Company Filing History:
Years Active: 2021
Title: Austin W Riggins: Innovator in Additive Manufacturing
Introduction
Austin W Riggins is a notable inventor based in Knoxville, TN (US). He has made significant contributions to the field of additive manufacturing, particularly in the development of discrete gradient charges. His innovative approach combines various materials to enhance the performance of explosive charges.
Latest Patents
Austin holds a patent for a "Process for additively manufacturing discrete gradient charges." This patent describes a discrete gradient charge that features a first hollow cylindrical layer made of a solid first fuel, which consists of approximately 85% by weight fine aluminum powder with a median diameter of about 3.5 microns. Additionally, there is a second hollow cylindrical layer of a solid second fuel, comprising about 80% by weight coarse aluminum powder with a median diameter of about 31.0 microns. The fuels are bound together with a cured HTPB binder. A pellet of an explosive is strategically positioned within the first hollow cylindrical layer to provide ignition. The fuel in the charge is designed to react with surrounding air or with a hollow cylindrical oxidizer layer, or a combination of both.
Career Highlights
Austin is currently employed by the United States as represented by the Secretary of the Navy. His work focuses on advancing technologies that improve the efficiency and effectiveness of military applications. His innovative contributions have garnered attention within the defense sector.
Collaborations
Austin has collaborated with notable colleagues, including Jorge Castellanos and Demitrios Stamatis. These partnerships have facilitated the exchange of ideas and expertise, further enhancing the development of innovative technologies in their field.
Conclusion
Austin W Riggins is a pioneering inventor whose work in additive manufacturing has the potential to revolutionize the design and functionality of explosive charges. His patent reflects a deep understanding of material science and engineering principles. Through his career, he continues to contribute to advancements in technology that serve critical applications.