Porous Materials and Ceramics
Ceramics exhibit very strong solid ionic or potentially covalent holding (more grounded than the metallic bond) and this gives the properties regularly connected with pottery: high hardness, high compressive quality, low warm and electrical conductivity and substance latency.
This solid holding additionally represents the less alluring properties of earthenware production, for example, low malleability and low rigidity. The more extensive scope of properties, be that as it may, isn't broadly valued. For instance, while pottery is seen as electrical and warm covers, artistic oxides (at first dependent on Y-Ba-Cu-O) are the reason for high temperature superconductivity. Precious stone, beryllium and silicon carbide have a higher warm conductivity than aluminum or copper.
Related Conference of Porous Materials and Ceramics
23rd International Conference and Exhibition on Materials Science and Chemistry
32nd International Conference on Advanced Materials, Nanotechnology and Engineering
Porous Materials and Ceramics Conference Speakers
Recommended Sessions
- Advanced Materials and Research
- Biological Materials and Biomaterials
- Carbon, Diamond and Fullerenes
- Electrical, optical and magnetic materials
- Electronic and Magnetic materials
- Hierarchical Materials
- Light Emitting Materials
- Magnetic and Energy Materials
- Materials & Alloys
- Materials Chemistry
- Nano composites, Nanotubes, Nanowires and Nanoparticles
- Optics, Lasers, Photonics and Sensors
- Polymer Science and Polymer Chemistry
- Polymers Science
- Porous Materials and Ceramics
- Science and Technology of Advanced Materials
- Semiconductors and Superconductors
- Smart Materials
- Thermoelectric
Related Journals
Are you interested in
- Carbon Nanostructures and Graphene - Materials Chemistry 2025 (France)
- Ceramics in Materials Science - Materials Chemistry 2025 (France)
- Chemical Engineering - Materials Chemistry 2025 (France)
- Fracture, Fatigue and Failure of Materials - Materials Chemistry 2025 (France)
- Industrial applications of crystallization - Materials Chemistry 2025 (France)
- Materials Science and Chemistry - Materials Chemistry 2025 (France)
- Mineralogy - Materials Chemistry 2025 (France)
- Nano pharmaceuticals - Materials Chemistry 2025 (France)
- Nanodentistry - Materials Chemistry 2025 (France)
- Nanotechnology Applications - Materials Chemistry 2025 (France)
- Photonic and Optical Materials - Materials Chemistry 2025 (France)
- Polymer Science and Applications - Materials Chemistry 2025 (France)
- Science and Technology of Advanced Materials - Materials Chemistry 2025 (France)
- Solid-State Chemistry and Physics - Materials Chemistry 2025 (France)
- Tissue Engineering - Materials Chemistry 2025 (France)