Abstract
The article presents the results of X-ray spectral analysis of sintered products made of electroerosive materials of the BrS30 alloy obtained in lighting kerosene. It is shown that during uniaxial pressing and sintering in an argon atmosphere of electroerosive materials of the BrS30 alloy, the main elements on the surface of sintered products are carbon, copper, and lead.
Highlights
Bronze is widely used in modern mechanical engineering, rocketry, aviation, shipbuilding and other industries
The aim of the work was to carry out X-ray spectral analysis of sintered samples from electroerosive materials of BrS30 alloy obtained in lighting kerosene
Lighting kerosene is used as a working fluid
Summary
Bronze is widely used in modern mechanical engineering, rocketry, aviation, shipbuilding and other industries. Due to their resistance to mechanical abrasion and high corrosion resistance, bronze products are used for the manufacture of machine parts and devices that participate in moving units in the friction process. Lead bronze has excellent antifriction properties, withstands shock loads well, and is characterized by high strength and refractoriness. Bronzes have been widely used as components of powder antifriction materials or thin-walled porous coatings impregnated with solid lubricants [1]. To develop technologies for the practical application of powder materials obtained from lead bronze waste and to assess the effectiveness of their use, it is necessary to carry out comprehensive theoretical and experimental studies.
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