Company Filing History:
Years Active: 2010
Title: The Innovative Contributions of Simon Alex Berube
Introduction
Simon Alex Berube is an accomplished inventor based in Greenfield Park, California. He holds one patent, showcasing his commitment to innovation in the field of coating measurement technologies. Berube currently works at the esteemed National Research Council of Canada, where he continues to contribute his expertise and knowledge.
Latest Patents
Simon Berube's notable patent is for a "Method of on-line thickness measurement of applied coatings." This innovative approach involves measuring the thickness of a coating as it is applied to a substrate. The method employs a spray gun to apply the coating as a thin ribbon. During the relative movement of the substrate and spray gun, at least one surface profile of the applied coating is obtained along a line that intersects the ribbon. The thickness of the applied coating is then computed from the obtained surface profile, enhancing the precision of coating applications in various industries.
Career Highlights
Throughout his career, Berube has demonstrated a strong focus on research and development. His work at the National Research Council of Canada has allowed him to explore advanced techniques in coating processes and has cemented his reputation as a valuable contributor to the field of measurement technologies.
Collaborations
Simon Berube has collaborated with notable coworkers, including Christian Moreau and Mario Lamontagne. These partnerships have played a crucial role in facilitating innovative research and the sharing of ideas, ultimately enhancing the quality and impact of their work.
Conclusion
Simon Alex Berube's innovative methods and dedication to advancing measurement technology significantly contribute to the field of applied coatings. His single patent reflects his expertise and passion for innovation, affirming his position as a noteworthy inventor in the industry. As he continues his work at the National Research Council of Canada, the potential for future advancements and collaborations remains promising.