Company Filing History:
5 out of 11 
4 out of 30 
3 out of 33 
Years Active: 1998-2012
Title: Innovations of Kimberly L. Stefanisin
Introduction
Kimberly L. Stefanisin is a notable inventor based in Oak Lawn, Illinois, with a remarkable portfolio of 12 patents. Her work primarily focuses on advancements in polymer compositions and joint assemblies, showcasing her expertise in materials science and engineering.
Latest Patents
One of her latest patents involves biopolymer compositions that exhibit improved flexibility. This innovation is directed towards polymer blends that include a biopolymer and a substituted or unsubstituted aliphatic polyester. The aliphatic polyester consists of repeating units derived from a substituted or unsubstituted aliphatic diacid and diol, along with terminator units from a substituted or unsubstituted aliphatic alcohol. These polymer blends are particularly useful in producing packaging materials, industrial products, and durable goods. Another significant patent pertains to joint assemblies, which include at least two adjacent panels and a jointing composition that adheres to and is positioned between these panels. The jointing compositions feature a sealant composition combined with a long-chain ester, enhancing the effectiveness of the joint assemblies.
Career Highlights
Throughout her career, Kimberly has contributed to various companies, including Cph Innovations Corporation and The C.P. Hall Company. Her innovative spirit and dedication to her field have led to significant advancements in the materials she has worked with.
Collaborations
Kimberly has collaborated with notable professionals in her field, including Gary Wentworth and Stephen O'Rourke. These partnerships have further enriched her work and contributed to her success as an inventor.
Conclusion
Kimberly L. Stefanisin's contributions to the field of polymer science and joint assembly technology highlight her innovative capabilities and commitment to advancing materials engineering. Her patents reflect a deep understanding of the complexities involved in creating effective and flexible materials for various applications.