Company Filing History:
Years Active: 1991-1994
Title: The Innovative Contributions of Elliot E Overshiner
Introduction
Elliot E Overshiner is a notable inventor based in Kenwood, California. He has made significant contributions to the field of thin film technology, holding 2 patents that showcase his innovative approach to creating patterned thin films on flexible substrates. His work is instrumental in advancing manufacturing processes in various industries.
Latest Patents
Elliot's latest patents include a method for making patterned thin films. This method involves providing a patterned thin film on a flexible web-like substrate that has at least one surface. A patterned release coating, which carries the desired pattern, is deposited on the surface and features openings that expose the substrate's surface. A thin film is then deposited over the patterned release coat and onto the exposed portions of the surface. The patterned release coating is subsequently removed, allowing for the creation of a patterned thin film on the substrate. This innovative process can be mechanically removed through various methods, including advancing the coated substrate through a solvent while brushing, subjecting it to high-velocity air, or contacting it with the adhesive layer of a web.
Career Highlights
Elliot E Overshiner is currently associated with Flex Products, Inc., where he continues to develop and refine his innovative techniques. His work has garnered attention for its potential applications in various sectors, including electronics and materials science.
Collaborations
Elliot collaborates with talented individuals such as David W Todd and Lindsey Brown, who contribute to the innovative environment at Flex Products, Inc. Their combined expertise fosters a culture of creativity and advancement in the field of thin film technology.
Conclusion
Elliot E Overshiner's contributions to the field of thin film technology are noteworthy and reflect his dedication to innovation. His patents and collaborative efforts position him as a key figure in advancing manufacturing processes.