Study of the regularity of wear influence on the service life of cutting elements of bulldozers’ working bodies

Problemi tribologii Pub Date : 2023-09-30 DOI:10.31891/2079-1372-2023-109-3-25-31

O.V. Shchukin, A.O. Prudnikova

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Abstract

Our mathematical model describes the regularities of blade wear and takes into account the influence of different operating modes of a bulldozer when dealing with diverse soils that have different degrees of abrasiveness. When calculating the probability of failure-free operation of the bulldozer cutting elements (blades), which depends on the maximum load, it was found that the probability of failure-free operation at an operating time of 600 machine-hours is 0.7...0.75 – for soil category I; 0.5...0.55 – for soil category II; 0.3...0.35 – for soil category III. Comparison of failure-free operation probabilities has made it possible to establish that with an increase in soil density, failure-free operation probability drops by 30-40%, which suggests a significant impact of soil density on reliability of the bulldozer working equipment. In addition, this mathematical model of the total probability allows us to obtain a theoretical description of changes in failure-free operation probability of the bulldozer equipment during working processes, changes in the service life of a bulldozer blade, and taking into account the properties of the blade material. The service life of a bulldozer cutting element can be estimated by its wear, structural features of the material, geometric parameters (thickness in particular), and machine operating modes. It has been established that the regularity of changes in the service life, due to bulldozer blade wear, is exponential. The higher the soil category is, the lower the wear is, and hence the service life of a bulldozer working body. The dependence of the change in the blade service life on the time of its contact with soils of three categories was obtained as well. Thus, the maximum value of a blade service life at the beginning of operation on different soil categories was determined: 450 machine-hours – on soil category I; 350 machine-hours – on soil category II; 280 machine-hours – on soil category III.

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研究了磨损对推土机工作体切削元件使用寿命的影响规律

我们的数学模型描述了叶片磨损的规律，并考虑了推土机在处理具有不同程度磨蚀性的不同土壤时，不同操作模式对叶片磨损的影响。在计算由最大载荷决定的推土机切割元件(刀片)无故障运行概率时，发现600机时的无故障运行概率为0.7…0.75 -对于土类I;0.5…0.55 -土壤II类;0.3…0.35 -土壤III类。通过对无故障运行概率的比较，可以确定，随着土密度的增加，无故障运行概率下降30-40%，说明土密度对推土机工作设备的可靠性影响较大。此外，这个总概率的数学模型可以让我们对推土机设备在工作过程中无故障运行概率的变化，推土机叶片使用寿命的变化，以及考虑到叶片材料的特性，得到一个理论上的描述。推土机切削元件的使用寿命可以通过其磨损、材料的结构特征、几何参数(特别是厚度)和机器操作方式来估计。已经确定，由于推土机叶片磨损，使用寿命的变化规律是指数型的。土类越高，磨损越小，因而推土机工作体的使用寿命越短。得到了叶片与三类土壤接触时间对叶片使用寿命变化的影响规律。由此，确定了叶片在不同土壤类别上开始工作时的最大使用寿命值:在土壤类别I上450机器小时;350机器小时- II类土壤;III类土壤280机时。

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

Problemi tribologii

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审稿时长

10 weeks