Company Filing History:
Years Active: 2011-2016
Title: The Innovative Contributions of Clyde E Smothers
Introduction: Clyde E Smothers, a notable inventor based in Fenton, Missouri, has made significant strides in the field of aerosol technology. With three patents to his name, he has contributed to advancements that improve the functionality and efficiency of aerosol dispensers. His work is particularly recognized for enhancing valve design.
Latest Patents: Among his latest contributions are patents related to an innovative aerosol dispenser valve. This improved valve member is designed to serve within aerosol systems, particularly for dispensing moisture-curable foams. Notably, the valve member is composed of a glass-filled polyolefin, specifically polyethylene. The composition of glass in the material ranges from 2% to 40%, with an optimal content between 10% and 30%, and particularly, between 15% and 25%. This innovation aims to enhance the performance and reliability of aerosol applications, showcasing Smothers' dedication to practical engineering solutions.
Career Highlights: Smothers currently works with Clayton Corporation, where he has been instrumental in developing new technologies that push the boundaries of aerosol dispenser functionality. His commitment to innovation and quality engineering has established him as a recognized figure within the industry.
Collaborations: Throughout his career, Clyde has collaborated with talented individuals such as James P McBroom and Joseph C Lott. These partnerships emphasize the collaborative nature of innovation, as ideas and expertise are shared to drive progress in technology and product development.
Conclusion: Clyde E Smothers stands out as a competent inventor whose contributions in aerosol technology have opened avenues for enhanced product performance. His patents not only demonstrate his technical expertise but also reflect his commitment to continuous improvement in the industry. As he continues his work with Clayton Corporation, the impact of his innovations is expected to resonate in various applications within aerosol technology.