Powder Metallurgy: Enhancing Mechanical Properties Across Materials
Received Date: Nov 03, 2025 / Published Date: Dec 01, 2025
Abstract
This compilation of research explores the diverse applications and advancements in powder metallurgy (PM). Studies demonstrate PM’s efficacy in enhancing fatigue crack growth behavior in high-entropy alloys, improving tensile properties of additively manu- factured titanium alloys, and boosting wear resistance in ceramic-metal composites. Furthermore, PM facilitates the development of advanced steels, porous metallic materials, and functional composites by enabling control over microstructure and mechanical prop- erties through optimized processing parameters. The research covers a range of materials including cemented carbides, aluminum alloys, and superalloys, underscoring PM’s critical role in fabricating components for demanding applications across aerospace, biomedical, and structural industries.
Citation: Papadopoulos G (2025) Powder Metallurgy: Enhancing Mechanical Properties Across Materials. jpmm 14: 506.
Copyright: 漏 2025 George Papadopoulos This is an open-access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution and reproduction in any medium, provided the original author and source are credited.
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