Company Filing History:
Years Active: 2016
Title: Jeff St Clair - Innovator in Explosively Formed Projectiles
Introduction
Jeff St Clair is a notable inventor based in White Plains, MD (US). He has made significant contributions to the field of explosive technology, particularly with his innovative design of explosively formed projectiles (EFPs). His work has implications for both military and civilian applications, showcasing the intersection of engineering and practical utility.
Latest Patents
Jeff St Clair holds a patent for an explosively formed projectile (EFP) with a cavitation pin. This invention involves the formation of an EFP from two distinct metal elements: an open-poled dished liner and a cavitation pin. The liner is crafted from a denser metal compared to the cavitation pin, which is strategically positioned along the liner's longitudinal axis. The unique design of the cavitation pin, featuring a truncated right conical shape, enhances the projectile's performance by creating cavitation in water upon detonation, thereby increasing its velocity.
Career Highlights
St Clair's career is marked by his association with the United States Navy, where he works as part of a team dedicated to advancing military technology. His innovative approach to explosive projectiles has garnered attention and respect within the defense community. His patent reflects a deep understanding of materials science and explosive dynamics, contributing to the effectiveness of modern weaponry.
Collaborations
Throughout his career, Jeff St Clair has collaborated with esteemed colleagues such as Carl Gotzmer and Amos Dare. These partnerships have fostered an environment of innovation and creativity, leading to advancements in explosive technology.
Conclusion
Jeff St Clair's contributions to the field of explosively formed projectiles exemplify the importance of innovation in military technology. His patent for an EFP with a cavitation pin highlights his expertise and commitment to enhancing the effectiveness of explosive devices. His work continues to influence the landscape of defense technology.