M. Salmaliyan scite author profile

In this research, the relationship among TLP bonding microstructures, mechanical properties and fracture mechanism of IN 718 / BNi-2 /AISI 316L joint was studied. In the first step, by changing TLP variables e.g. time and bonding temperature in the range 30-60 min and 950-1050 0 C respectively, characteristics of each type of microstructures including formation of destructive phases and homogeneity of microstructures were studied. In the second step, in order to investigate the mechanical properties and their fracture surface morphology, hardness and shear tests were accomplished. In the next stage, based on diffusion behavior of alloying elements, the relationship among microstructure, mechanical properties and fracture mechanism was studied. Results show that microstructures of bonding region were classified in three types. Type I: solid state bonding microstructure, Type II: Athermalisothermal solidification microstructure, and Type III: isothermal solidification microstructure. It was observed that for each specific microstructure, there is one fracture mechanism or there are more that are dimples fracture resulting from precipitations within matrix, quasi-cleavage fracture resulting from dual microstructure of eutecticisothermal solidification and dimple-tearing fracture resulting from tiny precipitations within bonding region.

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Formation mechanism of intermetallic components during dissimilar diffusion bonding of IN718/BNi-2/AISI 316 L by TLP process

Salmaliyan

Shamanian

2019

Heat Mass Transfer

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Effect of Ti Powders Addition on Mechanical and Metallurgical Properties of IN718/BNi-2/316L Diffusion Couple

Salmaliyan

Shamanian

2020

Trans Indian Inst Met

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Multicomponent Diffusion Studies in Selected High Temperature for IN718/BNi-2/316L Diffusion Couple

Salmaliyan

Shamanian

Shafyei

2020

Trans Indian Inst Met

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M. Salmaliyan

Effect of electro spark deposition process parameters on WC-Co coating on H13 steel

Microstructure and Mechanical Characterization Study in the IN718/BNi-2/316L Joint by Transient Liquid Phase Bonding Process

Formation mechanism of intermetallic components during dissimilar diffusion bonding of IN718/BNi-2/AISI 316 L by TLP process

Effect of Ti Powders Addition on Mechanical and Metallurgical Properties of IN718/BNi-2/316L Diffusion Couple

Multicomponent Diffusion Studies in Selected High Temperature for IN718/BNi-2/316L Diffusion Couple

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