Location History:
- Albany, OR (US) (2002)
- Chattanooga, TN (US) (2000 - 2004)
Company Filing History:
Years Active: 2000-2004
Title: Glenda L Fleming: Innovator in Chemical Compositions
Introduction
Glenda L Fleming is a notable inventor based in Albany, OR (US). She has made significant contributions to the field of chemical compositions, holding a total of 5 patents. Her work focuses on creating stable and effective chemical solutions that have practical applications in various industries.
Latest Patents
Fleming's latest patents include innovative processes and compositions. One of her notable inventions is the "DASC compositions, process for preparing same and suspensions containing same." This invention provides DASC compositions that, when introduced into aqueous solutions, form stable, non-gritty suspensions. Additionally, she has developed processes for preparing these suspensions by admixing the DASC compositions with aqueous solutions. Another significant patent is the "Process for producing aluminum diacetate monobasic," which outlines a new method for preparing aluminum diacetate monobasic through a series of chemical reactions involving aqueous acetic solution and sodium aluminate solution.
Career Highlights
Fleming's career is marked by her dedication to research and innovation in chemical processes. She has worked extensively on developing new methods that enhance the stability and usability of chemical compositions. Her contributions have been recognized within the industry, showcasing her expertise and commitment to advancing chemical technology.
Collaborations
Throughout her career, Glenda has collaborated with several professionals, including Joel Swinson and Richard D Giles. These collaborations have allowed her to expand her research and develop innovative solutions in her field.
Conclusion
Glenda L Fleming is a pioneering inventor whose work in chemical compositions has led to significant advancements in the industry. Her patents reflect her innovative spirit and dedication to improving chemical processes. Her contributions continue to influence the field and inspire future innovations.