18294445. CERAMIC SINTERED BODY, CERAMIC SUBSTRATE, MOUNTING SUBSTRATE, ELECTRONIC DEVICE, AND METHOD FOR MANUFACTURING CERAMIC SINTERED BODY simplified abstract (KYOCERA CORPORATION)
CERAMIC SINTERED BODY, CERAMIC SUBSTRATE, MOUNTING SUBSTRATE, ELECTRONIC DEVICE, AND METHOD FOR MANUFACTURING CERAMIC SINTERED BODY
Organization Name
Inventor(s)
Yoshito Tani of Kyoto--shi, Kyoto (JP)
CERAMIC SINTERED BODY, CERAMIC SUBSTRATE, MOUNTING SUBSTRATE, ELECTRONIC DEVICE, AND METHOD FOR MANUFACTURING CERAMIC SINTERED BODY - A simplified explanation of the abstract
This abstract first appeared for US patent application 18294445 titled 'CERAMIC SINTERED BODY, CERAMIC SUBSTRATE, MOUNTING SUBSTRATE, ELECTRONIC DEVICE, AND METHOD FOR MANUFACTURING CERAMIC SINTERED BODY
The ceramic sintered body in this patent application contains AlO (alumina) and an additive, with a high content of AlO at 94 mass % or greater. The additive includes SiO (silica), CaO (calcia), MgO (magnesia), TiO (titanium oxide), and FeO (iron oxide). The ceramic sintered body also has a high content of Ti (titanium) in terms of TiO at 120 ppm or greater, and a high content of Fe (iron) in terms of FeO at 180 ppm or greater.
- High content of AlO (alumina) at 94 mass % or greater
- Additive includes SiO (silica), CaO (calcia), MgO (magnesia), TiO (titanium oxide), and FeO (iron oxide)
- High content of Ti (titanium) in terms of TiO at 120 ppm or greater
- High content of Fe (iron) in terms of FeO at 180 ppm or greater
Potential Applications: - Advanced ceramics manufacturing - Aerospace industry for high-performance components - Electronics industry for specialized applications
Problems Solved: - Enhanced material properties - Improved durability and strength - Greater resistance to high temperatures
Benefits: - Increased performance in extreme conditions - Longer lifespan of components - Potential cost savings in the long run
Commercial Applications: Title: Advanced Ceramic Materials for High-Performance Industries This technology can be used in the aerospace, electronics, and automotive industries for manufacturing components that require high durability and resistance to extreme conditions.
Questions about Ceramic Sintered Body: 1. What are the key components of the ceramic sintered body? The ceramic sintered body contains AlO (alumina) and an additive with various oxides like SiO, CaO, MgO, TiO, and FeO. 2. How does the high content of Ti and Fe contribute to the properties of the ceramic sintered body? The high content of Ti and Fe enhances the material properties, durability, and strength of the ceramic sintered body.
Original Abstract Submitted
A ceramic sintered body includes a ceramic sintered body containing AlO(alumina) and an additive, in which a content of AlOis 94 mass % or greater. The additive contains SiO(silica), CaO (calcia), MgO (magnesia), TiO(titanium oxide), and FeO(iron oxide). In the ceramic sintered body, a content of Ti (titanium) in terms of TiOis 120 ppm or greater, and a content of Fe (iron) in terms of FeOis 180 ppm or greater.
