Company Filing History:
Years Active: 2002
Title: **Innovative Contributions of Paul Grime in Metal Surface Treatment**
Introduction
Paul Grime, based in Virginia Beach, VA, is an inventive force in the realm of metal surface treatments. With a significant contribution encapsulated in one patent, he has notably advanced the method of transfer melt printing of metal substrates.
Latest Patents
Grime's patent titled "Method of transfer melt printing of metal substrates, and the decorative surface coated items prepared thereby" presents a transformative melt transfer process. This innovation especially caters to creating decorative simulated wood, metal, or stone-like patterns on treated non-sealed, non-anodized metal-resin composites suitable for interior signage and displays. His method emphasizes excellent adhesion bonding between the aluminum surface and the transferred-carrier film, ensuring durability and aesthetic appeal. The aluminum surface preparation involves conventional pre-etching techniques, followed by the application of a thermosetting resin and an optional adhesive primer. Ultimately, the final surface is protected with an additional transparent adhesive backed polymer film.
Career Highlights
Grime is affiliated with Mitsubishi Chemical America, Inc., where he harnesses his expertise in advancing metal treatment technologies. His innovative approach has paved the way for enhanced surface finishes in various applications, thus making significant strides in the industry.
Collaborations
Throughout his career, Grime has collaborated effectively with esteemed coworkers such as Joseph J. Rudisi and William Yannetti. Together, they have contributed to the development and refinement of innovative processes that enhance the functionalities of metal substrates.
Conclusion
Paul Grime's inventive spirit and dedication to advancing metal surface treatments clearly mark him as an influential inventor in his field. His pioneering patent reflects his commitment to innovation, which continues to impact various industries through improved aesthetics and durability in decorative metal finishes.