稀有气体中连续波激光切割金属的气体流体动力学

N. K. Makashev, E. S. Asmolov, V. Blinkov, A. Boris, O. Buzykin, A. Burmistrov, M. R. Gryaznov, V. Makarov
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引用次数: 16

摘要

建立了无化学反应条件下连续波激光切割金属的定量物理模型。采用几何相似模型对工艺气体的流动进行了实验研究。测定了切割前气体压力和速度的分布。建立了热问题的简化数学算法,并计算了最大切割深度和切割速度随激光束参数的变化。考虑了熔体运动和切割前沿运动可能存在的非稳态特性。基于毛细力和切割锋面上缘附近气流对熔体施加的力之间的平衡,提出了形成切口规则波纹的热机制。得到了计算波纹深度和周期的简单公式。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Gas hydrodynamics of metal cutting by cw laser radiation in a rare gas
A quantitative physical model of metal cutting by cw laser radiation in the absence of chemical reactions was developed. An experimental study was made of the flow of the processing gas using a geometrically similar model. The distributions of the pressure and velocity of the gas were determined at the cutting front. Simplified mathematical algorithms for the thermal problem were constructed and calculations were made of the maximum depth of the cut (kerf) and cutting speed as functions of the laser beam parameters. Possible nonsteady-state characteristics of the motion of the melt and of the cutting front were considered. A thermal mechanism was proposed for the formation of the regular rippling of the kerf, based on a balance between capillary forces and forces exerted on the melt by the gas stream in the vicinity of the upper edge of the cutting front. Simple formulas were obtained for calculating the depth and period of the ripples.
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