Company Filing History:
Years Active: 2002
Title: The Innovative Contributions of Jeffrey B. Housenick
Introduction
Jeffrey B. Housenick is a notable inventor based in Ashland, OH (US). He has made significant contributions to the field of adhesive systems, particularly through his innovative patent. His work exemplifies the intersection of chemistry and engineering, showcasing how inventive solutions can address complex challenges in material science.
Latest Patents
Housenick holds a patent for a "Polyurethane reaction system having a blocked catalyst combination." This invention discloses a polyol/polyisocyanate adhesive system that includes an isocyanate component and a catalyzed component. When these components are mixed and heated above a specific threshold temperature, they form a heat-cured composition. The catalyzed component features a hydroxyl-functional component that is catalyzed with a combination of heat-activatable amine or amine-like catalysts, which activate at elevated temperatures. Additionally, it includes an activatable complexed metal catalyst derived from tin or bismuth catalysts, or a mixture thereof, along with a molar excess of a mercapto compound complexing agent. This catalyst combination effectively maintains the processability of the system at ambient temperatures while promoting rapid curing when heated.
Career Highlights
Housenick is associated with Ashland Chemical, Inc., where he has contributed to the development of advanced adhesive technologies. His work has been instrumental in enhancing the performance and efficiency of adhesive systems used in various applications.
Collaborations
One of his notable collaborators is Thomas E. Schoener, with whom he has worked closely to advance their research and development efforts in adhesive technologies.
Conclusion
Jeffrey B. Housenick's innovative contributions to adhesive systems highlight the importance of creativity and scientific knowledge in developing effective solutions. His patent reflects a significant advancement in the field, demonstrating the potential for innovation to drive progress in material science.