Effect of Ti Cr filler on microstructure, mechanical properties, and thermal shock resistance of TZM/graphite brazed joints

“…Joining of Mo to W and to graphite has been carried out by diffusion bonding or brazing. [ 9–13 ] Wei et al carried out Mo alloy/graphite diffusion bonding with a Zr interlayer at 1800 °C and a pressure of 3 MPa. [ 9 ] The microstructural characterization revealed that the bonding area of the joint was mainly composed of Mo 2 Zr, ZrC, and (Zr, Mo)(ss) (solid solution).…”

“…The joint interface microstructure was Mo alloy/Ti–Mo(Cr)/Ti–Cr(Mo)/TiC/Cr 3 C 2 /graphite. [ 12 ] In addition, Dong et al investigated Mo/graphite joining by vacuum arc pressure brazing with Ti–Zr filler at the pressure of 0.5–1 MPa and reported the joint shear strength of 15.2 MPa. [ 13 ]…”

“…Although the study of Mo/W and Mo/graphite brazing has been carried out by many researchers, there are still some problems. For example, the brazing temperature used in Mo/W and Mo/graphite brazing is quite high (1400 °C for Ni–Mo filler, 1610 °C for Pd foil, 1400 °C for Ti–Zr–Nb–Be filler, 1300–1700 °C for Ti–56Ni, Ti‐–8.5Si, Ti–33Cr, and Ti–30V–3Mo fillers, 1420–1510 °C for Ti–40Cr filler), [ 7,8,10–12 ] which may lead to high energy consumption and high cost. In addition, the use of relatively high pressure in brazing (0.5–1 MPa for pressure brazing) may cause the complexity of processing.…”

Microstructural and Mechanical Characterizations of Mo/W and Mo/Graphite Joints with BNi2 Paste

“…Joining of Mo to W and to graphite has been carried out by diffusion bonding or brazing. [ 9–13 ] Wei et al carried out Mo alloy/graphite diffusion bonding with a Zr interlayer at 1800 °C and a pressure of 3 MPa. [ 9 ] The microstructural characterization revealed that the bonding area of the joint was mainly composed of Mo 2 Zr, ZrC, and (Zr, Mo)(ss) (solid solution).…”

“…The joint interface microstructure was Mo alloy/Ti–Mo(Cr)/Ti–Cr(Mo)/TiC/Cr 3 C 2 /graphite. [ 12 ] In addition, Dong et al investigated Mo/graphite joining by vacuum arc pressure brazing with Ti–Zr filler at the pressure of 0.5–1 MPa and reported the joint shear strength of 15.2 MPa. [ 13 ]…”

“…Although the study of Mo/W and Mo/graphite brazing has been carried out by many researchers, there are still some problems. For example, the brazing temperature used in Mo/W and Mo/graphite brazing is quite high (1400 °C for Ni–Mo filler, 1610 °C for Pd foil, 1400 °C for Ti–Zr–Nb–Be filler, 1300–1700 °C for Ti–56Ni, Ti‐–8.5Si, Ti–33Cr, and Ti–30V–3Mo fillers, 1420–1510 °C for Ti–40Cr filler), [ 7,8,10–12 ] which may lead to high energy consumption and high cost. In addition, the use of relatively high pressure in brazing (0.5–1 MPa for pressure brazing) may cause the complexity of processing.…”

Microstructural and Mechanical Characterizations of Mo/W and Mo/Graphite Joints with BNi2 Paste

Enhanced mechanical properties of TZM joint brazed at high temperature using Mo-Ni filler metal with Boron addition