Company Filing History:
Years Active: 2023
Title: **Innovations of Benjamin A. Suslick in Polymer Science**
Introduction
Benjamin A. Suslick, based in Savoy, Illinois, is a notable inventor known for his contributions to the field of polymer science. With a focus on developing innovative materials, Suslick holds a patent that exemplifies his expertise and creativity in crafting polymers with varying physical properties.
Latest Patents
Suslick's key invention is titled "Frontally polymerized polymeric body and method of producing a polymeric body having spatially varying properties." This patent describes a frontally polymerized polymeric body comprising a deformable polymer made from polydicyclopentadiene (pDCPD) and/or poly(5-ethylidene-2-norbornene) (pENB). The invention includes unique properties such as a fracture strain of at least about 0.5 mm/mm. Additionally, this patent encompasses various configurations where the polymer exhibits spatially varying mechanical and other properties, showcasing Suslick's innovative approach to material science.
Career Highlights
Benjamin A. Suslick is affiliated with the University of Illinois, where he has made significant strides in polymer research. His work emphasizes the importance of material properties in practical applications, contributing to advances in the field of engineering and material science.
Collaborations
Suslick collaborates with fellow researchers, including Jeffrey S. Moore and Nancy R. Sottos. Together, they explore numerous concepts in polymer chemistry, pushing the boundaries of what is possible in innovative material applications. Their combined expertise has fostered an environment of creativity and collaboration, resulting in impactful scientific advancements.
Conclusion
Benjamin A. Suslick's contributions to polymer science and his patented inventions are a testament to his innovative spirit and dedication to research. His work continues to influence the fields of engineering and material science, underscoring the significance of developing materials with tailored properties for various applications.