Bruce A Newman

Title: Bruce A. Newman: Innovator in Polyamide Technology

Introduction: Bruce A. Newman, based in Snellville, GA, is a notable inventor with a strong focus on developing advanced polyamide materials. With a total of two patents to his name, his innovative contributions have significant implications for the field of plastics and materials science.

Latest Patents: Among Bruce's latest patents is a remarkable innovation concerning polyamide compositions that enhance gas barrier properties derived from adipic acid. This patent details a unique polyamide composition with specific recurring units, which achieve an optimal mole ratio that ensures improved performance. The composition boasts a glass transition temperature of 90°C or greater while maintaining an oxygen transmission rate of 2.0 cc-mil/100 in²-day-atm or less. Additionally, he holds a patent for a method of producing molded bottles that utilize a polyamide composition, incorporating isophthalic acid, terephthalic acid, adipic acid, metaxylylenediamine, and hexamethylenediamine in a specific molar ratio. This process contributes to the creation of durable and efficient plastic bottles.

Career Highlights: Bruce Newman has spent a significant part of his career with Amoco Corporation, a company known for its innovations in energy and materials. His work is centered on improving the quality and sustainability of polyamide materials, reflecting his commitment to advancing the industry.

Collaborations: Throughout his career, Bruce has collaborated with esteemed colleagues such as John D. Matlack and James G. Villanueva. These partnerships have enriched his research and development endeavors, contributing to the successful outcomes of their projects and innovations in chemical engineering.

Conclusion: Bruce A. Newman exemplifies the role of an innovative inventor dedicated to pushing the boundaries of polyamide technology. His patents not only showcase his ingenuity but also position him as a valuable contributor to advancements in material science, specifically in developing high-performance plastics that meet modern manufacturing needs.