Application of Laser Thermocycling to Improve the Quality of Plasma Wear-Resistant Coatings

L. Golovko, O. Kaglyak, Viktor Romanenko, Mykhaylo Bloshchytsyn
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Abstract

The problem of the article is designed to reveal the proposed, developed and researched new method of improving the adhesion strength of plasma wear-resistant coatings on the outer surfaces of weapons made of high-alloy, heat-resistant steels, using additional cyclic (3-4) times their heating by laser radiation to temperatures of 0.6 – 0.8Tpl for a few milliseconds. The purpose of increasing the resource of use and the quality of the appearance of the weapon by applying wear-resistant coatings with increased adhesion strength to the base using plasma gas-thermal spraying followed by laser thermal cycling. Determination of the main factors and parameters of the process of laser thermocycling of plasma coatings, their interrelationships, development of an algorithm for determining the conditions of laser thermocycling, establishment of the rational range of their values by mathematical modeling and experimental research. The results of mathematical modeling of laser cyclic heating of plasma coatings of HTN of different thicknesses are presented, which allows determining the irradiation parameters that ensure their heating to temperatures at the "coating-substrate" boundary ≤1000ºС, on the surface - to Т< Тpl, at maximum cooling rates. It has been proven that laser thermocycling provides an increase in the adhesion strength of coatings to the base from 14–18 to 90–110 MPa, a decrease in porosity from 10–12% to 7–8%, which is due to the redistribution of alloying components at the “coating–base” interface, with the formation of elements of the metallurgical connection, contributes to a significant increase in wear resistance and a decrease in the coefficient of friction due to the formation of secondary ultradispersed film structures. We consider laser thermocycling of plasma coatings is an effective method of improving their quality and strength of adhesion to the base.
激光热循环在提高等离子耐磨涂层质量中的应用
这篇文章的问题旨在揭示提出、开发和研究的提高高合金耐热钢武器外表面等离子体耐磨涂层粘附强度的新方法,通过激光辐射将其加热至0.6–0.8Tpl的温度,持续几毫秒,再循环(3-4)次。目的是通过使用等离子体气体热喷涂和激光热循环在基体上涂覆耐磨涂层,增加武器的使用资源和外观质量。确定等离子体涂层激光热循环过程的主要因素和参数,它们之间的相互关系,开发确定激光热循环条件的算法,通过数学建模和实验研究确定它们的合理值范围。给出了不同厚度HTN等离子体涂层激光循环加热的数学建模结果,该结果允许确定辐照参数,以确保其在最大冷却速率下加热到“涂层-基体”边界≤1000ºС、表面上的温度-Т<Тpl。已经证明,激光热循环使涂层与基体的粘合强度从14–18增加到90–110 MPa,孔隙率从10–12%减少到7–8%,这是由于合金成分在“涂层-基体”界面处的重新分布,以及冶金连接元素的形成,由于二次超分散膜结构的形成,有助于耐磨性的显著增加和摩擦系数的降低。我们认为等离子体涂层的激光热循环是提高其质量和与基体粘附强度的有效方法。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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