Location History:
- Ochelata, OK (US) (1984 - 1985)
- Marietta, GA (US) (1995)
- Bartlesville, OK (US) (1983 - 1996)
Company Filing History:
Years Active: 1983-1996
Title: Phil M. Stricklen: Innovator in Polymer Science
Introduction
Phil M. Stricklen, based in Bartlesville, Oklahoma, is a notable inventor with a remarkable portfolio comprising 12 patents. He is dedicated to advancing the field of polymer science, particularly with his innovations related to 3-ethyl-1-hexene.
Latest Patents
Stricklen's latest patents include a groundbreaking polymer and copolymer composition that features 3-ethyl-1-hexene. This innovative composition exhibits a crystalline melting point between 425°C and 435°C, making it particularly valuable for applications that require materials to withstand high temperatures. Additionally, his processes for creating homopolymers of 3-ethyl-1-hexene ensure that these materials retain a consistent melting point within the same temperature range. Stricklen's work involves utilizing a catalyst that consists of at least one transition metal and one organometallic halide compound, showcasing his expertise in chemistry and material science.
Career Highlights
Phil M. Stricklen has built a significant career at Phillips Petroleum Company, where he has contributed to numerous advancements in polymer field applications. His patent works underline a commitment to research and practical applications, which enhance the utility of polymers in diverse industrial settings.
Collaborations
Throughout his career, Stricklen has collaborated with esteemed colleagues such as Max P. McDaniel and Francis X. Mueller, Jr. These professional partnerships have fostered a collaborative environment that has been fruitful for developing innovative technologies and furthering advancements in the field of polymer science.
Conclusion
Phil M. Stricklen stands out as a prominent figure in the field of polymer innovation. With a comprehensive portfolio of patents and a dedicated career at Phillips Petroleum Company, his contributions to polymer technology and processes are paving the way for future advancements. His work validates the importance of research and development in creating high-performance materials that meet modern industrial challenges.