Company Filing History:
Years Active: 1976
Title: Innovations by Lawrence P. Biefeld: A Glimpse into His Contributions
Introduction
Lawrence P. Biefeld, an inventive mind hailing from Toledo, OH, has made significant contributions to the field of organosilicon compounds. With two patents to his name, his work has focused on improving the bonding relationships between glass fibers and various materials, showcasing the innovative spirit in the realm of modern materials science.
Latest Patents
Biefeld's latest patents include groundbreaking work on organosilicon derivatives coated on glass fibers. One patent describes the preparation of organosilicon compounds through the reaction of dialkyl hydrazines with epoxy silanes, emphasizing their utility in enhancing the bonding between glass fibers and resins or elastomeric materials. Another notable patent details the creation of organosilicon compounds with complex formulas for treating glass fibers, resulting in improved performance characteristics through coatings that facilitate better adhesion of fibers with various organic groups.
Career Highlights
Biefeld has been a prominent figure at the Owens-Corning Fiberglas Corporation, where he has applied his expertise in materials science to develop innovative solutions. His dedication to advancing the field of composite materials has positioned him as an essential contributor within the company.
Collaborations
Throughout his career, Biefeld has collaborated with esteemed colleagues such as Kevin M. Foley and Frank Paul McCombs. Together, they have worked on various projects that have furthered the understanding and application of organosilicon compounds in multiple industries.
Conclusion
Lawrence P. Biefeld's contributions to the field of organosilicon compounds reflect his commitment to innovation and excellence in materials science. His patents not only advance the understanding of these compounds but also pave the way for improved manufacturing processes in the use of glass fibers and composites. As industries continue to evolve, Biefeld's work will likely remain a cornerstone in the development of advanced materials.