Company Filing History:
Years Active: 1976-1983
Title: Celebrating the Innovations of Inventor Edith A. Turi
Introduction
Edith A. Turi, an accomplished inventor based in Livingston, NJ, has made significant contributions to the field of materials science. With a total of three patents, her innovative spirit has led to advancements in polymer chemistry that address critical industry needs.
Latest Patents
Among her latest patents, Edith has developed novel processes for creating quasi-random copolymers from homopolymers. This process involves heating a carefully measured mixture of polyamides in the presence of phosphite promoters at temperatures between 265°C and 315°C, for a time frame ranging from 2 to 20 minutes. The resulting copolymers, particularly those derived from poly(caproamide) and poly(hexamethylene adipamide), are particularly suited for making plastic films with superior properties in comparison to either homopolymer alone.
Additionally, her work on organic polymers has led to the creation of composites with near-zero uniaxial thermal expansion coefficients. By utilizing polyacetylenes with negative thermal expansion coefficients, she has achieved innovative composites that maintain stability in various thermal conditions. These breakthroughs in material properties have wide-ranging implications for various industries.
Career Highlights
Edith Turi has had a prominent career, including significant roles at Allied Chemical Corporation and Allied Corporation. Her work in these companies has positioned her as a key player in the field of polymer innovation.
Collaborations
Throughout her career, Edith has collaborated with esteemed colleagues, including Ray H. Baughman and Anthony F. Preziosi. These partnerships have facilitated the exchange of ideas and fostered a collaborative environment that has enhanced her research and innovative endeavors.
Conclusion
Edith A. Turi's impressive portfolio of patents and her impactful collaborations showcase her vital contributions to polymer science. As she continues to innovate and inspire within her field, her work stands as a testament to the power of creativity and research in driving advancements in material technologies.