Microstructure and Wear Performance of High Volume Fraction Carbide M7C3 Reinforced Fe-based Composite Coating Fabricated by Plasma Transferred Arc Welding
来源期刊:Journal Of Wuhan University Of Technology Materials Science Edition2014年第5期
论文作者:袁有录 李铸国
文章页码:1028 - 1035
摘 要:The fabrication of high volume fraction(HVF) M7C3(M=Cr, Fe) reinforced Fe-based composite coating on ASTM A36 steel plate using plasma transferred arc(PTA) welding was studied. The results showed that the volume fraction of carbide M7C3 was more than sixty percent, and the relative wear resistance of the coating tested on a block-on-ring dry sliding tester at constant load(100 N) and variable loads(from 100 to 300 N) respectively was about 9 and 14 times higher than that of non-reinforced α-Fe coating. In addition, under constant load condition the friction coefficients(FCs) of two coatings increased first and then decreased with increasing sliding distance. However, under variable loads condition the FCs of non-reinforced α-Fe based coating increased gradually, while that of HVF M7C3 reinforced coating decreased as the load exceeded 220 N. The worn surface of non-reinforced α-Fe based coating was easily deformed and grooved, while that of the HVF M7C3 reinforced coating was difficult to be deformed and grooved.
袁有录1,2,李铸国2
1. School of Materials Science and Engineering, Hubei University of Automotive Technology2. Shanghai Key Laboratory of Materials Laser Processing and Modifi cation, School of Materials Science and Engineering, Shanghai Jiaotong University
摘 要:The fabrication of high volume fraction(HVF) M7C3(M=Cr, Fe) reinforced Fe-based composite coating on ASTM A36 steel plate using plasma transferred arc(PTA) welding was studied. The results showed that the volume fraction of carbide M7C3 was more than sixty percent, and the relative wear resistance of the coating tested on a block-on-ring dry sliding tester at constant load(100 N) and variable loads(from 100 to 300 N) respectively was about 9 and 14 times higher than that of non-reinforced α-Fe coating. In addition, under constant load condition the friction coefficients(FCs) of two coatings increased first and then decreased with increasing sliding distance. However, under variable loads condition the FCs of non-reinforced α-Fe based coating increased gradually, while that of HVF M7C3 reinforced coating decreased as the load exceeded 220 N. The worn surface of non-reinforced α-Fe based coating was easily deformed and grooved, while that of the HVF M7C3 reinforced coating was difficult to be deformed and grooved.
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