Company Filing History:
Years Active: 2021-2022
Title: The Innovative Mind of David Jiang
Introduction
David Jiang, an accomplished inventor based in San Diego, CA, has made significant contributions to the field of thermal spray coating with his inventive spirit. With two patents to his name, he continues to push the boundaries of material science and engineering.
Latest Patents
Jiang's most recent patents include groundbreaking innovations in the realm of coatings. The first is the "Fully Readable Thermal Spray Coating," which describes iron-based coatings designed for thermal spraying. These coatings boast the remarkable ability to be fully readable, facilitating thickness measurements with standard magnetic measuring equipment. The advantageous properties of this coating include high hardness, exceptional wear resistance, and impressive adhesion strength.
His second patent, titled "Oxidation Controlled Twin Wire Arc Spray Materials," reveals various alloy embodiments particularly advantageous for the twin wire arc spray methods utilized for substrate coating. Notably, this invention allows for the formation of both hard and soft particles on surfaces and incorporates a design that minimizes or eliminates chromium.
Career Highlights
David Jiang is currently employed at Oerlikon Metco (US) Inc., where he collaborates with a team of skilled engineers and researchers. His work focuses on developing advanced coatings that enhance performance in various industrial applications.
Collaborations
In his pursuit of innovation, Jiang collaborates with talented coworkers, including Justin Lee Cheney and Zubin Mody. Together, they contribute to a dynamic work environment that fosters creativity and progress in materials technology.
Conclusion
David Jiang exemplifies the essence of an innovative inventor. Through his patents and collaborative efforts, he continues to shape the future of thermal spray coatings, ensuring enhanced performance for various applications. His work not only showcases his ingenuity but also contributes to advancements in engineering and material science.