Add to ORKGReactive air brazing (RAB) is a promising technology to join metals and ceramics in air. RAB brazes in the Ag-CuO-system can be used to seal electrochemical devices like solid oxide fuel cells (SOFC). The present study focuses on the development of interfacial layers between RAB brazes and the metallic component of metalceramic-joints during thermal treatment at high temperatures. Special interest is paid on the CuO content of the RAB brazes and the type of the metallic alloy. It can be shown that certain components of the alloys and also the content of the active CuO phase in the RAB braze are responsible for the evaluation of the microstructure at the interfaces. Independent of the amount of CuO in the braze, samples brazed with the Mn co...
In this paper, a novel 95Ag-2.5Ge-2.5Si (in wt %) filler is utilized for brazing yttria-stabilized z...
The BMW Group and partners are developing a solid oxid fuell cell (SOFC) as an auxiliary power unit ...
A metal ceramic bonding process was developed to produce vacuum tight alumina Inconel 600 joints usi...
Ceramic insulation layers in combination with air braze filler metals were investigated as material ...
Development of planar solid oxide fuel cell systems for automotive application is mostly driven by l...
The microstructure evolution dependent deformation and damage mechanisms of reactive air brazed meta...
The mechanical integrity of solid oxide fuel cells (SOFC) and the long-term stability underoperating...
The development of high-temperature electrochemical devices such as oxygen and hydrogen separators, ...
One of the key requirements for the application of planar solid oxide fuel cells is the hermetical s...
Reactive air brazing (RAB) has been developed as a method to join ceramics and steel, using CuO as a...
Recently there has been a great deal of interest in research development and commercialization of so...
The goals of this project are to develop a Reactive Air Brazing (RAB) alloy and process for joining ...
Solid oxide fuel cells (SOFC) consist of ceramic and metallic components which have to be joined and...
Reactive air brazing has been widely used in fabricating solid oxide fuel/electrolysis cell (SOFC/SO...
Fracture mechanics experiments are carried out to characterize the fracture energy of the joints bef...
In this paper, a novel 95Ag-2.5Ge-2.5Si (in wt %) filler is utilized for brazing yttria-stabilized z...
The BMW Group and partners are developing a solid oxid fuell cell (SOFC) as an auxiliary power unit ...
A metal ceramic bonding process was developed to produce vacuum tight alumina Inconel 600 joints usi...
Ceramic insulation layers in combination with air braze filler metals were investigated as material ...
Development of planar solid oxide fuel cell systems for automotive application is mostly driven by l...
The microstructure evolution dependent deformation and damage mechanisms of reactive air brazed meta...
The mechanical integrity of solid oxide fuel cells (SOFC) and the long-term stability underoperating...
The development of high-temperature electrochemical devices such as oxygen and hydrogen separators, ...
One of the key requirements for the application of planar solid oxide fuel cells is the hermetical s...
Reactive air brazing (RAB) has been developed as a method to join ceramics and steel, using CuO as a...
Recently there has been a great deal of interest in research development and commercialization of so...
The goals of this project are to develop a Reactive Air Brazing (RAB) alloy and process for joining ...
Solid oxide fuel cells (SOFC) consist of ceramic and metallic components which have to be joined and...
Reactive air brazing has been widely used in fabricating solid oxide fuel/electrolysis cell (SOFC/SO...
Fracture mechanics experiments are carried out to characterize the fracture energy of the joints bef...
In this paper, a novel 95Ag-2.5Ge-2.5Si (in wt %) filler is utilized for brazing yttria-stabilized z...
The BMW Group and partners are developing a solid oxid fuell cell (SOFC) as an auxiliary power unit ...
A metal ceramic bonding process was developed to produce vacuum tight alumina Inconel 600 joints usi...