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Effect of ambient temperature on microstructure and properties of Fe3Al intermetallic compound porous materials |
YANG Junjun1,ZHANG Yu1,LIU Guanying1,2,GUO Huijin1,PING Shaobo1,2,JI Liqiang1,2,3 |
(1. AT&M Environmental engineering technology Co., LTD, Beijing 100081, China; 2. Central Iron and Steel
Research Institute Co., Ltd., Beijing 100081, China; 3. University of Science and Technology Beijing 100083,
China) |
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Abstract Fe3Al porous metal filter element is especially suitable for precision filtration and gas-solid separation
under high-temperature high-pressure and corrosive environment. In order to meet the usage requirements of the
filter element, in addition to considering its pore characteristics, its mechanical properties are also crucial. Fe3Al
intermetallic compounds porous materials were prepared by powder metallurgy technology in this paper. The
effects of ambient temperature on the pore characteristics, , mechanical properties and microstructure of the
porous materials were studied by XRD, SEM, pore structure and mechanical properties. It shall provide a reliable
basis for the use of Fe3Al porous materials at high temperature. The experimental results show that Fe3Al porous
materials have good tensile strength and permeability properties at medium and high temperature. The tensile
strength reaches the maximum at 300 ℃ and then decreases with the increase of temperature, and decreases obviously
when the temperature is higher than 700 ℃. The fracture belongs to brittle fracture. The order degree of the
Fe3Al intermetallic compounds porous materials changes with the increase of temperature.
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Received: 31 January 2024
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