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Article

Study on the Layered Structure of Ceramic-Side Bonding Area and the Mechanical Property of Al2O3–Kovar Brazed Joint with Ag-Cu-Ti Filler

1
State Key Laboratory of Clean and Efficient Turbomachinery Power Equipment, Department of Mechanical Engineering, Tsinghua University, Beijing 100084, China
2
Vicvac Electronics Technology Co., Ltd., Changzhou 213018, China
*
Authors to whom correspondence should be addressed.
J. Manuf. Mater. Process. 2025, 9(11), 355; https://doi.org/10.3390/jmmp9110355
Submission received: 19 September 2025 / Revised: 23 October 2025 / Accepted: 27 October 2025 / Published: 29 October 2025
(This article belongs to the Special Issue Advances in Welding Technology: 2nd Edition)

Abstract

During active brazing of alumina ceramics, active elements react with the ceramic to form a reaction layer, which has significant influence on the mechanical property of the brazed joint. However, the composition and formation mechanism of this layer remain unclear among researchers. To fill this gap, different brazing temperatures (900–1100 °C) and heating rates (2.5 °C/min and 10 °C/min) were used to braze 95% Al2O3 ceramics and a Kovar 4J34 alloy using a Ag-Cu-2Ti active brazing filler, and the microstructure and mechanical properties of the joints were investigated. The results show that the joint could be divided into five layers: Al2O3, ceramic-side reaction layer, filler layer, Kovar-side reaction layer, and Kovar. The ceramic-side reaction layer could be further divided into a Ti-O-rich layer and an intermetallics (IMC)-rich layer, and the Kovar-side reaction layer consists of TiFe2 particles, Ag-Cu eutectic, and the remaining Kovar. A belt-like TiFe2+TiNi3 IMC could be found in the filler layer. Increasing the brazing temperature enlarged the belt-like TiFe2+TiNi3 IMC in the filler layer and increased the thickness of the IMC-rich layer in the ceramic-side reaction layer, but had no significant effect on the thickness of the Ti-O-rich layer in the ceramic-side reaction layer. A lower heating rate (2.5 °C/min) was found to suppress the formation of the IMC-rich layer and shift the fracture location in shear tests from the ceramic-side reaction layer to the filler layer, indicating that the strength of the ceramic-side reaction layer was enhanced by controlling the formation of the IMC-rich layer. A maximum shear strength of 170 ± 61 MPa was obtained at a heating rate of 2.5 °C/min and a brazing temperature of 940 °C.
Keywords: brazing; alumina; Kovar alloy; microstructure evolution; mechanical properties brazing; alumina; Kovar alloy; microstructure evolution; mechanical properties

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MDPI and ACS Style

Qi, J.; Du, D.; Zhang, D.; Xue, S.; Zhang, J.; Yi, J.; You, H.; Chang, B. Study on the Layered Structure of Ceramic-Side Bonding Area and the Mechanical Property of Al2O3–Kovar Brazed Joint with Ag-Cu-Ti Filler. J. Manuf. Mater. Process. 2025, 9, 355. https://doi.org/10.3390/jmmp9110355

AMA Style

Qi J, Du D, Zhang D, Xue S, Zhang J, Yi J, You H, Chang B. Study on the Layered Structure of Ceramic-Side Bonding Area and the Mechanical Property of Al2O3–Kovar Brazed Joint with Ag-Cu-Ti Filler. Journal of Manufacturing and Materials Processing. 2025; 9(11):355. https://doi.org/10.3390/jmmp9110355

Chicago/Turabian Style

Qi, Junjie, Dong Du, Dongqi Zhang, Shuai Xue, Jiaming Zhang, Jiamin Yi, Haifei You, and Baohua Chang. 2025. "Study on the Layered Structure of Ceramic-Side Bonding Area and the Mechanical Property of Al2O3–Kovar Brazed Joint with Ag-Cu-Ti Filler" Journal of Manufacturing and Materials Processing 9, no. 11: 355. https://doi.org/10.3390/jmmp9110355

APA Style

Qi, J., Du, D., Zhang, D., Xue, S., Zhang, J., Yi, J., You, H., & Chang, B. (2025). Study on the Layered Structure of Ceramic-Side Bonding Area and the Mechanical Property of Al2O3–Kovar Brazed Joint with Ag-Cu-Ti Filler. Journal of Manufacturing and Materials Processing, 9(11), 355. https://doi.org/10.3390/jmmp9110355

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