John Robert Dunn (May 12, 1930 – July 14, 2002) was a Polysar synthetic rubber research chemist [1][2]
Personal
editDunn was born in Andover, Hants, England. In his youth, he attended the Andover Grammar School. He became a Canadian citizen in 1980.[2]
Education
editDunn received his Bachelor of Science degree in chemistry in 1951 with first-class honors at King's College at the University of London. He completed his Ph.D. in physical chemistry at the University of Oxford in 1953.
Career
editUpon completing his education, he sailed to Canada aboard the S.S. Scythia of the Cunard Line. Dunn joined the National Research Council (NRC) in Ottawa as a research fellow from 1953 to 1955. After this post, Dunn joined the Natural Rubber Producers' Research Association in England as a senior chemist. He remained in this position until 1962, when he returned to Sarnia, Canada to join Polymer Corporation (later Polysar). Dunn remained with the company for the next 30 years, holding various management and scientific positions, and retiring in 1992 as a principal scientist in the new product research and development division. Dunn's research focused on vulcanization, aging and testing of rubbers including NR, BR, EPDM, butyl, NBR and HNBR. His most cited paper, published in 1959, treated the topic of stress relaxation during the thermal oxidation of vulcanized natural rubber.[3]
Awards
edit- 1966 – elected Fellow of the Chemical Institute of Canada[2]
- 1993 – Melvin Mooney Distinguished Technology Award from Rubber Division of the ACS[1]
- 1993 – International Institute of Synthetic Rubber Producers Technical Award[4]
- 2001 – Institute of Materials' Colwyn Medal for his contributions to the synthetic rubber industry.[5]
References
edit- ^ a b "Bayer SR research chemist John R. Dunn dies at 72". Rubber and Plastics News. Crain. 3 July 2002. Retrieved 10 August 2022.
- ^ a b c "John Robert Dunn, FCIC". Canadian Chemical News. 1 September 2002. Retrieved 7 October 2022.
- ^ Dunn, J. R.; Scanlan, J.; Watson, W. F. (1959). "Stress relaxation during the thermal oxidation of vulcanized natural rubber". Transactions of the Faraday Society. 55: 667–675. doi:10.1039/TF9595500667. Retrieved 7 October 2022.
- ^ "TECHNICAL AWARD WINNERS". iisrp.org. IISRP. Retrieved 7 October 2022.
- ^ "Colwyn Medal". iom3.org. IOM3. Retrieved 7 October 2022.