Company Filing History:
Years Active: 2003-2005
Title: **Mark A. Schmidt: Innovator in Gas Generant Technology**
Introduction
Mark A. Schmidt, an accomplished inventor based in Winter Haven, Florida, is recognized for his advancements in gas generant technology. With a total of two patents to his name, Schmidt has made significant contributions to the field, particularly with compositions that enhance safety and performance in various applications.
Latest Patents
Schmidt’s most notable patents include a method of stabilizing the density of gas generant pellets containing nitroguanidine. This innovative non-azide gas generant composition combines nitroguanidine with phase stabilized ammonium nitrate, resulting in several desirable traits. The composition minimizes ash production and produces essentially toxic-free exhaust gas. Schmidt addresses the challenges associated with the compression of nitroguanidine into pellets, which can cause needle-shaped crystals to bend or distort. His invention tackles this issue by passing nitroguanidine through a vibrating ball mill, which pulverizes it into an amorphous crumb to prevent pellet growth during thermal cycling.
Career Highlights
Throughout his career, Mark A. Schmidt has contributed his expertise to several reputable companies, including Key Safety Systems, Inc. and Breed Automotive Technology, Inc. His work at these organizations has helped further the development of safe and efficient gas generant compositions.
Collaborations
In his professional journey, Schmidt has collaborated with notable individuals such as J.B. Canterberry and Edward Otis Hosey. These partnerships have played a crucial role in refining his inventions and achieving successful outcomes in their applications.
Conclusion
Mark A. Schmidt stands out as an inventive force in the field of gas generant technology. His patents reflect a commitment to innovation and safety, providing valuable contributions to industries relying on gas generants. As the demand for effective and environmentally friendly compositions continues to grow, Schmidt’s work will undoubtedly remain influential in shaping advancements in this critical area.