Company Filing History:
Years Active: 2000
Title: The Innovations of Steven A. Tunick
Introduction
Steven A. Tunick is an accomplished inventor based in Granada Hills, California. He is known for his significant contributions to the field of epoxy coatings and curing agents. With a focus on developing innovative materials, Tunick has made strides in creating protective coatings that enhance durability and performance.
Latest Patents
One of Tunick's notable patents is titled "Amine curing agents and epoxy coatings produced using same." This patent describes amine adducts that comprise a reactive amine curing agent containing an aromatic silane epoxy. The invention highlights improved coatings made by combining the amine adduct with additional epoxy material. The amine adducts, when formulated and cured with an epoxy material, cure in several hours, resulting in a protective coating that cures without blush or CO₂ incorporation. Specific embodiments of the amine adduct include a bisepoxy compound, such as 2,11-bis(3-glycidylphenyl)-2,11-dimethyl-2,11-disiladodocane, while the amine functionalized compound may be ethylenediamine or aminoethylpiperazine. This innovation showcases Tunick's expertise in chemical compounds and their applications.
Career Highlights
Steven A. Tunick is currently associated with Raytheon Company, where he applies his knowledge and skills in materials science. His work at Raytheon has allowed him to contribute to various projects that require advanced coating technologies. With 1 patent to his name, Tunick has established himself as a valuable asset in the field of innovation.
Collaborations
Throughout his career, Tunick has collaborated with notable colleagues, including T. Kirk Dougherty and Steven E. Lau. These collaborations have fostered an environment of creativity and innovation, leading to advancements in their respective fields.
Conclusion
Steven A. Tunick's contributions to the field of epoxy coatings and curing agents demonstrate his commitment to innovation and excellence. His work continues to influence the development of advanced materials that enhance performance and durability in various applications.