A COMPLEX APPROACH IN ASSESSING RELIABILITY INDICATORS OF ELEMENTS OF TECHNICAL SYSTEMS WHEN DEGRADATION FAILURES OCCUR

Collection of scientific works of the Ukrainian State University of Railway Transport Pub Date : 2023-06-21 DOI:10.18664/1994-7852.204.2023.283716

Oleksiy Alfyorov

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Abstract

The construction and practical use of complexes of mechanical reliability models creates real prerequisites for the transition to resource design of assembly units and aggregates of mobile machines. Therefore, the article solves the tasks of building complexes of inverted stochastic models, which provide the possibility of joint statistical analysis of heterogeneous information about reliability in cases of types of destruction typical for machine elements: during wear and fatigue. A fairly complete and convenient method for solving many problems of mechanical reliability is given for describing a non-stationary monotonic degradation process, which consists in the task of the type of its function or the density of distribution in time segments with parameters that are deterministic monotonic functions of time or working time in load cycles. Such functions should be perceived as parametric. Schemes of models of two main types of degradation processes in machine elements are also given: monotonically increasing, associated with wear and monotonically decreasing, due to fatigue failure. At the same time, the process corresponding to wear is formed by random realizations of a change in the failure parameter over time, and the process characterizing fatigue failure is formed by a set of random individual fatigue curves that depend on cyclic durability. The considered theoretical analysis of the main degradation processes that determine the mechanical reliability of machine elements made it possible to develop a universal approach to building complexes of stochastic reliability models, which provides the possibility of joint statistical evaluation of model parameters for processes caused by wear and tear and fatigue destruction. The practical use of the proposed complexes of mechanical reliability models is expedient both for accelerated assessment and for predicting reliability at the stage of resource design of elements of mobile machines.

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当发生退化故障时，评估技术系统要素可靠性指标的复杂方法

机械可靠性模型复合体的构建和实际应用为移动机械装配单元和集合体的资源设计过渡创造了真正的先决条件。因此，本文解决了建立反向随机模型复合体的任务，该模型提供了在机械元件典型破坏类型(磨损和疲劳)情况下对可靠性异构信息进行联合统计分析的可能性。对于描述非平稳单调退化过程，给出了一种相当完整和方便的方法来解决许多机械可靠性问题，这种退化过程的任务是其函数的类型或在时间段内的分布密度，其参数是载荷循环中时间或工作时间的确定性单调函数。这样的函数应该被看作是参数函数。文中还给出了机械元件两种主要退化过程的模型格式:与磨损有关的单调递增和由于疲劳失效引起的单调递减。同时，与磨损相对应的过程是失效参数随时间变化的随机实现，表征疲劳失效的过程是一组依赖于循环耐久性的随机个体疲劳曲线。对决定机械元件机械可靠性的主要退化过程进行理论分析，使建立随机可靠性模型复合体的通用方法成为可能，这为磨损和疲劳破坏引起的过程的模型参数的联合统计评估提供了可能。所提出的机械可靠性模型复合体的实际应用，有利于移动机械部件资源设计阶段的可靠性加速评估和预测。

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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Collection of scientific works of the Ukrainian State University of Railway Transport

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