Microstructure and Strength of Alumina-Metal Joint Brazed by Activated Molybdenum–Manganese Method

Abstract: High purity alumina/stainless steel joints were produced via activated molybdenummanganese (Mo-Mn) route using 72Ag-28Cu solder. Microstructures of the metallized ceramic and joint sections were observed by scanning electron microscopy. Joint strength was tested by shear-loading method. Some process factors were characterized and analyzed, which include temperature, holding time and heating and cooling rate in ceramic metallization process. The effects of Ni plating and succedent annealing were also investigat… Show more

“…Prior to this test, the sample was brazed to a copper-alloy bar. Both f and t before and after metallization were measured according to Ref [31].…”

“…The activated Mo-Mn method is widely used at industrial scale for ceramic metallizing due to its high efficiency and reliability [19]. The process mainly includes the following two steps [20].…”

Influence of ceramic substrate porosity and glass phase content on the microstructure and mechanical properties of metallized ceramics via an activated Mo-Mn method

“…Prior to this test, the sample was brazed to a copper-alloy bar. Both f and t before and after metallization were measured according to Ref [31].…”

“…The activated Mo-Mn method is widely used at industrial scale for ceramic metallizing due to its high efficiency and reliability [19]. The process mainly includes the following two steps [20].…”

Influence of ceramic substrate porosity and glass phase content on the microstructure and mechanical properties of metallized ceramics via an activated Mo-Mn method

Brazing Al2O3 to 4J42 using Ag–Cu–Ti/Cu/BNi-2 composite fillers with different thicknesses of Cu interlayer

Characterization of Vacuum Brazing of SS 304 and Alumina Ceramic with Active Brazing Alloy