18411231. TITANIA-SILICA GLASS WITH UNIFORM HYDROXYL CONCENTRATION simplified abstract (CORNING INCORPORATED)
Contents
TITANIA-SILICA GLASS WITH UNIFORM HYDROXYL CONCENTRATION
Organization Name
Inventor(s)
Michael John Campion of Corning NY (US)
Sergey Nikolaevich Shubin of Espoo (FI)
Pushkar Tandon of Painted Post NY (US)
TITANIA-SILICA GLASS WITH UNIFORM HYDROXYL CONCENTRATION - A simplified explanation of the abstract
This abstract first appeared for US patent application 18411231 titled 'TITANIA-SILICA GLASS WITH UNIFORM HYDROXYL CONCENTRATION
The process described in the abstract involves forming a titania-silica glass body by subjecting a titania-doped silica soot body to a specific thermal treatment.
- The first step in the process is exposing the titania-doped silica soot body to a thermal treatment at a temperature between 800°C and 1100°C for a calculated duration.
- This thermal treatment is crucial for the formation of the titania-silica glass body.
- The specific temperature and duration are essential for achieving the desired properties in the final glass body.
- The process likely involves additional steps beyond the initial thermal treatment to complete the formation of the glass body.
- The innovation lies in the precise control of temperature and duration during the thermal treatment to create a high-quality titania-silica glass body.
Potential Applications: - Optical components - Photovoltaic devices - High-temperature resistant materials
Problems Solved: - Achieving a uniform titania-silica glass body - Controlling the properties of the glass body through thermal treatment
Benefits: - Enhanced optical properties - Improved durability and resistance to high temperatures - Potential for use in various industries such as electronics, telecommunications, and aerospace
Commercial Applications: Title: Advanced Titania-Silica Glass for Optical and High-Temperature Applications This technology could be used in the production of optical lenses, solar panels, and protective coatings for high-temperature environments. The market implications include increased demand for specialized glass materials in industries requiring high-performance components.
Prior Art: Further research can be conducted on the thermal treatment of titania-doped silica soot bodies to explore existing patents and publications in the field of glass manufacturing and materials science.
Frequently Updated Research: Researchers may be investigating alternative methods for enhancing the properties of titania-silica glass bodies, such as novel doping techniques or post-treatment processes.
Questions about Titania-Silica Glass: 1. How does the thermal treatment process impact the properties of the titania-silica glass body? The thermal treatment process plays a crucial role in determining the optical and mechanical properties of the glass body by influencing its structure and composition.
2. What are the key differences between titania-doped silica glass and traditional silica glass? Titania-doped silica glass offers improved optical and thermal properties compared to traditional silica glass, making it suitable for specialized applications in various industries.
Original Abstract Submitted
A process of forming a titania-silica glass body, the process including exposing a titania-doped silica soot body to a first thermal treatment by heating the body to a first temperature T1 between about 800° C. and about 1100° C. for a first time duration t1 calculated using the equation: