Microstructure and mechanical strength of diffusion bonded joints between silicon carbide and F82H steel

Abstract

The combination of SiC and reduced activation ferritic/martensitic steels is attractive for fusion applications because it is expected to offer high thermal efficiency, high reliability and superior safety characteristic under a neutron irradiation environment. In this paper, diffusion bonding of SiC to F82H steel has been investigated. Direct joining of SiC to F82H was unsuccessful due to a large residual stress generated in the joint. A double W/Cu and a multiple W/Ni/Cu/Ni interlayer were used to reduce the residual stress, and encouraging results were obtained. The interfacial microstructure examination revealed that the various interfaces were bonded well. Diffusion products in the reaction zones were identified. The shear strength of the SiC/F82H joints measured by knife-edge tests at room temperature was found to increase with the increase in the joining temperature, and reached a maximum of 41.3MPa. The fracture surfaces of the joints were also analyzed.