Location History:
- St. Petersburg, FL (US) (1976 - 1980)
- Dedham, MA (US) (1979 - 1981)
Company Filing History:
Years Active: 1976-1981
Title: Innovative Contributions of John H. Beale in Phenolic Foam Technology
Introduction
John H. Beale, an accomplished inventor based in St. Petersburg, FL, has made significant strides in the field of materials science with his six patents. His work primarily focuses on the development of closed cell phenolic foams, which are valuable for various applications due to their thermal conductivity and structural properties. This article highlights his latest patents, career achievements, and collaborative efforts.
Latest Patents
One of Beale's latest innovations is a patent for a "Phenolic foam and surfactant useful therein." This invention details a closed cell phenolic-resin foam material that includes phenolic-resin foam-forming reactants, a blowing agent, and a surfactant—a capped reaction product of an alkoxylated amine and a copolymerizable mixture of dialkyl maleate with N-vinyl-2-pyrrolidone or N-vinyl caprolactam.
Additionally, he has patented a "Closed cell phenolic foam," which outlines a process for producing a closed cell phenolic-resin foam material using a branched, non-ionic surfactant with a hydroxyl value of less than 50 by capping excess hydroxyl groups. Notably, this material not only possesses initially low thermal conductivity but maintains its performance over a prolonged period.
Career Highlights
Beale serves as an inventor for The Celotex Corporation, a company renowned for its innovations in insulation and building materials. Through his work, he has significantly enhanced the properties of phenolic foams, offering solutions for construction and manufacturing sectors.
Collaborations
Among his colleagues, Ernest K. Moss has been a prominent collaborator. Together, they have explored the potential of phenolic materials, pushing the boundaries of current technologies and developing new applications to meet industry demands.
Conclusion
John H. Beale's contributions to phenolic foam technology demonstrate the critical role of innovation in developing advanced materials. With his continued efforts and the support of his collaborative network, he remains a key figure in the field, driving forward the potential applications of phenolic foams in various industries.