C. Michael Roland

Last updated

Charles Michael Roland (22 April 1952 - 2 October 2021) [1] was Head of the Polymer Physics Section at the Naval Research Lab in Washington DC from 1989 to 2015. [2] His research was concerned primarily with the dynamics of condensed matter, including polymers and liquid crystals, with applications to military armor and infrastructure protection. He is noted for his development of elastomeric coatings for blast protection, and for diverse accomplishments in the field of elastomer science. From 1991-1999, he served as the 8th editor of the scientific journal Rubber Chemistry and Technology, and a Fellow of the American Physical Society and the Institute of Materials, Minerals, and Mining (UK). [3] [4]

Contents

Personal

Roland was born in Trenton, New Jersey. [5] He went by his middle name Michael to avoid confusion at home, as his father was also named Charles. He had one sister. His father worked for the post office after dropping out of school during the depression after the eighth grade. As a youth, Roland knew he wanted to go into science. He had a chemistry set and tried to make gunpowder. He enjoyed basketball and chose his undergraduate college in part for the opportunity to play, turning more to his studies after a knee injury.

Education

Roland received his BS in Chemistry at Grove City College in 1974. He was late applying to graduate school, and so for a short time he worked as a lab instructor at a community college teaching chemistry. He soon was accepted to graduate school at Penn State working under advisor William A. Steele. [6] He completed his Ph.D. in Chemistry in 1980. In his final year of grad school, he interviewed for jobs with Firestone, DuPont and American Cyanamid.

Career

In 1981, Roland was recruited to Firestone's Central Research Labs by Georg Bohm, who persuaded Roland with an offer to work on long term research projects. Roland enjoyed his research and continued at Firestone until 1986, when due to poor economic conditions in the automotive sector and to R&D cuts in the aftermath of the Firestone 500 recall, he decided to seek employment elsewhere. He soon won a position with the United States Naval Research Laboratory. His first project looked at thermodynamically miscible blends of 1-4 polyisoprene and 1-2 polybutadiene. [7] He worked on blast protection [8] and on elastomer networks. [9] During his career he produced 22 patents. He retired from NRL in 2020.

Awards

Related Research Articles

Graham Johnson Lake was an English scientist known for his contributions to understanding rubber's fatigue limit, and a former professional English cricketer.

<span class="mw-page-title-main">Charles Goodyear Medal</span> Award

The Charles Goodyear Medal is the highest honor conferred by the American Chemical Society, Rubber Division. Established in 1941, the award is named after Charles Goodyear, the discoverer of vulcanization, and consists of a gold medal, a framed certificate and prize money. The medal honors individuals for "outstanding invention, innovation, or development which has resulted in a significant change or contribution to the nature of the rubber industry". Awardees give a lecture at an ACS Rubber Division meeting, and publish a review of their work in the society's scientific journal Rubber Chemistry and Technology.

The Melvin Mooney Distinguished Technology Award is a professional award conferred by the ACS Rubber Division. Established in 1983, the award is named after Melvin Mooney, developer of the Mooney viscometer and of the Mooney-Rivlin hyperelastic law. The award consists of an engraved plaque and prize money. The medal honors individuals "who have exhibited exceptional technical competency by making significant and repeated contributions to rubber science and technology".

Dr. J. Reid Shelton was a professor of chemistry at Case Western University in Cleveland, Ohio. He is known for his work on oxidation and antioxidants in rubber, and for his application of laser-Raman spectroscopy to the study of sulfur vulcanization. His research on synthetic rubber was particularly important during World War II, when access to natural rubber in Southeast Asia was cut off by the Japanese, and the new SR made from styrene and butadiene displayed stability problems.

<i>Rubber Chemistry and Technology</i> Academic journal

Rubber Chemistry and Technology is a quarterly peer-reviewed scientific journal covering fundamental research and technical developments relating to chemistry, materials science, and engineering of rubber, elastomers, and related materials. It was established in 1928, with Carroll C. Davis as its first editor-in-chief. The current editor-in-chief is Christopher G. Robertson. The journal is published by the ACS Rubber Division. The journal currently publishes four issues per year containing original research contributions and review articles.

Frederick W. Stavely (1894-1976) was a chemical research scientist who discovered polyisoprene.

Alan D. Roberts is a Tun Abdul Razak Research Centre (TARRC) scientist noted for his contributions to understanding contact phenomena in elastomers, and in particular the JKR equation.

Russell A. Livigni is a rubber industry scientist and executive noted for his discovery and development of high trans styrene-butadiene rubber, a crystallizing rubber that provides superior oxidation resistance relative to natural rubber.

