金属基复合材料制造的创新加工路线

J. Ružić, M. Šimic, N. Stoimenov, D. Božić, J. Stašić
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引用次数: 3

摘要

金属基复合材料(MMCs)由于其优异的工艺、机械和物理性能,如优异的耐磨损和耐腐蚀性能、高导电性和导热性、提高的强度和硬度,属于一组现代材料。复合材料的最终性能受到其制造过程中所有步骤的同等影响。结果表明,通过使用适当的工艺参数来获得起始材料(达到特定的尺寸、形状和反应性),可以实现增强剂在基体中的体积分数和分布的控制。为此,机械合金化被认为是一种很好的方法。mmc可以使用粉末冶金、铸锭冶金和增材制造技术生产。将高能球磨与这些技术相结合,可以为mmc制造设计创新的加工路线。机械化学过程(实现使用高能球磨)在三个制造程序:热压,复合,激光熔化/烧结,以获得合适的粉末。这些生产路线的mmc制造是本工作的主题。mmc设计的目的是建立一个最佳的生产技术组合,并将其合并到具有成本效益的制造路线中,以获得具有所需性能的mmc。
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Innovative processing routes in manufacturing of metal matrix composite materials
Metal matrix composites (MMCs) belong to a group of modern materials owing to their excellent technological, mechanical, and physical properties such as excellent wear and corrosion resistance, high electrical and thermal conductivity, improved strength and hardness. Final properties of MMCs are affected equally by all steps of its manufacturing process. It is shown that by using adequate process parameters to obtain starting materials (reaching the specific size, shape, and reactivity) the control of volume fraction and distribution of reinforcements within the matrix can be achieved. For this purpose, mechanical alloying has been appointed as a good approach. MMCs can be produced using powder metallurgy, ingot metallurgy, and additive manufacturing techniques. Combining high-energy ball milling with these techniques enables the design of an innovative processing route for MMCs manufacturing. Mechanochemical process (achieved using high-energy ball milling) was employed in three manufacturing procedures: hot pressing, compocasting, and laser melting/sintering for obtaining of the suitable powder. These production routes for MMCs manufacturing were the subject of this work. The aim of MMCs design is to establish an optimal combination of production techniques merged into the cost-effective fabrication route for obtaining MMCs with required properties.
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