Company Filing History:
Years Active: 2025
Title: Innovations of Timothy W. Sirk in Polymer Glass Technology
Introduction
Timothy W. Sirk is an accomplished inventor based in Churchville, MD (US). He has made significant contributions to the field of polymer glass technology, particularly through his innovative patent related to photo-responsive dampening and toughening agents. His work has implications for various applications in materials science and engineering.
Latest Patents
Timothy W. Sirk holds a patent for a technology titled "Photo-responsive dampening and toughening agents." This invention involves a cured polymer glass that includes a polymer glass component, such as an epoxide component and an amine component, along with an azobenzene photo-responsive modifying agent. The modifying agent enables a reversible transition in the cured polymer glass from one state to another when exposed to specific wavelengths of light. Notably, the glass transition temperature of the cured polymer glass is at least 100° C. The first state exhibits different mechanical properties compared to the second state, and this transition is designed to occur when the cured polymer glass is at a temperature below its transition temperature.
Career Highlights
Timothy W. Sirk is currently employed by the US Government as represented by the Secretary of the Army. His role involves research and development in advanced materials, where he applies his expertise in polymer science to create innovative solutions for military applications.
Collaborations
Throughout his career, Timothy has collaborated with notable colleagues, including Joseph M. Dennis and Joseph L. Lenhart. These partnerships have fostered a collaborative environment that enhances the development of cutting-edge technologies.
Conclusion
Timothy W. Sirk's contributions to polymer glass technology exemplify the innovative spirit of modern inventors. His patent on photo-responsive dampening and toughening agents showcases the potential for advancements in material properties through light-responsive mechanisms. His work continues to influence the field and demonstrates the importance of innovation in addressing complex challenges.