Company Filing History:
Years Active: 2006-2024
Title: Innovations of Katherine Rose Rossington
Introduction
Katherine Rose Rossington is a prominent inventor based in Corning, NY (US). She has made significant contributions to the field of glass technology, holding a total of 9 patents. Her work focuses on methods and apparatuses for melting reactive glasses and glass-ceramics, as well as the development of strengthened glass articles.
Latest Patents
One of her latest patents is titled "Methods for melting reactive glasses and glass-ceramics and melting apparatus for the same." This invention outlines a method of melting glass and glass-ceramics that involves conveying a batch of raw materials into a submerged combustion melting apparatus. The apparatus features liquid-cooled walls and a floor, directing a flame into the batch with sufficient energy to form the raw materials into a melted batch. The melted batch has a composition that is substantially reactive to a refractory material, which may include silica, zirconia, alumina, platinum, and platinum alloys.
Another notable patent is "Strengthened glass articles with separation features." This method describes the formation of a strengthened glass article, specifically a container with a sidewall that has both exterior and interior strengthened surface layers. A central layer under tensile stress is created, and a laser-induced intended line of separation is formed at a predetermined depth without separating the glass article.
Career Highlights
Katherine Rose Rossington is associated with Corning Incorporated, a leading company in glass and ceramics technology. Her innovative work has positioned her as a key figure in advancing glass manufacturing processes.
Collaborations
She has collaborated with notable coworkers, including Robert Sabia and David John McEnroe, contributing to the development of cutting-edge glass technologies.
Conclusion
Katherine Rose Rossington's contributions to glass technology through her patents and collaborations highlight her role as an influential inventor in the field. Her innovative methods and apparatuses continue to shape the future of glass manufacturing.