Study on bonding properties between arc surfacing layers and 1045 steel substrate using pull-lift test method

¹ College of Materials Science and Engineering, Jilin University, Changchun, China 130022
² Full BOSCH Automotive Parts (Changchun) Co., Ltd., Changchun, China 130012
³ Engineering Training and Teaching Center, Northeast Electric Power University, Jilin, China 132012

^* Corresponding author: zhangxinge@jlu.edu.cn

Abstract

Three kinds of surfacing layers of the austenitic steel, niobium alloyed steel and hypereutectic high chromium alloyed cast iron were prepared on 1045 steel substrate by arc surfacing process with self-shielding flux-cored wires. The bonding strength between surfacing layers and the substrate was tested by pull-lift test method. The experimental results show that the bonding strength between austenitic steel surfacing layer and the substrate is the highest up to 549.1 MPa, and the fracture location is near the fusion line with quasi-cleavage fracture characteristic. The bonding strength between the surfacing layer of niobium alloyed steel and the substrate is 314.4 MPa and the fracture mainly occurred at the bottom of the surfacing layer, which also presents quasi-cleavage characteristic. While the bonding strength between hypereutectic high chromium alloyed cast iron surfacing layer and the substrate is as low as 170.7 MPa and the specimen ruptures along the fusion line with brittle fracture characteristic. The bonding properties between surfacing layers and the substrate are directly related to the compositions and microstructures near the fusion line.