Add to ORKGThe major issues involved in tlze design of brazing alloys for joining ceramics are presented. The results of wetting tests on silicon nitride reveal that titanium and zirconium are promising reactive metal additions to these alloys. Results of microstructural analysis, SEM, and electron microprobe analysis of the wetted samples are also presented
Ceramic materials are widely used for extreme temperature conditions. The sucessful integration of c...
The production of important components like first walls of thermonuclear power reactors, advanced au...
The addition of titanium to eutectic braze compositions causes these alloys to readily wet and bond ...
Brazing has been increasingly used to join metals to advanced ceramics. Brazing covalent materials r...
Contact angle measurements on silicon-nitride substrates were conducted on tin-based alloys, contain...
Three different approaches for metal to ceramic brazing are compared using the example of Si3N4/TiN-...
Active metal brazing of Inconel and titanium to turbine grade silicon nitride, widely acknowledged t...
The evolution of advanced ceramic materials over the past two decades has not been matched by improv...
Shapal!-M machinable AlN-based ceramic and AISI 304 stainless steel were joined by active metal braz...
Advanced ceramic is usually joined to metal by the well-known direct brazing process, where costly a...
The aim of this work is to study the effect of time and brazing temperature on the interfacial micro...
Vacuum brazing was used to prep. silicon nitride-metal joints for service temps. exceeding 1000 DegC...
Vacuum brazing was used to prep. silicon nitride-metal joints for service temps. exceeding 1000 DegC...
In this paper, a study is presented on the wettability of ZrB 2 ceramics (pure ZrB 2 and ZrB 2-SiC c...
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...
The production of important components like first walls of thermonuclear power reactors, advanced au...
The addition of titanium to eutectic braze compositions causes these alloys to readily wet and bond ...
Brazing has been increasingly used to join metals to advanced ceramics. Brazing covalent materials r...
Contact angle measurements on silicon-nitride substrates were conducted on tin-based alloys, contain...
Three different approaches for metal to ceramic brazing are compared using the example of Si3N4/TiN-...
Active metal brazing of Inconel and titanium to turbine grade silicon nitride, widely acknowledged t...
The evolution of advanced ceramic materials over the past two decades has not been matched by improv...
Shapal!-M machinable AlN-based ceramic and AISI 304 stainless steel were joined by active metal braz...
Advanced ceramic is usually joined to metal by the well-known direct brazing process, where costly a...
The aim of this work is to study the effect of time and brazing temperature on the interfacial micro...
Vacuum brazing was used to prep. silicon nitride-metal joints for service temps. exceeding 1000 DegC...
Vacuum brazing was used to prep. silicon nitride-metal joints for service temps. exceeding 1000 DegC...
In this paper, a study is presented on the wettability of ZrB 2 ceramics (pure ZrB 2 and ZrB 2-SiC c...
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...
The production of important components like first walls of thermonuclear power reactors, advanced au...
The addition of titanium to eutectic braze compositions causes these alloys to readily wet and bond ...