Company Filing History:
Years Active: 2001-2003
Title: J Gregory Hancock: Innovator in Textile Filament Technology
Introduction
J Gregory Hancock is a notable inventor based in Pensacola, FL (US), recognized for his contributions to textile filament technology. He holds two patents that focus on the development of low surface energy fibers, which have significant applications in creating water-repellent and chemical-resistant fabrics.
Latest Patents
Hancock's latest patents include a process for making low surface energy fibers. This invention relates to a textile filament with a contact angle greater than or equal to 90 degrees. Such filaments are designed to be either water-repellent or resistant to chemicals, making them highly versatile for various applications. In one embodiment, the filaments consist of a first longitudinally-extending component made from polymers such as nylon, polyester, or polypropylene, combined with a second component made from a halogenated polymer. Another embodiment focuses on chemical resistance, utilizing a fiber-forming polymer and an olefin copolymer. Both designs ensure that the second component is positioned on the exterior of the first component, enhancing the filaments' functional properties. The patents also cover the yarns and fabrics made from these filaments, along with the methods for their production.
Career Highlights
Hancock is associated with Solutia Incorporated, where he has made significant strides in textile innovation. His work has contributed to advancements in materials that are not only functional but also adaptable to various industrial needs.
Collaborations
Some of Hancock's notable coworkers include John J Elliott and David B Horn, who have collaborated with him on various projects within the field of textile technology.
Conclusion
J Gregory Hancock's innovative work in developing low surface energy fibers has positioned him as a key figure in the textile industry. His patents reflect a commitment to enhancing the functionality of fabrics, paving the way for future advancements in material science.