Add to ORKGA series of experiments has been carried out on the direct brazing of metals and nonmetallic materials by a new, simple technique using brazing alloys of active metals, such as zirconium, titanium, tantalum, and colum-bium. Such materials as diamond, sapphire, carbides, various ceramics
Ceramic/metal brazing can be carried out either directly using active metal filler alloys or indirec...
Brazing fillers for joining applications are essential for manufacturing and designing advanced mate...
This study was carried out to develop the flux and filler metals that enabled brazing a magnesium al...
Bibliography: p. 10.Army Signal Corps Contract no. W36-039-sc-32037, Project no. 102B. Dept. of the ...
Brazing processes offer enhanced control, adaptability and cost-efficiency in the joining of materia...
This final year project is to test and study a new material to be used for brazing metal pieces toge...
In the last 50 years, brazing of titanium and/or titanium alloys has been studied and a number of fi...
The major issues involved in tlze design of brazing alloys for joining ceramics are presented. The r...
Brazing two refractory metals by diffusion bonding minimizes distortion and avoids excessive grain g...
The production of important components like first walls of thermonuclear power reactors, advanced au...
Ceramic materials are widely used for extreme temperature conditions. The sucessful integration of c...
Advanced ceramic is usually joined to metal by the well-known direct brazing process, where costly a...
The research began with a survey of methods used in the brazing of different metals taking 1965 as a...
Brazing alloys such as 48 Ti-48 Zr-4 Be (wt%) and 49 Ti-49 Cu-2 Be (wt%) have been found to readily ...
Brazing has been increasingly used to join metals to advanced ceramics. Brazing covalent materials r...
Ceramic/metal brazing can be carried out either directly using active metal filler alloys or indirec...
Brazing fillers for joining applications are essential for manufacturing and designing advanced mate...
This study was carried out to develop the flux and filler metals that enabled brazing a magnesium al...
Bibliography: p. 10.Army Signal Corps Contract no. W36-039-sc-32037, Project no. 102B. Dept. of the ...
Brazing processes offer enhanced control, adaptability and cost-efficiency in the joining of materia...
This final year project is to test and study a new material to be used for brazing metal pieces toge...
In the last 50 years, brazing of titanium and/or titanium alloys has been studied and a number of fi...
The major issues involved in tlze design of brazing alloys for joining ceramics are presented. The r...
Brazing two refractory metals by diffusion bonding minimizes distortion and avoids excessive grain g...
The production of important components like first walls of thermonuclear power reactors, advanced au...
Ceramic materials are widely used for extreme temperature conditions. The sucessful integration of c...
Advanced ceramic is usually joined to metal by the well-known direct brazing process, where costly a...
The research began with a survey of methods used in the brazing of different metals taking 1965 as a...
Brazing alloys such as 48 Ti-48 Zr-4 Be (wt%) and 49 Ti-49 Cu-2 Be (wt%) have been found to readily ...
Brazing has been increasingly used to join metals to advanced ceramics. Brazing covalent materials r...
Ceramic/metal brazing can be carried out either directly using active metal filler alloys or indirec...
Brazing fillers for joining applications are essential for manufacturing and designing advanced mate...
This study was carried out to develop the flux and filler metals that enabled brazing a magnesium al...