Wear and flow rate problems on chutes in a rock crushing plant

Tribology and Materials Pub Date : 1900-01-01 DOI:10.46793/tribomat.2022.016

Keshav Gopaul, S. Venkannah, M. Z. Dauhoo

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引用次数: 1

Abstract

Rock crushing plants cannot afford unforeseen breakdowns with the current boom in the construction sector. This paper discusses measures that can be used to predict wear on chutes in the plant so that predictive maintenance can be implemented. Some of the chutes used to transfer the materials are difficult to access. Failures of the chutes cause downtimes, which are untimely and costly. The objective of this research is to determine the wear rates of chutes. A chute system was designed, modelled and validated using the Solidworks® software and then imported into the EDEM® software to predict the failure of the chutes. Factors affecting the abrasion wear of the metal were determined and used as input parameters to perform a simulation on EDEM® to validate the wear recorded. The service life obtained for mild steel S275 was 731 hours and that of abrasion resistant steel Hardox® 400 was 1490 hours, and it was deduced that the difference in the value of hardness of the metals to that of the rocks they carry significantly affects the wear of the chutes. The software was also used to replicate the flow of boulders on chutes and an accelerated flow rate of 496 tons per hour (t/h) was achieved at an angle of elevation of 24.4°.

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岩石破碎厂溜槽的磨损和流速问题

在当前建筑业繁荣的情况下，岩石破碎厂无法承受不可预见的故障。本文讨论了可用于预测工厂溜槽磨损的措施，以便实施预测性维护。一些用于转移材料的滑槽很难进入。滑槽的故障导致停机，这是不合时宜的和昂贵的。本研究的目的是确定滑槽的磨损率。使用Solidworks®软件设计、建模和验证溜槽系统，然后导入EDEM®软件来预测溜槽的故障。确定影响金属磨损的因素，并将其作为输入参数，在EDEM®上进行模拟，以验证所记录的磨损。低碳钢S275的使用寿命为731小时，耐磨钢Hardox®400的使用寿命为1490小时，由此推断，金属的硬度值与它们所携带的岩石的硬度值的差异显著影响溜槽的磨损。该软件还用于模拟溜槽上巨石的流动，并在仰角为24.4°时实现了496吨/小时(t/h)的加速流速。

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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Tribology and Materials

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