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Evaluation on diffusion bonded joints of TiAl alloy to Ti3SiC2 ceramic with and without Ni interlayer: Interfacial microstructure and mechanical properties
Highlights TiAl intermetallics and Ti3SiC2 ceramic were diffusion bonded. Interfacial microstructure of the diffusion bonded joints was investigated. Joining properties of the diffusion bonded joints were improved by using Ni foil as interlayer. The highest shear strength of 52.3MPa was achieved by the joints bonded at 950°C for 60min.
Abstract Diffusion bonding of TiAl alloys and Ti3SiC2 ceramics were carried out in a vacuum atmosphere. The microstructures and mechanical properties of the bonded joints were investigated. Results showed that three coherent intermetallic layers formed in the TiAl/Ti3SiC2 joints during bonding process. The compound layer adjacent to Ti3SiC2 substrate was indicated to be Ti5Si3, in which brittle fracture of the joints took place during shear strength test. The properties of diffusion bonded joints were greatly improved attributed to the formation of a good transition in the joint as well as the relief of the residual stress when using Ni foil as interlayer. Formation mechanisms of the compound layers during bonding process were discussed. Shear test results showed that the maximum shear strength reached 52.3MPa. Corresponding fractograph indicated that the crack mainly propagated along Ti3SiC2 substrate adjacent to the bonding zone, accompanied with an intergranular and transgranular fracture mode.
Evaluation on diffusion bonded joints of TiAl alloy to Ti3SiC2 ceramic with and without Ni interlayer: Interfacial microstructure and mechanical properties
Highlights TiAl intermetallics and Ti3SiC2 ceramic were diffusion bonded. Interfacial microstructure of the diffusion bonded joints was investigated. Joining properties of the diffusion bonded joints were improved by using Ni foil as interlayer. The highest shear strength of 52.3MPa was achieved by the joints bonded at 950°C for 60min.
Abstract Diffusion bonding of TiAl alloys and Ti3SiC2 ceramics were carried out in a vacuum atmosphere. The microstructures and mechanical properties of the bonded joints were investigated. Results showed that three coherent intermetallic layers formed in the TiAl/Ti3SiC2 joints during bonding process. The compound layer adjacent to Ti3SiC2 substrate was indicated to be Ti5Si3, in which brittle fracture of the joints took place during shear strength test. The properties of diffusion bonded joints were greatly improved attributed to the formation of a good transition in the joint as well as the relief of the residual stress when using Ni foil as interlayer. Formation mechanisms of the compound layers during bonding process were discussed. Shear test results showed that the maximum shear strength reached 52.3MPa. Corresponding fractograph indicated that the crack mainly propagated along Ti3SiC2 substrate adjacent to the bonding zone, accompanied with an intergranular and transgranular fracture mode.
Evaluation on diffusion bonded joints of TiAl alloy to Ti3SiC2 ceramic with and without Ni interlayer: Interfacial microstructure and mechanical properties
Liu, Jiakun (author) / Cao, Jian (author) / Song, Xiaoguo (author) / Wang, Yifeng (author) / Feng, Jicai (author)
2014-01-10
6 pages
Article (Journal)
Electronic Resource
English
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