Ren, XuepingUniversity of Science and Technology Beijing
Author
Li, ShuxiaBeijing Aeronautical Manufacturing Technology Research Institute
Author
Xiong, ZhipingUCLouvain
Author
Abstract
In order to satisfy the requirement of different corrosion resistances in the same application, superplastic diffusion bonding at 1100 °C between expensive Cr30Ni7Mo3MnSi (SAE 2906, having higher corrosion resistance) and cheap Cr22Ni5Mo3MnSi (SAE 2205, having lower corrosion resistance) duplex stainless steels was systematically studied using a Gleeble-1500 thermo-mechanical simulator. The joint shear strength rapidly increased with an increase in holding time and pressure and then slowly increased when the holding time and pressure reached 5 min and 10 MPa, respectively. This increased strength was due to the void shrinkage and grain boundary migration across bonding interface. Post-solution at 1100 °C for 10 min significantly increased the joint shear strength up to 808 MPa, which was higher than 740 MPa of the base steel. It was ascribed to the dissolution of σ phase and further void shrinkage by volume diffusion. However, post-solution at 1050 °C deteriorated the bonding strength due to σ phase precipitation, while post-solution above 1100 °C also slowly reduced the bonding strength predominantly because of a decrease in the austenite fraction.
Ren, X., Li, S., & Xiong, Z. (2018). Isostatic diffusion bonding and post-solution treatment between Cr22Ni5Mo3MnSi and Cr30Ni7Mo3MnSi duplex stainless steels. Journal of Manufacturing Processes, 34, 215-224. https://doi.org/10.1016/j.jmapro.2018.06.010 (Original work published 2018)