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Effect of brazing parameters on microstructure and

Feb 24, 2021 · Dong HG, Yang ZL, Yang GS, Dong C (2013) Vacuum brazing of TiAl alloy to 40Cr steel with Ti 60 Ni 22 Cu 10 Zr 8 alloy foil as filler metal. Mater Sci Eng A 561:252258. Google Scholar 25. Shiue RK, Wu SK, Chen SY (2003) Infrared brazing of TiAl intermetallic using BAg-8 braze alloy. Acta Mater 51:19912004. Google Scholar Materials Free Full-Text Microstructure and In the brazing joint between titanium alloy and stainless steel, a lot of Fe-Ti intermetallic compounds (IMCs) can be easily formed to make joints crack. A lap resistance brazing process with metal powder layers on both sides of the filler metal was used to solve this problem. The microstructure and metallurgical behavior of joints was studied through comparative experiments.

Microstructure and mechanical properties of TiC/Ti matrix

Aug 27, 2019 · Ti-48Al-2Cr-2Nb and TiC/Ti matrix composites were successfully joined using Ti-28Ni eutectic filler metal at different brazing temperatures. Microstructure and mechanical properties of the joints were systematically studied. The results showed that the joints all showed integral interfaces and the microstructures of the joints for 980 °C/15 min were detected as Ti-48Al-2Cr-2Nb/2-Ti3Al + 3 Microstructure evolution of TC4 titanium alloy/316L Jan 29, 2019 · Dong HG, Yang ZL, Yang GS, Dong C (2013) Vacuum brazing of TiAl alloy to 40Cr steel with Ti60Ni22Cu10Zr8 alloy foil as filler metal. Mat Sci Eng A 561:252258. Article Google Scholar 21. Vacuum Brazing of Stainless Steel Depending on the Surface DOI:10.24425/AMM.2019.126210 Corpus ID:197607665. Vacuum Brazing of Stainless Steel Depending on the Surface Preparation Method and Temperature of the Process @article{Hebda2019VacuumBO, title={Vacuum Brazing of Stainless Steel Depending on the Surface Preparation Method and Temperature of the Process}, author={M. Hebda and P. Kaczor and K.

Vacuum brazing of Ti6Al4V alloy to 316L stainless steel

Abstract The effect of brazing parameters on the interfacial microstructure and mechanical properties of Ti6Al4V titanium alloy/316 L stainless steel brazed joint was investigated. The joint presented sectionalized interfacial microstructure by forming four reaction zones. The diffusion of Cu and Fe into Ti6Al4V titanium alloy substrate caused -Ti transformation and its dissolution.Microstructure and mechanical properties of friction reached 320 MPa. DONG et al [5] conducted vacuum brazing of TiAl alloy to 40Cr steel with Ti60Ni22Cu10Zr8 alloy foil and found that the composition of the filler and effective diffusion between the filler and base metals can both affect the shear strength of the joint. MORIZONO et al [6] carried out diffusion bonding