Company Filing History:
Years Active: 1976-1982
Title: Innovations by Arnold J. Rosenthal: Pioneering Advances in Fiber Technology
Introduction
Arnold J. Rosenthal, a distinguished inventor based in Whippany, NJ, has made significant contributions to the field of fiber technology, holding five patents to his name. His innovative work mainly focuses on developing materials that demonstrate enhanced performance and safety features.
Latest Patents
Among the latest inventions by Rosenthal are two notable patents. The first is related to the development of solvent-resistant halogenated aromatic polyester fibers. This process involves heat treating the fibers at a controlled length and specific temperatures, followed by treatment with perchloroethylene to achieve improved solvent resistance.
The second patent centers on the production of flame-retardant fiber blends. Rosenthal's invention allows for a combination of polyester and cotton fibers, along with additive fibers formed from chemical compounds like tetrabromobisphenol A. This blend effectively becomes non-burning without compromising the desirable textile properties typical of such blends.
Career Highlights
Arnold J. Rosenthal has built a successful career at Celanese GmbH, where he continues to spearhead innovative projects in fiber technology. His work has received recognition for its impact on the textile industry, specifically in enhancing safety measures and material durability.
Collaborations
Throughout his career, Rosenthal has collaborated with notable colleagues such as Alex S. Forschirm and Bruce P. Barnes. These partnerships have fostered a collaborative environment that fuels innovation and leads to the development of groundbreaking technologies in fiber applications.
Conclusion
Arnold J. Rosenthal stands out as a leading inventor in the fiber technology sector. His recent patents reflect his commitment to improving material properties and safety. As he continues to contribute to the innovative landscape at Celanese GmbH, his work will undoubtedly pave the way for further advancements in textile engineering.