Joseph A. Kuczkowski is a retired Goodyear scientist, noted for successfully explaining the mechanisms of antioxidant and antiozonant function, and for commercial development of new antiozonant systems and improvement of the stability of polymeric materials.

Edward N. Kresge was an American Exxon scientist, noted for his development of ethylene-propylene viscosity index modifiers, polyolefin thermoplastic elastomers, and tailored molecular weight density EPDM elastomers.

Aubert Y. Coran (1932–2020) was an American scientist noted for his contributions to thermoplastic elastomers and vulcanization chemistry of rubber. In 1983, he won the Melvin Mooney Distinguished Technology Award, bestowed by the American Chemical Society to individuals "who have exhibited exceptional technical competency by making significant and repeated contributions to rubber science and technology". In 1995, the rubber division of the American Chemical Society bestowed on Coran the Charles Goodyear Medal in honor of his international contributions to polymer science and development.

Adel F. Halasa is an American scientist noted for his contributions to the development of rubber, particularly in the area of tire tread polymers for the Goodyear AquaTred tire. In 1997, he won the Charles Goodyear Medal, bestowed by the American Chemical Society, Rubber Division to individuals who "have been the principal inventor(s), innovator(s), or developer(s) of a significant change or contribution to the rubber industry".

The purpose of the Sparks–Thomas Award, given by the ACS Rubber Division, is to recognize and encourage outstanding contributions and innovations in the field of elastomers by younger scientists, technologists, and engineers. The award is named for Exxon scientists William J. Sparks and Robert M. Thomas, co-inventors of Butyl rubber.

Francis Paul Baldwin was a former Exxon Chief Scientist noted for his work on chemical modifications of low functionality elastomers.

Roderic Quirk is an Emeritus University of Akron professor noted for contributions to anionic polymerization technology that is used to produce butadiene, isoprene and styrene homo and block copolymers.

Georg Bohm is a retired Vice President of Research and Technology for Bridgestone Americas noted for the development of electron beam pre-curing of elastomers.

Sudhin Datta is an ExxonMobil Chemical scientist noted for the development of Vistamaxx propylene-based elastomers.

<span class="mw-page-title-main">Yasuyuki Tanaka</span> Professor

Prof. Yasuyuki Tanaka was a Tokyo University of Agriculture and Technology professor noted for elucidating the molecular structure of natural rubber, and for his work in synthetic rubber.

Shingo Futamura is a rubber industry materials scientist noted for his concept of the deformation index.

Noboru Tokita was a Uniroyal and later Cabot scientist known for his work on the processing of elastomers.

References

  1. "Charles Michael "Mike" Roland Obituary" . Retrieved 11 October 2021.
  2. Casalini, Riccardo; Robertson, Christopher (December 24, 2024). "Editorial: Tribute Issue in Honor of Dr. C. Michael Roland". Rubber Chemistry and Technology. 97 (4): G1 –G2. doi:10.5254/106986.
  3. C. Michael Roland, 2012 Charles Goodyear Medalist, Rubber Chemistry and Technology, vol. 85, G2, 2012.
  4. "Polymer Physics group webpage" . Retrieved 6 September 2014.
  5. "ORAL HISTORY INTERVIEWS". rubber.org. ACS Rubber Division. Retrieved 9 October 2022.
  6. "BILL STEELE OBITUARY". Centre Daily Times. Centre Daily Times. January 27, 2017. Retrieved 9 October 2022.
  7. Roland, C. M.; Ngai, K. L. (April 29, 1991). "Dynamical heterogeneity in a miscible polymer blend". Macromolecules. 24 (9): 2261–2265. Bibcode:1991MaMol..24.2261R. doi:10.1021/ma00009a021 . Retrieved 9 October 2022.
  8. Roland, C.M.; Fragiadakis, D.; Gamache, R. M. (April 2010). "Elastomer–steel laminate armor". Composite Structures. 92 (5): 1059–1064. doi:10.1016/j.compstruct.2009.09.057 . Retrieved 9 October 2022.
  9. Roland, C. M. (1989). "Network Recovery from Uniaxial Extension: I. Elastic Equilibrium". Rubber Chemistry and Technology. 62 (5): 863–879. doi:10.5254/1.3536280 . Retrieved 9 October 2022.
  10. "Roland wins Charles Goodyear Medal". Rubber and Plastics News. 11 October 2011. Retrieved 7 October 2021.



Flag of the United States.svg Scientist.svg Science-symbol-2.svg

This article about an American scientist is a stub. You can help Wikipedia by expanding it.

This page is based on this Wikipedia article
Text is available under the CC BY-SA 4.0 license; additional terms may apply.
Images, videos and audio are available under their respective licenses.