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Śliwiński, Piotr
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Topics
Publications (8/8 displayed)
- 2024Electron beam hardening of nanobainitic steelcitations
- 2024Copper Beam Electron Alloying with Ti Powder
- 2022Ni–Cr Powders Modified with Rhenium as a Novel Coating Material—Physical Properties, Microstructure, and Behavior in Plasma Plumecitations
- 2022Electron Beam Surface Hardeningcitations
- 2021Study of microstructure geometry and properties of laser beam welded joints made of S960QL structural steel and S304 corrosion-resistant steelcitations
- 2021Semi-Hybrid CO2 Laser Metal Deposition Method with Inter Substrate Buffer Zonecitations
- 2021Electron Beam Brazing of Austenitic Stainless Steel AISI 304citations
- 2021Electron Beam Melting of Thermally Sprayed Layers – Overview
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article
Copper Beam Electron Alloying with Ti Powder
Abstract
<jats:p>The paper presents the effect of electron beam alloying on the surface of a copper flat bar (M1Ez4) with titanium powder. Due to the quality of the surface after alloying and the obtained properties, the parameters used were given which met the assumed conditions to the greatest extent. The microstructure and mechanical properties as well as the chemical composition of surface-modified electron-beam copper show improved mechanical properties, i.e. hardness and abrasion resistance. This article uses research techniques using scanning electron microscopy and analysis of chemical composition in micro-areas (EDS). In order to examine the properties of the material after electron beam modification, hardness measurements were performed at low loads (HV0.1), abrasion resistance was tested, and conductivity was also measured. As a result of modifying the chemical and phase composition of M1E copper using an electron beam, the hardness increased by 46%, while the conductivity decreased by 16% due to the formation of intermetallic phases during solidification.</jats:p>