Add to ORKGAlumina was joined with alumina using microwave-assisted and conventional brazing methods at 960 (a similar to) C for 15 min using TiCuSil (68.8Ag-26.7Cu-4.5Ti in wt.%) as the brazing alloy. The brazed joints were characterized by X-ray diffraction, scanning electron microscopy, energy dispersive X-ray analysis, Vickers microhardness evaluation, brazing strength measurement and helium leak test. X-ray diffraction analysis confirmed the formation of Ti-based compounds at the substrate-filler alloy interfaces of the microwave and conventionally brazed joints. The elemental compositions at the joint cross-section were determined by energy dispersive X-ray analysis. Vickers microhardness measurement indicated reliable joint performance for the ...
It is the metallographic study of brazed joint between the pure alumina with alloyed Titanium (up to...
Microwave heating leads to generation of an inverted temperature profile and provides selective heat...
Sintered Al2O3 is brazed with 304 stainless steel (SS) using 97(Ag28Cu)3Ti active filler alloy at 10...
Alumina-zirconia joint was fabricated by microwave-assisted brazing technique at 980 degrees C for 1...
Microwave-assisted reactive brazing technique was utilized for joining of alumina ceramics at 950 de...
The present investigation demonstrated the comparative studies on interfacial joint strength of the ...
High strength, hermetic braze joints between ceramic components have been produced using high energy...
The purpose of this project is to develop and extend the electron beam joining process to applicatio...
Active metal brazing of alumina with alumina, graphite and monel 404 superalloy was performed at 910...
This thesis was submitted for the award of Doctor of Philosophy and was awarded by Brunel University...
Brazing is a process to join metallic and non-metallic materials, without any melting or plastic sta...
Ceramic/metal brazing can be carried out either directly using active metal filler alloys or indirec...
AbstractBrazing of ceramic and metal components is an emerging manufacturing technology in which a f...
Nickel titanium (NiTi) plate of 1.2 mm thickness was successfully clad on AISI 316L stainless steel ...
A brazing process based on Ni-Mo alloy was developed to join porous tungsten cathode bottom and dens...
It is the metallographic study of brazed joint between the pure alumina with alloyed Titanium (up to...
Microwave heating leads to generation of an inverted temperature profile and provides selective heat...
Sintered Al2O3 is brazed with 304 stainless steel (SS) using 97(Ag28Cu)3Ti active filler alloy at 10...
Alumina-zirconia joint was fabricated by microwave-assisted brazing technique at 980 degrees C for 1...
Microwave-assisted reactive brazing technique was utilized for joining of alumina ceramics at 950 de...
The present investigation demonstrated the comparative studies on interfacial joint strength of the ...
High strength, hermetic braze joints between ceramic components have been produced using high energy...
The purpose of this project is to develop and extend the electron beam joining process to applicatio...
Active metal brazing of alumina with alumina, graphite and monel 404 superalloy was performed at 910...
This thesis was submitted for the award of Doctor of Philosophy and was awarded by Brunel University...
Brazing is a process to join metallic and non-metallic materials, without any melting or plastic sta...
Ceramic/metal brazing can be carried out either directly using active metal filler alloys or indirec...
AbstractBrazing of ceramic and metal components is an emerging manufacturing technology in which a f...
Nickel titanium (NiTi) plate of 1.2 mm thickness was successfully clad on AISI 316L stainless steel ...
A brazing process based on Ni-Mo alloy was developed to join porous tungsten cathode bottom and dens...
It is the metallographic study of brazed joint between the pure alumina with alloyed Titanium (up to...
Microwave heating leads to generation of an inverted temperature profile and provides selective heat...
Sintered Al2O3 is brazed with 304 stainless steel (SS) using 97(Ag28Cu)3Ti active filler alloy at 10...