钎焊
材料科学
微观结构
冶金
陶瓷
铜
合金
复合材料
作者
Bao‐Jhen Li,Ben Liu,Yong Wang,Ruoqi Hu,Ying Wang,Zhenwen Yang
摘要
Abstract Reliable metallurgical bonding between Al 2 O 3 ceramic and copper was achieved by vacuum brazing using Ag–23Cu–14.5In–3.3Ti (wt.%) alloy. The representative interfacial structure of the joint was Al 2 O 3 /Ti 3 (Cu,Al) 3 O + γ‐TiO/Ag‐based solid solution + (Cu,Ag) 7 In 3 + Ag–Cu eutectic + Cu‐based solid solution/copper. The interface microstructure evolved with process parameters, including the formation of γ‐TiO and Ti 3 (Cu,Al) 3 O, as evidenced by microstructural analysis and etched surface morphology. The relationship between fracture path and shear strength was established by observing the fracture morphology and performing shear strength tests on joints with various process parameters, utilizing the degree of the Ag‐based solid solution loss and the thickness of the reaction layer as evaluative factors. When brazed at 760 or 780°C for 20 min using a 100 µm brazing alloy foil, the brazed joints demonstrated a peak shear strength of 215 ± 25 MPa, and the fracture predominantly occurred in the Al 2 O 3 matrix and Ti 3 (Cu,Al) 3 O layer.
科研通智能强力驱动
Strongly Powered by AbleSci AI