Add to ORKGAdditive manufacturing via direct ink writing and microwave dielectric characterisation of commercially produced low sintering temperature bismuth molybdenum oxide ceramics, have been both performed for the first time, following a powder-to-product holistic approach. We demonstrated that direct ink writing is an excellent candidate for producing dielectric substrates to be used for wireless telecommunication applications operating at microwave (MW) frequencies, with great repeatability and properties comparable to ceramics fabricated via conventional processing routes. The optimum density (relative density of ρr ≈ 93%) of the 3D printed test samples was obtained by sintering at 660 °C for 2 hours, resulting in a relative permittivity εr = 3...
A temperature-stable, ultra-high permittivity dielectric ceramic, based on CTLNT, has been successfu...
Multi-material metal/ceramic 3D structures comprising of metallic silver and ultra-low sintering tem...
Printing methods such as additive manufacturing (AM) and direct writing (DW) for radio frequency (RF...
Additive manufacturing via direct ink writing and microwave dielectric characterisation of commercia...
Low sintering temperature, ultra-low loss microwave ceramics are envisaged as future dielectrics for...
Ultra-low sintering temperature silver molybdenum oxide (Ag2Mo2O7) ceramics have been printed using ...
Low sintering temperature, ultra-low loss microwave ceramics are envisaged as future dielectrics for...
Additive manufacturing (AM) of co-fired low temperature ceramics offers a unique route for fabricati...
Supplementary Information Files for ' Multi-material additive manufacturing of low sintering tempera...
BaTiO3 based multilayer ceramic capacitor (MLCC) is an important component in electronic devices. Ac...
Ultra-low sintering temperature silver molybdenum oxide (Ag2Mo2O7) ceramics have been printed using ...
Two methods of dielectric characterization are presented that offer quick and cost-effective solutio...
Abstract The explosive process of 5G communication evokes the urgent demand of miniaturized and inte...
Abstract This paper presents the extraction of microwave properties of low-temperature cured inorga...
This paper describes a study of rapid microwave sintering of zinc-oxide based varistor ceramics unde...
A temperature-stable, ultra-high permittivity dielectric ceramic, based on CTLNT, has been successfu...
Multi-material metal/ceramic 3D structures comprising of metallic silver and ultra-low sintering tem...
Printing methods such as additive manufacturing (AM) and direct writing (DW) for radio frequency (RF...
Additive manufacturing via direct ink writing and microwave dielectric characterisation of commercia...
Low sintering temperature, ultra-low loss microwave ceramics are envisaged as future dielectrics for...
Ultra-low sintering temperature silver molybdenum oxide (Ag2Mo2O7) ceramics have been printed using ...
Low sintering temperature, ultra-low loss microwave ceramics are envisaged as future dielectrics for...
Additive manufacturing (AM) of co-fired low temperature ceramics offers a unique route for fabricati...
Supplementary Information Files for ' Multi-material additive manufacturing of low sintering tempera...
BaTiO3 based multilayer ceramic capacitor (MLCC) is an important component in electronic devices. Ac...
Ultra-low sintering temperature silver molybdenum oxide (Ag2Mo2O7) ceramics have been printed using ...
Two methods of dielectric characterization are presented that offer quick and cost-effective solutio...
Abstract The explosive process of 5G communication evokes the urgent demand of miniaturized and inte...
Abstract This paper presents the extraction of microwave properties of low-temperature cured inorga...
This paper describes a study of rapid microwave sintering of zinc-oxide based varistor ceramics unde...
A temperature-stable, ultra-high permittivity dielectric ceramic, based on CTLNT, has been successfu...
Multi-material metal/ceramic 3D structures comprising of metallic silver and ultra-low sintering tem...
Printing methods such as additive manufacturing (AM) and direct writing (DW) for radio frequency (RF...