Fangming Zhou, Jing Li, Donghao Xu, Mingxiao Shi. Interface microstructure and properties of submerged arc brazing tin-based babbit[J]. CHINA WELDING, 2019, 28(2): 45-49. DOI: 10.12073/j.cw.20190308001
Citation: Fangming Zhou, Jing Li, Donghao Xu, Mingxiao Shi. Interface microstructure and properties of submerged arc brazing tin-based babbit[J]. CHINA WELDING, 2019, 28(2): 45-49. DOI: 10.12073/j.cw.20190308001

Interface microstructure and properties of submerged arc brazing tin-based babbit

  • The submerged arc brazing method was used to connect the tin-based babbit alloy with the steel matrix. The microstructure of the submerged arc brazed Babbitt interface layer on the surface of Q235B steel was analyzed by OM, SEM and EDS and the hardness properties of the joint interface layer were tested by MH-5 microhardness tester. the result of research shows that a layer of canine-shaped intermetallic compound with uneven thickness is formed at the interface, and the thickness is 10 – 20 μm. The interface layer includes two kinds of compound layers, namely the FeSn layer near the side of the steel substrate and FeSn2 layer near the side of the babbit. During the interfacial reaction process, Fe atoms in the steel matrix dissolve into the liquid babbit alloy and form a certain concentration gradient at the interface. The farther from the interface, the lower the Fe atom concentration. The growth of Gibbs free energy of FeSn is lower when the temperature is above 780.15 K, and the temperature during the welding process is much higher than 780.15 K, moreover the precipitation temperature of FeSn is higher. Therefore, in the subsequent cooling process, FeSn is first precipitated from the interface near the side of steel matrix and then FeSn2 is precipitated from the interface near the side of babbit alloy. Microhardness test showed that the intermetallic compound at the interface layer significantly improved the hardness properties.
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