SOME ASPECTS OF IMPROVING OF ICE OUTPUT PARAMETERS DURING MODERNIZATION IN THE CONDITIONS OF SERIAL PRODUCTION

Q4 Engineering

内燃机学报 Pub Date : 2019-09-24 DOI:10.20998/0419-8719.2019.1.10

С. А. Дмитриев, Александр Эдуардович Хрулев

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Abstract

The analysis of the features and methods of modernization of serial internal combustion engines was carried out in order to increase the output parameters. With specific examples, it is shown that the desire of engine manufacturers to improve performance while minimizing costs often leads to an unreasonably high risk of uncontrolled changes in the loads on parts, when after upgrading the quality and reliability of products deteriorates. At the same time, the most dangerous variants of modernization should be considered the so-called scaling, which produces a slight increase in output parameters while maintaining the same structure and geometry of the main parts, which is usually done without necessary research and testing or, at least, without modeling loads on parts the purpose of determining the critical sections and their possible amplification. Examples of modernization of engines by increasing the size of parts and increasing the boost pressure, as well as its consequences, causing various damage and destruction of the main parts, which is associated with exceeding the permissible level of loads, are done. In order to prevent a reduction in the reliability of upgraded production engines with the exclusion of unnecessarily high costs, an assessment was made of possible ways of modernization. A general approach to modeling the loads on the main parts of the upgraded serial ICE is proposed, the main results of modeling the stress-strain state of the piston, piston pin and connecting rod are given. Data were obtained to identify dangerous sections in which locally high stresses are observed, which increase the risk of fatigue failure of parts with increasing loads. Based on the results obtained, recommendations were given on the practical application of a computational experiment when modernization of serial ICEs

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在系列化生产条件下，改进现代化制冰产量参数的几个方面

为提高内燃机输出参数，分析了内燃机现代化改造的特点和方法。具体的例子表明，发动机制造商在提高性能的同时最小化成本的愿望，往往导致在升级后产品的质量和可靠性恶化时，零件负载不受控制变化的不合理的高风险。与此同时，现代化最危险的变种应该被认为是所谓的缩放，它在保持主要部件的相同结构和几何形状的同时产生输出参数的轻微增加，这通常是在没有必要的研究和测试的情况下完成的，或者至少没有对部件上的载荷进行建模，以确定临界截面及其可能的放大。通过增加零件尺寸和增加增压压力来实现发动机现代化的例子，以及其后果，导致主要零件的各种损坏和破坏，这与超过允许的负载水平有关。为了防止在排除不必要的高费用的情况下降低升级后的生产发动机的可靠性，对现代化的可能方式进行了评估。提出了对改进型内燃机主要部件载荷进行建模的一般方法，给出了对活塞、活塞销和连杆的应力-应变状态进行建模的主要结果。获得的数据用于识别局部观察到的高应力的危险截面，随着载荷的增加，这些应力增加了零件疲劳失效的风险。在此基础上，对一系列内燃机现代化改造的计算实验的实际应用提出了建议

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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来源期刊

内燃机学报 Engineering-Mechanical Engineering

CiteScore

1.00

自引率

0.00%

发文量

3050

期刊介绍：