Company Filing History:
1 out of 3 
1 out of 9 
1 out of 832,891 Years Active: 2015-2022
Title: Christopher R. Fenoli: Innovating Composite Reinforcement Systems
Introduction
Christopher R. Fenoli, based in Riviera Beach, Florida, is an influential inventor with a focus on advanced materials and structural integrity. With a total of three patents to his name, Fenoli has made significant contributions to the field of composite reinforcement systems, pushing the boundaries of how physical structures are reinforced and maintained.
Latest Patents
Fenoli's latest innovation revolves around "Composite Reinforcement Systems and Methods of Manufacturing the Same." This invention comprises systems and methods designed to reinforce physical structures utilizing composite reinforcement techniques. Key features of his patent include a carrier formed from multiple fibers and a specific blend of at least two chemically configured reagents. These reagents work together to create a moisture-curable prepolymer, where one reagent is an isocyanate and the other is an aromatic-group-containing polyol. This composite approach allows for enhanced durability and performance in structural applications.
Career Highlights
Throughout his career, Christopher R. Fenoli has worked with esteemed organizations like Neptune Research, Inc., where he contributed to the development of innovative materials. His expertise in composite systems has set a foundation for numerous applications in construction, engineering, and materials science.
Collaborations
Fenoli has collaborated with notable professionals in his field, including Christopher J. Lazzara and Richard J. Lazzara. These collaborations have allowed for the exchange of ideas and the elevation of research efforts within the realm of composite reinforcement technologies.
Conclusion
Christopher R. Fenoli stands out as a pioneering inventor dedicated to advancing the field of composite reinforcement systems. His innovative patents and significant collaborations reflect his commitment to improving structural integrity, demonstrating the impact of novel materials and methodologies in contemporary engineering practices.