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LI XUEYI1,* , FU HANGUANG2, KUANG JIACAI3, WANG JINTAO4
Effect of Ti Ce Mg compound modification on microstructures, mechanical property and wear resistance of cast Fe-B-C alloy containing 0.25%C, 1.80%B, 0.40%Si, 0.60%Mn an d 0.80%Cr has been investigated by optical microscopy (OM), scanning electron microscopy (SEM), and X ray diffraction (XRD) analysis, hardness test, impact test and wear test. The results indicate that the solidification microstructures of Fe-B-C alloy con sist of Fe 2 (B, C), Fe 3 (C, B), pearlite, and ferrite. Fe2 (B, C) type borocarbide is continuously distributed over the grain boundary After modification by Ti-Ce-Mg, solidification microstructures of Fe-B-C alloy are obviously refined and there are many obvi ous necking and broken net in borocarbides. The hardness of modified Fe-B-C alloy has no obvious change comparing with that of unmodified Fe-B-C alloy. Ti-Ce-Mg compound modification can considerably improve impact toughness and wear resistance of cast Fe-B- C alloy..
Fe-B-C alloy, Ti-Ce-Mg compound modification, Solidification microstructure, Borocarbide, Mechanical property, Wear resistance.
LI XUEYI, FU HANGUANG, KUANG JIACAI, WANG JINTAO, A study of microstructure and property of Fe-B-C alloy modified by Ti-Ce-Mg, Optoelectronics and Advanced Materials - Rapid Communications, 8, 7-8, July-August 2014, pp.713-719 (2014).
Submitted at: Feb. 19, 2013
Accepted at: July 10, 2014
Optoelectronics and Advanced Materials - Rapid Communications
(2022): 0.5 - 2022 Journal Citation Reports (Clarivate Analytics, 2023)
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