Company Filing History:
Years Active: 2011-2013
Title: Jessica Jackson Meyer: Innovator in Corrosion Inhibition
Introduction
Jessica Jackson Meyer is a notable inventor based in Hudson, WI (US). She has made significant contributions to the field of corrosion inhibition, holding 2 patents that showcase her innovative approach to protecting metal components.
Latest Patents
Meyer’s latest patents focus on corrosion inhibiting systems. One of her inventions provides a corrosion inhibiting agent in the form of a finely ground powder. This powder is designed to be dispensed into a sheath or casing that encloses a metal bar, cable, or other tension member. The agents are created by preparing salts of amines with benzoic acid or nitric acid, followed by drying, grinding, and screening the salts to achieve a desired maximum particle size. Additionally, she has developed a dry fogging system that applies the powder to metal tension members enclosed in polymeric sheaths or other fluid-tight casings.
Another patent details corrosion inhibiting powders and processes employing these powders. Similar to her previous invention, this agent is also provided as a finely ground powder for use in protective applications.
Career Highlights
Jessica Meyer is currently associated with Cortec Corporation, where she continues to advance her research and development in corrosion inhibition technologies. Her work has been instrumental in creating solutions that enhance the longevity and durability of metal components in various applications.
Collaborations
Meyer collaborates with talented individuals such as Margarita Kharshan and Boris A Miksic, contributing to a dynamic team focused on innovation and excellence in their field.
Conclusion
Jessica Jackson Meyer stands out as a pioneering inventor in corrosion inhibition, with her patents reflecting her commitment to advancing technology in this critical area. Her contributions not only enhance the performance of metal components but also demonstrate the importance of innovation in protecting infrastructure.