George S Wilson

Title: The Innovations of George S. Wilson: A Pioneer in Polymer Bonding

Introduction: George S. Wilson, an inventive mind located in Ringwood, NJ, has made significant contributions to the field of polymer technology with a total of two patents to his name. His work focuses on enhancing the bonding techniques of various materials, providing solutions that improve the strength and durability of composite structures.

Latest Patents: Among his recent innovations, Wilson has developed a groundbreaking method for bonding glass fibers and other substrates to various polymers. This process involves treating the surface of a molten polymer with a flame as it is extruded, followed by co-calendering with a substrate as a fibrous web immediately downstream from the extruder and flame. The results demonstrate superior bond strengths, particularly when both the polymer and the web are treated with a flame prior to co-calendering. Additionally, Wilson has patented a process for creating polyamide-polyethylene laminates. This laminate structure consists of at least one layer of polyamide and one layer of polyethylene, enhanced by incorporating 0.1 to 20 percent oxidized high-density polyethylene based on the weight of the polyethylene.

Career Highlights: Throughout his career, Wilson has been affiliated with notable companies in the industry. He has worked with Allied Chemical Corporation and Ausimont USA, Inc., where he has contributed his expertise in polymer technology.

Collaborations: In the pursuit of his innovative projects, Wilson has collaborated with esteemed colleagues such as Harold W. Tuller and Stephen R. Schulze. Their combined efforts have undoubtedly driven advancements in the applications of polymer bonding techniques.

Conclusion: George S. Wilson's work exemplifies the innovative spirit of invention, providing valuable contributions to the fields of materials science and engineering. His patents not only reflect his dedication to enhancing product performance but also highlight the ongoing evolution of technologies related to bonding processes in composites. As industries continue to seek improved material performance, Wilson's innovations are likely to play a crucial role in future developments.