スポンサーリンク
Ceramic Society of Japan | 論文
- Microstructural control of porous Al2TiO5 by using potato starch as pore-forming agent
- Microstructure and mechanical properties of MgO-doped Al2TiO5 prepared by reactive sintering
- Development of a synchrotron powder diffractometer with a one-dimensional X-ray detector for analysis of advanced materials (Feature : Science and Technology for Advanced Sustainable Ceramics)
- Dynamic adsorption and desorption behavior of protein on carbonate-containing apatite
- AAO-template assisted synthesis and size control of one-dimensional TiO2 nanomaterials
- The research of crystal structure and electrical properties of a new electrolyte material : Scandia and Holmia stabilized Zirconia
- Structural investigation of magnetocapacitive SmMnO₃ (Feature : Science and Technology for Advanced Sustainable Ceramics)
- Preparation of a porous magnetic filter for O₂ gas concentration (Feature : Science and Technology for Advanced Sustainable Ceramics)
- Stress state analysis of stress engineered BaTiO₃ thin film by LaNiO₃ bottom electrode (Feature : Science and Technology for Advanced Sustainable Ceramics)
- Joining of alumina by using polymer blend method
- A comparative analysis of piezoelectric transducers for harvesting energy from asphalt pavement
- Browning of bismuth borate glass by heat treatment under vacuum
- The 65th CerSJ Awards for Advancements in Ceramic Science and Technology : Development of nanostructure control process in the solution for application to energy and environmental fields
- Facile morphology-controlled synthesis of BaxSr[x]TiO (0 x < 1) crystals via a hydrothermal method
- Controllable synthesis of CdWO nanorods and nanowires via a surfactant-free hydrothermal method
- Controlled synthesis of CaMoO and SrMoO rods by a simple sonochemical method
- Synthesis of porous AlTiO ceramic by reaction sintering method
- Microwave joining of alumina with alumina/zirconia insert under low pressure and high temperature
- Hydrothermal synthesis and electrochemical properties of FeNbO nanospheres
- Hydraulic alumina as an inorganic binder for extruding and sintering SiN ceramics