Company Filing History:
Years Active: 2012-2024
Title: Inventor Spotlight: Brett Alan Terwilliger from Corning, NY
Introduction
Brett Alan Terwilliger is an innovative inventor based in Corning, New York, with a remarkable portfolio of patents that contribute to advancements in ceramic drying technologies. With an impressive record of five patents, Terwilliger is recognized for his creative approaches in the field of material processing.
Latest Patents
Among his recent innovations are two notable patents. The first, titled "Methods and apparatus for microwave drying of green ceramic honeycomb bodies using adjustable air flow," details a novel method for drying ceramic honeycomb structures. This method incorporates the use of interconnected microwave devices that efficiently remove moisture by irradiating the ceramic body while adjusting the air flow as needed.
The second patent, "Microwave drying of ceramic honeycomb logs using a customizable cover," introduces a flexible or rigid cover designed to enhance the drying process of ceramic logs. This customizable cover addresses log shape deformities and optimizes the drying differential experienced during processing.
Career Highlights
Terwilliger is currently affiliated with Corning Incorporated, a leading company known for its cutting-edge glass and ceramic technologies. His position within the organization allows him to apply his inventive skills to practical applications, contributing significantly to the company’s focus on innovation.
Collaborations
Throughout his career, Brett has collaborated with talented coworkers, including Colby William Audinwood and David Robertson Treacy, Jr. Their joint efforts in research and development have fostered an environment of creativity and excellence, driving the company's advancements in technology.
Conclusion
Brett Alan Terwilliger is a prominent inventor whose work in microwave drying technology has opened new avenues for the ceramic industry. With his innovative patents and collaborative spirit, he continues to make significant contributions to the field, enhancing both efficiency and effectiveness in ceramic processing technologies.