Add to ORKGAn experience on a simple process for producing alumina-rutile-mullite ceramic foams by using aqueous particulate slurries is proposed. The sintering process is achieved in one unique thermal process at 1200 ºC in air. The description of the process, physical properties and morphological studies are reported. Microstructure is studied by using confocal optical microscopic technique. The highly active porous foam structure of this ceramic material produced according to the low-cost process presented here could extend its use in a broad range of applications, such as catalytic, biomedical scaffolds, filtering, etc.Peer Reviewe
The aim of this work was to fabricate Porous Alumina ceramics direct foaming method using Amphipathi...
<div><p>In this work, ceramic shell (mullite source), an industrial solid waste from the lost-wax ca...
Porous alumina can be used as a synthetic bone scaffold in tissue engineering. Using a direct foamin...
ABSTRACT: In recent years, a new class of ceramic foams with porosity levels up to 95 % has been pro...
International audienceIn this work, foams were obtained by direct foaming of aqueous alumina suspens...
Porous ceramic materials are of considerable interest for a variety of chemical and industrial appli...
Light weight refractory materials were developed applying the aerated concrete technology. Kaolinite...
The preparation and properties of novel zirconia, alumina and kaolin based tough refractory foam cer...
A new protein foaming-consolidation method for preparing porous alumina was developed using egg yolk...
This paper proposes an economical thermal cycle of the production of ceramic articles from submicron...
Abstract The porous ceramics based on Al2O3–TiO2/ZrO2–SiO2 from particle-stabilized wet foam by dire...
Ceramic foams have an interesting combination of properties, such as low weight, high temperature s...
This paper proposes an economical thermal cycle of the production of ceramic articles from submicron...
Engineering applications of ceramic foams Nature offers several examples of cellular materials, suc...
Ceramic foams constructed by aqueous-based foam templating have demonstrated great potential in indu...
The aim of this work was to fabricate Porous Alumina ceramics direct foaming method using Amphipathi...
<div><p>In this work, ceramic shell (mullite source), an industrial solid waste from the lost-wax ca...
Porous alumina can be used as a synthetic bone scaffold in tissue engineering. Using a direct foamin...
ABSTRACT: In recent years, a new class of ceramic foams with porosity levels up to 95 % has been pro...
International audienceIn this work, foams were obtained by direct foaming of aqueous alumina suspens...
Porous ceramic materials are of considerable interest for a variety of chemical and industrial appli...
Light weight refractory materials were developed applying the aerated concrete technology. Kaolinite...
The preparation and properties of novel zirconia, alumina and kaolin based tough refractory foam cer...
A new protein foaming-consolidation method for preparing porous alumina was developed using egg yolk...
This paper proposes an economical thermal cycle of the production of ceramic articles from submicron...
Abstract The porous ceramics based on Al2O3–TiO2/ZrO2–SiO2 from particle-stabilized wet foam by dire...
Ceramic foams have an interesting combination of properties, such as low weight, high temperature s...
This paper proposes an economical thermal cycle of the production of ceramic articles from submicron...
Engineering applications of ceramic foams Nature offers several examples of cellular materials, suc...
Ceramic foams constructed by aqueous-based foam templating have demonstrated great potential in indu...
The aim of this work was to fabricate Porous Alumina ceramics direct foaming method using Amphipathi...
<div><p>In this work, ceramic shell (mullite source), an industrial solid waste from the lost-wax ca...
Porous alumina can be used as a synthetic bone scaffold in tissue engineering. Using a direct foamin...