Company Filing History:
Years Active: 1980-1981
Title: Innovations by James D. Dake: A Pioneering Inventor at Redstone Arsenal
Introduction
James D. Dake is a notable inventor based in Redstone Arsenal, AL, whose contributions to the field of propellant technology have resulted in the award of two impactful patents. His work primarily focuses on ballistic modifiers that enhance propellant performance by modifying burning rate characteristics, making significant advancements in military applications.
Latest Patents
Among his latest inventions, James D. Dake has developed a new class of ballistic modifiers and the synthesis thereof, which are utilized in propellants. These modifiers can be used either individually or as admixtures at percentages of approximately 0.5 to 6 weight percent. His innovative approach imparts mesa or plateau burning rate characteristics over a wide pressure range while simultaneously reducing temperature sensitivity in relation to burning rates. The modifiers consist of chelate-type compounds derived from lead and/or copper, combined with various predetermined molar ratios of compounds such as salicylic acid and beta-resorcylic acid.
Career Highlights
James is employed by the U.S. Government as represented by the Secretary of the Army, where he has utilized his expertise to push the boundaries of propellant technology. His inventions have implications not only for military applications but also for various industries relying on advanced propellant systems.
Collaborations
Throughout his career, James D. Dake has collaborated with esteemed colleagues such as Bernard J. Alley and Hiram W. Dykes. Their joint efforts have contributed to broadening the impact of his innovative solutions and fostering a collaborative environment focused on advancing technology in the defense sector.
Conclusion
James D. Dake stands out as a significant figure in the realm of propellant technology, demonstrating the importance of innovation and collaboration in the development of advanced materials. His ongoing contributions help ensure enhanced performance and safety in propellant applications, showcasing a dedication to excellence and innovation in his field.