THE FUNCTIONAL DEPENDENCE OF THE 3D PRINTED PARTS BY THEIR TRIBOLOGICAL AND THERMAL CHARACTERISTICS

International Journal of Manufacturing Economics and Management Pub Date : 2022-12-20 DOI:10.54684/ijmem.2022.2.2.48

S. Mazurchevici, D. Mindru, C. Cărăușu

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Abstract

The popularity of bio - based thermoplastic materials with applications in a variety of industries, including consumer goods, automotive, medical equipment, and so on, has grown significantly in recent years. This increase in the market for biodegradable materials is closely related to the growing concerns of both users and industry, especially in relation to replacing the conventional or non-biodegradable polymeric products on a widespread scale. This study examined the tribological performance (friction coefficient) and wear of biodegradable polymers PLA, HD PLA Green, and Impact PLA Gray in various meteorological testing conditions on a simulation stand that replicate the operation mode of worm-worm wheel assembly as part of the drive mechanism of car wipers. The Impact PLA Gray sample had the greatest average value of a wear coefficient and wear resisting during simulation and best on testing. The lowest performance has been recorded by the PLA sample because its melting temperature is the lowest, thus affecting its resistance to friction and wear. Regarding the possibility of practical use of the worm wheel in the proposed assembly, it is recommended only to use at negative temperatures, below -10°C.

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3d打印部件的摩擦学和热特性对其功能的依赖性

近年来，生物基热塑性材料在消费品、汽车、医疗设备等各种行业的应用得到了显著的发展。可生物降解材料市场的增加与用户和工业日益关注的问题密切相关，特别是在广泛取代传统或不可生物降解的聚合物产品方面。本研究在模拟平台上测试了可生物降解聚合物PLA、HD PLA Green和Impact PLA Gray在各种气象测试条件下的摩擦学性能(摩擦系数)和磨损，该模拟平台复制了作为汽车雨刷驱动机构一部分的蠕虫-蜗轮组件的运行模式。冲击聚乳酸灰色试样的磨损系数和耐磨性的平均值在模拟时最大，在测试时最好。PLA样品的性能最低，因为它的熔化温度最低，从而影响了它的耐摩擦和耐磨性。关于蜗轮在建议装配中实际使用的可能性，建议仅在负温度下使用，低于-10°C。

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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International Journal of Manufacturing Economics and Management

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