钎焊
刚玉
材料科学
莫来石
微观结构
冶金
接头(建筑物)
合金
陶瓷
机制(生物学)
复合材料
结构工程
工程类
认识论
哲学
作者
Mingyuan Zhao,Sujuan Zhong,Jian Qin,Wei Dong
标识
DOI:10.1002/adem.202402651
摘要
The corundum–mullite ceramic and Mo are successfully joined using AgCuTi filler metal via vacuum brazing. This article investigates the effects of brazing temperature and holding time on the microstructure and mechanical properties of the brazed joints. The interface phase composition of brazed joints includes TiO/Ti 3 (Cu,Al) 3 O, Cu(s.s), Ag(s.s), and amorphous Ag–Mo. The TiO phase is first formed on the ceramic base material side, and the continuous diffusion of Ti and Cu from the filler alloy toward the ceramic side promotes the transformation of the TiO phase into Ti 3 (Cu,Al) 3 O. An increase in brazing temperature facilitates the metallurgical bonding between the base material and the filler metal, and the homogenization of Ag(s.s) and Cu(s.s) phases in the central region of the brazed joint improves. The holding time significantly affects the interdiffusion and dissolution between the base material and the filler metal. Prolonging the holding time enhances the dissolution and diffusion of the filler metal, gradually increasing the thickness of the brazed seam. Under the brazing conditions of 870 °C and a holding time of 30 min, the brazed joint achieves a maximum shear strength of 65.7 MPa.
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