Abstract
Casted composite materials have found application in various branches of industrial production. However, there are still a number of problems related to the choice of optimal technology for their synthesis and the solution of which will help to achieve in practice high level of properties predicted by the theory and provide the control of interfacial interactions to enhance the stability of the structure and properties of composites. There is s need in additional research related to the development of new types of reinforcing elements, which will provide the raise in the level of performance of the composite. It is established that an important role plays not only the type of the matrix but also the chemical composition and microstructure of the reinforcing material. This would require research on optimization of technology for production of composite materials during the solid-liquid synthesis. The paper presents generalized results of experimental studies of peculiarities during the formation of composite materials on the basis of bronze and iron granules with the use of high-speed induction melting. As reinforcing phase iron granules DCHL with a diameter of about 1 mm were used.
Highlights
Литые композиционные материалы нашли применение в различных отраслях промышленного производства [1,2,3]
Проведенные исследования позволили определить режимы синтеза износостойкого композиционного материала с макрогетерогенной структурой для подшипников скольжения, который характеризуется высокими физико-механические и триботехническими свойствами при работе в условиях удельных нагрузок до 450 МПа
Summary
Литые композиционные материалы нашли применение в различных отраслях промышленного производства [1,2,3]. Casted composite materials have found application in various branches of industrial production. It is established that an important role plays the type of the matrix and the chemical composition and microstructure of the reinforcing material. This would require research on optimization of technology for production of composite materials during the solid-liquid synthesis.
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