Design guidelines for titania-silica-alumina ceramics with tuned anatase to rutile transformationFeltrin, J; De Noni, A; Hotza, D; Frade, JR 2019, CERAMICS INTERNATIONAL, 45, 5, 5179-5188.
|
Highly-porous mayenite-based ceramics by combined suspension emulsification and reactive sinteringBaptista, M; Kovalevsky, AV; Sarabando, AR; Ferro, MC; Capela, I; Frade, JR 2019, MATERIALS LETTERS, 237, 41-44.
|
Design of aluminamonoliths by emulsion-gel casting: Understanding the monolith structure from a rheological approachNayak, N; Vitorino, N; Frade, JR; Kovalevsky, AV; Alves, VD; Crespo, JG; Portugal, CAM 2018, MATERIALS & DESIGN, 157, 119-129.
|
Processing of highly-porous cellular iron oxide-based ceramics by emulsification of ceramic suspensionsLopes, DV; Kovalevsky, AV; Quina, MJ; Frade, JR 2018, CERAMICS INTERNATIONAL, 44, 16, 20354-20360.
|
Low-cost catalysts for in-situ improvement of producer gas quality during direct gasification of biomassPio, DT; Tarelho, LAC; Pinto, RG; Matos, MAA; Frade, JR; Yaremchenko, A; Mishra, GS; Pinto, PCR 2018, ENERGY, 165, 442-454.
|
Exploring the effects of silica and zirconia additives on electrical and redox properties of ferrospinelsFerreira, NM; Ferro, MC; Fagg, DP; Costa, FM; Frade, JR; Kovalevsky, AV 2017, JOURNAL OF THE EUROPEAN CERAMIC SOCIETY, 37, 7, 2621-2628.
|
Design of NiAl2O4 cellular monoliths for catalytic applicationsVitorino, NMD; Kovalevsky, AV; Ferro, MC; Abrantes, JCC; Frade, JR 2017, MATERIALS & DESIGN, 117, 332-337.
|
Flexible design of cellular Al2TiO5 and Al2TiO5-Al2O3 composite monoliths by reactive firingLalli, E; Vitorino, NMD; Portugal, CAM; Crespo, JG; Boi, C; Frade, JR; Kovalevsky, AV 2017, MATERIALS & DESIGN, 131, 92-101.
|
Self-functionalization of cellular alumina monoliths in hydrothermal conditionsVitorino, NMD; Kovalevsky, AV; Azevedo, MCC; Abrantes, JCC; Frade, JR 2016, JOURNAL OF THE EUROPEAN CERAMIC SOCIETY, 36, 4, 1053-1058.
|
|
|