Download This PaperHigh-Temperature Tribological Properties of Fe50mn25cr5al15ti5 Iron-Based High-Entropy Alloys
24 Pages Posted: 12 Oct 2024
Abstract
The iron-based high-entropy alloys are poised to become the next generation of high-temperature materials due to their outstanding mechanical properties and cost-effectiveness. In this work, the microstructure, mechanical properties, and tribological behaviors of Fe50Mn25Cr5Al15Ti5 iron-based high-entropy alloys are investigated. The grain morphology of Fe50Mn25Cr5Al15Ti5 alloy is equiaxed and dominated by BCC structure. Fe50Mn25Cr5Al15Ti5 alloy has higher hardness, better resistance to high-temperature softening and superior wear resistance than Hadfield steel (40Mn18Cr3). Within 800°C, wear rate remains a low order of 10-5 mm3/Nm. At room temperature, abrasive wear is the dominant mechanism. At 400 °C, non-dense oxide layer containing unoxidized metal is formed, resulting in delamination, adhesion and abrasion. At 800 °C, a dense wear-resistant oxide glaze layer covers the wear surface.
Keywords: Iron-based high-entropy alloys, Tribological properties, high temperature, Wear mechanism
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