液体淬火介质发展的新方向

N. Kobasko, A. Moskalenko, P. N. Logvinenko, V. Dobryvechir
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引用次数: 3

摘要

结果表明,与已知的影响液体物理性能的表面活性添加剂(SAA)不同,淬火过程中通过在硬化金属表面形成薄聚合物层来消除薄膜沸腾。它是通过在水中使用最佳浓度的特殊聚合物来实现的。所获得的绝缘聚合物层将初始热流密度降低到其临界值以下,从而完全消除了膜沸腾而不明显影响液体的物理性质。基于这一事实,根据材料在强化淬火过程中减少变形、淬火裂纹形成和提高强度的原理,提出用低浓度的特殊聚合物代替其在水中的高浓度。所有这些都显著增强了金属,节省了昂贵的材料,并增加了硬化产品的使用寿命。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
NEW DIRECTION IN LIQUID QUENCHING MEDIA DEVELOPMENT
It is shown that in contrast to well known surface active additives (SAA), affecting physical properties of a liquid, the elimination of film boiling during quenching is achieved by creation of the thin polymeric layer on the surface of hardened metal. It is performed by using special polymers of optimal concentration in water. The obtained insulating polymeric layer decreases initial heat flux density below its critical value and by this way eliminates completely the film boiling without affecting clearly the physical properties of a liquid.     Based on this fact and on the principle of decreasing distortion, quench crack formation, and increasing strength of material during intensive quenching,  it is proposed to use low concentration of special polymers instead of their high concentration in water. All of this results in significant strengthening of metal, saves costly materials, and increases service life of hardened products.     
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