Search
Now showing items 1-8 of 8
The effect of interlayer thickness, bonding temperature and atmosphere on transient liquid phase bonding of GTD-111 to FSX-414
when transient liquid phase bonding was done in non-vacuum atmospheres. The peak hardness in diffusion affected zones remained even when isothermal solidification was completed. The maximum shear strength of 412 MPa was achieved for a specimen...
Influence of the Substrate Orientation on the Isothermal Solidification during TLP Bonding Single Crystal Superalloys
Effect of bonding time and homogenization heat treatment on the microstructure and mechanical properties of the transient liquid phase bonded dissimilar GTD-111/FSX-414 TLP superalloys
Dissimilar transient liquid phase joints were fabricated between Ni-based GTD-111 and Co-based FSX-414 superalloys using a 50mm thick amorphous NieSieB interlayer. The athermally solidified zone in the
middle of joint contained the ternary...
The role of TLP process variables in improvement of microstructure and mechanical properties in TLP joints of GTD-111/Ni-Cr-Fe-B-Si/GTD-111 system
In this research microstructure and mechanical properties of the transient liquid phase (TLP) joint of GTD-111 superalloy using Ni-7.6Cr-3.4Fe-3.6Si-3B amorphous interlayer were investigated. The effect of joining parameters such as temperature...
Transient liquid phase bonding in the Cu-Sn system
This paper aims to study the features of microstructures and mechanical properties of the joints which were produced by transient liquid phase method. The difference between phases in bonding region identified through metallography pictures...