as pre-heat treatment modes. Radial-shear rolling consisted of three passes with a compression of 3 mm per pass. The variable parameters were the roll rotation speed (40 rpm, 70 rpm and 100 rpm) and the workpiece heating temperature before rolling (500°C and 700°C). It was found that the most effective mode of preliminary heat treatment of L63 brass is annealing at a temperature of 500°C. The most rational value of the heating temperature of the workpiece before rolling is 500°C, since in this case, at all selected speeds the recrystallization process does not start, which contributes to intensive grain grinding. An increase of roll rotation speed causes additional deformation heating, which contributes to recrystallization and a decrease of grain grinding intensity.
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来源期刊
Journal of Chemical Technology and Metallurgy
Journal of Chemical Technology and Metallurgy Engineering-Industrial and Manufacturing Engineering
CiteScore
1.40
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