Company Filing History:
Years Active: 1976-1979
Title: The Innovations of Daniel T. Carty
Introduction
Daniel T. Carty is a notable inventor based in Willingboro, NJ (US). He has made significant contributions to the field of polymer chemistry, holding a total of five patents. His work primarily focuses on the development of advanced materials that enhance the properties of various polymers.
Latest Patents
Carty's latest patents include innovative solutions such as vinyl halide polymer impact modifiers. This invention involves a three-stage, sequentially produced graft polymer that enhances the performance of vinyl halide polymers. The first stage consists of a non-rubbery, hard polymer, while the second stage introduces a rubbery polymer, and the third stage incorporates an alkyl methacrylate. This unique structure ensures that the refractive index of the graft polymer aligns closely with that of the vinyl halide polymer. Another significant patent involves blends of thermoplastic polymers with a multiphase acrylic composite. This composite polymer features a non-crosslinked phase and a rigid thermoplastic phase, providing excellent processing aid and lubricant properties for a wide range of plastics.
Career Highlights
Carty has built a successful career at Rohm and Haas Company, where he has been instrumental in advancing polymer technology. His expertise in polymer chemistry has led to the development of materials that are widely used in various industries. His innovative approach and dedication to research have earned him recognition in the field.
Collaborations
Throughout his career, Carty has collaborated with esteemed colleagues such as Robert M. Myers and David L. Dunkelberger. These partnerships have fostered a creative environment that has led to groundbreaking advancements in polymer science.
Conclusion
Daniel T. Carty's contributions to polymer chemistry through his patents and collaborations highlight his role as a leading inventor in the field. His innovative work continues to influence the development of advanced materials that are essential in modern applications.