20240051866. PRECURSOR GLASSES AND GLASS-CERAMICS COMPRISING A CRYSTALLINE PHASE HAVING A JEFFBENITE CRYSTALLINE STRUCTURE simplified abstract (CORNING INCORPORATED)
PRECURSOR GLASSES AND GLASS-CERAMICS COMPRISING A CRYSTALLINE PHASE HAVING A JEFFBENITE CRYSTALLINE STRUCTURE
Organization Name
Inventor(s)
George Halsey Beall of Big Flats NY (US)
John Philip Finkeldey of Elkland PA (US)
Charlene Marie Smith of Corning NY (US)
PRECURSOR GLASSES AND GLASS-CERAMICS COMPRISING A CRYSTALLINE PHASE HAVING A JEFFBENITE CRYSTALLINE STRUCTURE - A simplified explanation of the abstract
This abstract first appeared for US patent application 20240051866 titled 'PRECURSOR GLASSES AND GLASS-CERAMICS COMPRISING A CRYSTALLINE PHASE HAVING A JEFFBENITE CRYSTALLINE STRUCTURE
Simplified Explanation
The disclosed patent application is about glass-ceramic articles that contain a crystalline phase with a jeffbenite crystalline structure. These articles have a defined shape with a first and second surface and a perimeter. They also have a phase assemblage consisting of one or more crystalline phases and a glass phase.
- Glass-ceramic articles with a jeffbenite crystalline structure are described in the patent application.
- The articles have a specific shape defined by their perimeter, with a first and second surface.
- The phase assemblage of the articles includes one or more crystalline phases and a glass phase.
- The crystalline phase in the articles has a jeffbenite crystalline structure.
Potential applications of this technology:
- Glass-ceramic articles with a jeffbenite crystalline structure can be used in various industries such as electronics, aerospace, and automotive.
- They can be used as high-performance materials for applications requiring excellent mechanical, thermal, and chemical properties.
- The defined shape and surfaces of the articles make them suitable for use in optical devices, sensors, and protective coatings.
Problems solved by this technology:
- Glass-ceramic articles with a jeffbenite crystalline structure offer improved strength, durability, and resistance to extreme conditions compared to traditional glass or ceramic materials.
- They provide a solution for applications that require materials with specific properties, such as high temperature resistance or low thermal expansion.
Benefits of this technology:
- Glass-ceramic articles with a jeffbenite crystalline structure have a unique combination of properties, including high strength, excellent thermal stability, and chemical resistance.
- They can withstand harsh environments and extreme temperatures without compromising their structural integrity.
- The defined shape and surfaces of the articles allow for precise and tailored applications in various industries.
Original Abstract Submitted
disclosed herein are glass-ceramic articles including a crystalline phase comprising a jeffbenite crystalline structure. the glass-ceramic articles may include a first surface, a second surface opposite the first surface, and a perimeter defining a shape of the glass-ceramic article. the glass-ceramic articles may further include a phase assemblage comprising one or more crystalline phases and a glass phase. the one or more crystalline phases may include a crystalline phase having the jeffbenite crystalline structure.
