Interface Characteristics of GCr15/45 Carbon Steel Composite Billet Produced by Electroslag Remelting Cladding

Abstract

In the present study, a GCr15/45 carbon steel composite billet is manufactured by the new electroslag remelting cladding (ESRC) method and a systematic analysis of the interface characteristics including the bonding state, element transition, microstructure evolution and tensile strength is carried out. It illustrates that an appropriate smelting power is beneficial to obtain a metallurgical bonding interface. Based on the temperature variation characteristics of the composite system, the bonding state of the bimetals (interface) changes gradually from entrapped slag defect to metallurgical bonding at the early stage of ESRC process, and the widths of elements transition and heat-affected zone (HAZ) become proportional to the composite height. It has an obvious influence on the grain size and precipitated phase at bimetallic interface. Tensile test results on both as-cast and annealed samples prove that the bimetallic interface is not the weakest zone as the fracture occurred at the roll core (45 carbon steel) side. In addition, an appropriate isothermal spheroidization annealing treatment is beneficial to refine the austenite grains and optimize the microstructure of the composite billet.

A composite billet is manufactured by the new electroslag remelting cladding (ESRC) technology and a systematic analysis of the bimetallic interface characteristics is carried out in the present study. As the temperature of the composite system increases with the increase of composite height, a better surface quality of the cladding layer is obtained and the bonding stage of the bimetallic interface changes gradually from entrapped slag defect to metallurgical bonding at the early stage of ESRC process. Then, the cladding process of the bimetals reaches a basically steady state, as a result, a uniform bonding interface with no inclusions, shrinkages and cracks between the bimetals and a certain width of heat affected zone are obtained.