CONTACT INTERACTION OF DISCRETE-CONTINUALLY STRENGTHENED PARTS OF INTERNAL COMBUSTION ENGINES

Q4 Engineering
М.А. Tkachuk, S. Kravchenko, A. Grabovskiy, М.М. Tkachuk, O. Veretelnik, S. Kutsenko, I. Klochkov, M. Saverska
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Abstract

Studies of the stress-strain state of discrete-continuously strengthening parts of internal combustion engines are described in the paper. A parametric model of a microcell containing a two-part cell has been developed. The first part simulates a fragment of an aluminum part with a surface corundum layer. The second part is a fragment of a cast iron part with a zone of discrete strengthening of steel. Vary: modulus of elasticity of the corundum layer material and the shape of the discrete hardening zone. The dependences of the strength and stiffness characteristics of the studied system on the varied parameters are established. They are the basis for substantiation of rational modes of technology of discrete-continuous strengthening of parts of internal combustion engines. In the course of research, it was found that previously determined for discrete strengthening, the effects of a favourable redistribution of contact interaction between parts are preserved for discrete-continuous strengthening. The characteristic dependences of the features of the stress-strain state of the elements of discrete-continuously strengthening parts on the varied properties of the surface layers of the continuously strengthened part, on the one hand, and the shape of the discrete strengthening zone, on the other, are determined. This makes it possible to determine the sensitivity of the characteristics to purposeful or random variation of these factors. It is also expedient to set and solve optimization problems to determine such modes of technological operation of discrete-continuous strengthening, which increase the characteristics of strength, durability, efficiency of internal combustion engines and other machines, units and assemblies containing such strengthened parts. The developed approach, models and research methods will be further applied to studies of the stress-strain state of contacting discrete-continuously strengthened parts of structures to improve the technical and tactical and technical characteristics of products of machine-building enterprises.
内燃机离散连续强化部件的接触相互作用
本文对内燃机离散连续强化部件的应力-应变状态进行了研究。建立了包含两部分电池的微电池参数化模型。第一部分模拟具有表面刚玉层的铝部件的碎片。第二部分是一个碎片的铸铁部分与一个区域的离散强化钢。改变:刚玉层材料的弹性模量和离散硬化区的形状。建立了所研究系统的强度和刚度特性与各参数的关系。它们是建立内燃机零件离散-连续强化合理技术模式的基础。在研究过程中,发现先前确定的离散强化,在离散-连续强化中保留了零件之间接触相互作用的有利重新分配的影响。确定了连续强化部件各单元的应力-应变状态特征与连续强化部件表面各层的不同性质以及离散强化区的形状之间的特征依赖关系。这使得确定特征对这些因素的有目的或随机变化的敏感性成为可能。确定这种离散-连续强化的工艺操作模式,也有利于制定和解决优化问题,从而提高内燃机和其他包含此类强化部件的机器、单元和组件的强度、耐久性和效率等特性。所建立的方法、模型和研究方法将进一步应用于接触离散连续加固构件的应力-应变状态研究,以提高机械制造企业产品的技战术和技术特性。
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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CiteScore
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