Session Codes for the Annual Meeting
of The Ceramic Society of Japan, 2004
A. High-Temperature and Engineering Ceramics
A1. Materials/Properties
-
(1) Silicon Carbide/Silicon Nitride: A11
-
(2) Carbon: A12
-
(3) Other Non-Oxide: A13
-
(4) Oxide: A14
-
(5) Composite/Nanocomposite: A15
-
(6) Refractory: A16
A2. Processing/Microstructures: A20
A3. Fundamental Properties/Characterization:
A30
B. Electronic Ceramics
B1. Materials/Properties
-
(1) Dielectric and Insulating Ceramics: B11
-
(2) Piezoelectric Ceramics: B12
-
(3) Semiconductors/Conductors: B13
-
(4) Superconductors: B14
-
(5) Ionic Conductors: B15
-
(6) Magnetic Ceramics: B16
B2. Processing/Microstructure: B20
B3. Fundamental Properties/Characterization:
B30
C. Glasses and Photonic Ceramics
C1. Optical Properties
-
(1) Materials Containing Rare Earth: C11
-
(2) Other Materials: C12
C2. Electric Properties: C20
C3. Thermal/ Mechanical Properties: C30
C4. Chemical Properties: C40
C5. Processing: C50
C6. Structure: C60
D. Ceramics in Medicine, Biology and Biomimetics.
D1. Calcium Phosphates: D10
D2. Biomimetics: D20
D3. Biotechnology-Related Materials: D30
D4. Composites/Other Materials: D40
E. Cements: E10
F. Whitewares and Porcelain Enamels: F10
G. Environmental- and Energy-Related Ceramics
G1. Powder/Films : G10
G2. Porous Ceramics/Ion Exchangers: G20
G3. Catalysts: G30
-
(1) Photocatalyst: G31
-
(2) Other Catalysts: G32
G4. Energy-Conversion Ceramics: G40
H. Processing
H1. Chemical process
-
(1) Sol-Gel: H11
-
(2) Liquid-Phase/ Hydrothermal Synthesis: H12
-
(3) Other Processes: H13
H2. Raw Materials/Precursors: H20
H3. Sintering/Theory: H30
H4. Shaping/Machining: H40
I. Characterization
I1.Fundamental Properties/Structural Analysis:
I10
I2. Simulation/Modeling: I20
I3. Analysis and Characterization Methods:
I30
J. Education: J10
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