Company Filing History:
Years Active: 2007
Title: The Innovative Contributions of James Windridge in Gypsum Compositions
Introduction
James Windridge, an accomplished inventor based in Birmingham, Great Britain, has made notable contributions to the field of material science. His innovative approach focuses on enhancing gypsum compositions, particularly through his patented work on hydrophobic additives.
Latest Patents
Windridge holds a significant patent titled "Granulated Hydrophobic Additive for Gypsum Compositions." This invention provides a hydrophobic gypsum composition that incorporates gypsum, a granulated hydrophobing additive, and a pH effecting additive to maintain the composition's pH between 8 and 12.5 in the presence of water. The formulation includes an organopolysiloxane containing silicon-bonded hydrogen, along with a water-soluble or water-dispersible binder and a suitable carrier. This innovative approach enhances the moisture resistance of gypsum, crucial for various construction applications.
Career Highlights
Windridge has played a fundamental role at Dow Corning Corporation, where he applies his expertise in the development of advanced materials. His work not only showcases his ingenuity but also aligns with the company's commitment to innovation in the materials science sector.
Collaborations
Throughout his career, Windridge has collaborated with several esteemed professionals, including Frederic Gubbels and Derek William Butler. These collaborations foster a dynamic environment for innovation and contribute to the broader impact of their joint research efforts within the industry.
Conclusion
James Windridge is a testament to how dedicated inventors can drive innovation in building materials through creative problem-solving and collaboration. His patent for hydrophobic gypsum compositions represents a significant advancement in the field, underscoring the importance of continual innovation within the construction industry. As more researchers and inventors build upon such foundations, the potential for transformative solutions remains vast.