Investigation of microstructure evolution and strength mechanism of the Cu coated BNi-7 core-shell structure filler metal

Tan, J. F.; Wan, Min; Han, Wen-fen; Zhao, Rui; Kang, Hui; Qu, Peng; Liang, S.-S.

doi:10.1016/j.intermet.2021.107438

Intermetallics

2022

DOI: 10.1016/j.intermet.2021.107438

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Investigation of microstructure evolution and strength mechanism of the Cu coated BNi-7 core-shell structure filler metal

J. F. Tan

Min Wan

Wen-fen Han

et al.

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2024

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Performance of the GH4169 Joint Using a Novel Ni-Based Amorphous Brazing Filler Metal

Yang,

Zhu,

Huang

et al. 2024

Metals

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A novel Ni-Cr-Si-B filler metal (JNi-5) was designed and further fabricated into the amorphous brazing filler metal for joining the GH4169 alloy. The effect of brazing temperature on the microstructure and mechanical properties of GH4169 joints was investigated. The typical microstructure of the joint at 1030 °C is composed of four specific zones: the base metal (BM), heat-affected zone (HAZ), isothermal solidification zone (ISZ), and athermal solidification zone (ASZ). The typical microstructure of the joint is GH4169/(Nb, Mo)-rich boride+(Cr, Nb, Mo)-rich boride/γ(Ni)/Ni-rich boride+γ(Ni)/γ(Ni)/(Cr, Nb, Mo)-rich boride+(Nb, Mo)-rich boride/GH4169. As the temperature increased, the HAZ continued to widen and the ASZ depleted at 1090 °C and 1120 °C. Additionally, the borides within the HAZ coarsened at temperatures of 1090 °C and 1120 °C. At 1030 °C, the fracture path is in the ASZ, and the existence of the brittle phase in the ASZ provides the potential origin for crack growth. The fracture mode is a quasi-cleavage fracture. At 1060 °C, 1090 °C, and 1120 °C, the fracture behavior mainly happened in the HAZ, and the existence of borides in the HAZ provides the potential origin for crack growth. Namely, the shear strength of joints was principally dominated by the brittle precipitations in the HAZ. The fracture mode of these joints is the hybrid ductile. At 1060 °C, the shear strength of the obtained joint is the highest value (693.78 MPa) due to the volume fraction increase in the Ni-based solid solution. Finally, the optimized brazing parameter of 1060 °C/10 min was determined, and the corresponding highest shear strength of 693.78 MPa was obtained owing to the increased content of the Ni-based solid solution in the joint.

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Performance of the GH4169 Joint Using a Novel Ni-Based Amorphous Brazing Filler Metal

Yang,

Zhu,

Huang

et al. 2024

Metals

View full text Add to dashboard Cite

show abstract

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Investigation of microstructure evolution and strength mechanism of the Cu coated BNi-7 core-shell structure filler metal

Cited by 1 publication

References 44 publications

Performance of the GH4169 Joint Using a Novel Ni-Based Amorphous Brazing Filler Metal

Performance of the GH4169 Joint Using a Novel Ni-Based Amorphous Brazing Filler Metal

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