Company Filing History:
Years Active: 1986
Title: Ormand F Lavery: Innovator in Composite Explosives
Introduction
Ormand F Lavery is a notable inventor based in the United States, recognized for his contributions to the field of explosives. He has developed innovative technologies that enhance the performance and safety of explosive materials. His work has significant implications for various applications in the industry.
Latest Patents
Lavery holds a patent for "Perchlorate based microknit composite explosives and processes for." This invention introduces a new arrangement of matter that can be formulated as a high explosive, propellant, or gas generator. The microknit composite explosive (MCX) is created using an essentially anhydrous mixture of perchlorate-based oxidizer salts, surfactants, and organic fuels. The process involves preparing the oxidizer while molten, which results in a microcrystalline property that imparts a hard, machinable characteristic to the explosive material.
Career Highlights
Lavery's career is marked by his innovative approach to explosive materials. His patent outlines three distinct processes for creating MCX compositions. These processes include dissolving surfactants and modifiers into molten oxidizer, forming unstable oil-continuous emulsions, and retarding crystal nucleation in salt-continuous emulsions. Each method contributes to the development of a hard composition through supercooling and solidification.
Collaborations
Lavery has collaborated with notable colleagues in his field, including Harvey A Jessop and M Taylor Abegg. Their combined expertise has likely contributed to the advancements in explosive technologies and the successful development of Lavery's patented inventions.
Conclusion
Ormand F Lavery's work in the field of composite explosives showcases his innovative spirit and dedication to advancing technology. His patent for perchlorate-based microknit composite explosives represents a significant contribution to the industry. The processes he developed not only enhance the performance of explosives but also ensure safety and efficiency in their application.