Transient liquid phase bonding of carbon steel tubes using a Cu interlayer: Characterization and comparison with amorphous Fe–B–Si interlayer bonds

“…The temperature at the joint was raised to T P = 1300 °C, held constant for t H = 7 min, and then was cooled in still air to room temperature. For further details see Di Luozzo et al [15,17].…”

“…TLP bonding of hot-rolled carbon seamless steel tubes with Cu interlayers were carried out by Di Luozzo et al [15]. Tensile tests show that the joined tubes failed away from the joint, attaining almost the ultimate tensile strength of the base metal with a minimal t H -7 min.…”

Effective diffusion coefficient for Cu in steel joined by transient liquid phase bonding

“…The temperature at the joint was raised to T P = 1300 °C, held constant for t H = 7 min, and then was cooled in still air to room temperature. For further details see Di Luozzo et al [15,17].…”

“…TLP bonding of hot-rolled carbon seamless steel tubes with Cu interlayers were carried out by Di Luozzo et al [15]. Tensile tests show that the joined tubes failed away from the joint, attaining almost the ultimate tensile strength of the base metal with a minimal t H -7 min.…”

Effective diffusion coefficient for Cu in steel joined by transient liquid phase bonding

“…Regarding microstructure characterization, TLP-bonded seamless carbon steel tubes -both hot-rolled and cold-rolled -were extensively studied for a variety of filler materials: Fe-B [13] and Fe-Si-B [14] [15] amorphous metallic foils, and pure Cu foils [15] [16]. In addition, tensile tests showed that the joined tubes failed away from the joint, attaining almost the ultimate tensile strength (UTS) of the base metal when Fe-Si-B and Cu foils were used.…”

Transient liquid phase bonding of carbon steel components using Ni-based foils – A comprehensive joint characterization

Microstructural evolutions and mechanical properties of TLP-bonded WC-Co/St52 with copper interlayer