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Iron and Bronze Powdered Based Materials for Bearings with Surface Modified with Solid Lubricant Nanoparticles

机译:固体润滑剂纳米粒子表面改性的轴承的铁和青铜粉末基材料

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摘要

In the recent years, a growth of demand for various types of self-lubricating elements of machines has been observed. A lot of parts are manufactured with the use of a powder metallurgy method. The Metal Forming Institute (INOP) in Poznan developed a modern technology, designed and made a tool for compaction of powdered parts with complex shapes and high density. The technology is being realised with a large scale equipment, which performs the forging and sizing of the sintered performs. The present work describes development of manufacturing technology and determination of mechanical and tribological properties of nanocomposites for self-lubricating bearings with a very low friction coefficient. It is envisaged to use particulate materials which consist of nano-and microparticles of solid lubricant. The study conducted aims at definition of a relationship between the microstructure and tribological properties of materials modified with solid lubricant MoS2 nanoparticles dispersed in a technological oil. INOPa€?s technology of nanoparticles manufacturing by RCT method (Rolling Cleavage Technology) results in that top layer of the porous bearing is modified with the nanoparticles. These layers are characterised by a low friction coefficient and considerably longer period of use. It should be noted that the stainless steel and bronze powders materials used have a good corrosion resistance. Production of the sintered bearings will disseminate the market especially in automotive and aircraft industries.
机译:近年来,已经观察到对各种类型的机器的自润滑元件的需求的增长。许多零件都是使用粉末冶金法制造的。波兹南金属成型研究所(INOP)开发了现代技术,设计并制造了用于压实形状复杂且密度高的粉末零件的工具。该技术正在用大型设备实现,该设备执行烧结坯的锻造和定型。本工作描述了制造技术的发展以及纳米复合材料的机械和摩擦学性能的测定,这些复合材料用于摩擦系数非常低的自润滑轴承。设想使用由固体润滑剂的纳米颗粒和微粒组成的颗粒材料。进行的研究旨在确定用分散在工业用油中的固体润滑剂MoS2纳米颗粒改性的材料的微观结构与摩擦性能之间的关系。 INOPa通过RCT方法制造纳米颗粒的技术(滚动裂解技术)导致多孔轴承的顶层被纳米颗粒改性。这些层的特征在于低摩擦系数和相当长的使用时间。应当指出,所用的不锈钢和青铜粉材料具有良好的耐腐蚀性。烧结轴承的生产将在市场上尤其是汽车和飞机行业中普及。

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