Egon Orowan

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File:Solvay conference 1951 g.jpg
Solvay Conference on Physics in Brussels 1951. Left to right, sitting: Crussaro, N.P. Allen, Cauchois, Borelius, Bragg, Moller, Sietz, Hollomon, Frank; middle row: Rathenau,(nl) Koster, Rudberg,(sv), Flamache, Goche, Groven, Orowan, Burgers, Shockley, Guinier, C.S. Smith, Dehlinger, Laval, Henriot; top row: Gaspart, Lomer, Cottrell, Homes, Curien

Egon Orowan FRS (Template:Langx) (2 August 1902 – 3 August 1989) was a Hungarian-British physicist and metallurgist.<ref>{{#invoke:citation/CS1|citation |CitationClass=web }}</ref><ref name=":0">Template:Cite news</ref><ref name=":1">Nabarro, F.R.N. and Argon, A. S. "Egon Orowan. 1901—1989: A Biographical Memoir". Washington, D.C.: National Academies Press, 1996. p. 261-262.</ref> He was key in introducing crystal dislocation into physics and understanding of how materials plastically deform under stress.<ref name=":1" /><ref name=":3">Template:Cite news</ref> According to György Marx, he was one of The Martians, a group of Jews born in Pest between 1890 and 1910 who shaped the 20th century's technology after moving to the West.<ref>A marslakók legendája Template:Webarchive - György Marx</ref><ref>{{#invoke:citation/CS1|citation |CitationClass=web }}</ref>

Early life

Orowan was born in the Óbuda district of Budapest in 1902.<ref name=":1" /><ref name=":4">Template:Cite book</ref><ref name=":3" /> His parents were Josze (Josephine) Spitzer Ságvári and Berthold Orowan, a mechanical engineer and factory manager.<ref name=":1" /><ref name=":4" />

He attended the Staatsobergymnasium (Main Gimnázium) in District 9 of Budapest, graduating from high school in June 1920.<ref name=":4" /><ref name=":1" /> In 1920 he went to the University of Vienna, where he studied chemistry, mathematics, astronomy, and physics for two years.<ref name=":4" /><ref name=Keith>{{#invoke:citation/CS1|citation |CitationClass=web }}</ref> After six months of mandatory apprenticeship done home in Hungary, he was admitted to the Technische Hochschule in Charlottenburg (now Technische Universität Berlin), where he studied mechanical and then electrical engineering.<ref name=Keith/> Eventually he started his experiments in physics, where he became the assistant of Professor Richard Becker in 1928.<ref name=Keith/><ref name=":4" /> He completed his master's in 1928 and his doctorate of engineering in 1933 on the fracture of mica.<ref name=Nabarro>{{#invoke:citation/CS1|citation |CitationClass=web }}</ref><ref name=":4" />

Soon after Hitler's rise to power in 1933, Orowan, who was of Jewish descent, left his studies and career in Berlin and returned to Hungary.<ref name="AJR">{{#invoke:citation/CS1|citation |CitationClass=web }}</ref><ref name=":1" /><ref name=":4" />

Career

In 1934, Orowan wrote his famous paper on dislocations. He had been doing the experiments, while still in Berlin, which supported the theory put forward in Becker's 1925 paper.<ref name="Keith" /> In 1934, Orowan,<ref>Template:Cite journal</ref> roughly contemporarily with G. I. Taylor and Michael Polanyi, realized that the plastic deformation of ductile materials could be explained in terms of the theory of dislocations developed by Vito Volterra in 1905. Though the discovery was neglected until after World War II, it was critical in developing the modern science of solid mechanics.

In Hungary, he seemed to have experienced some difficulty in finding immediate employment and spent the next few years living with his mother and ruminating on his doctoral research.<ref name=Nabarro/><ref name=":4" /> From 1936 to 1939, he worked for the Tungsram light bulbs manufacturer, where, with the help of Mihály (Michael) Polanyi, he developed a new process for the extraction of krypton from the air.<ref name=Nabarro/><ref name="Keith" />

In 1937, aware of the imminence of war, Orowan accepted the invitation of Rudolf Peierls and moved to the University of Birmingham in the United Kingdom where they worked together on the theory of fatigue.<ref name="Keith" /><ref name=":4" /> In 1939, he moved to the Cavendish Laboritory at University of Cambridge, where William Lawrence Bragg inspired his interest in x-ray diffraction.<ref name=":4" /> He worked on structural problems on merchant marine ships.<ref name=":4" />

During World War II, he worked on problems of munitions production, particularly that of plastic flow during rolling. In 1944, he was central to the reappraisal of the causes of the loss of many Liberty ships during the war, identifying the critical issues of the notch sensitivity of poor quality welds and the aggravating effects of the extremely low temperatures of the North Atlantic.

In June 1950, he became a professor at the Massachusetts Institute of Technology where he headed its materials division and conducted research on solid-state materials.<ref>Template:Cite news</ref><ref name=":4" /> He became the George Westinghouse professor of mechanical engineering at MIT.<ref>Template:Cite news</ref> Later, his research interests expanded to include geology.<ref name=":4" /> He was a visiting professor at the Carnegie Institute of Technology in 1962, the Boeing Scientific Research Laboratory for a year in 1965–1977, and at the University of Pittsburgh in 1972.<ref name=":4" />

Orowan retired in 1968.<ref name=":0" /> After his retirement, he researched and wrote about economic stability in Western society, coming up with the term "socionomy".<ref name=":4" /> He also studied the Arab historian Ibn-Khaldun.<ref name=":4" />

Honors

Personal life

On 20 January 1941, Orowan married Joan Schonfeld, a pianist who studied at the Budapest Academy of Music.<ref name=":1" /><ref name=":4" /> They met in Budapest but were not romantically involved until meeting again in England where she was a refugee from Germany.<ref name=":1" /> They had one daughter, Susan K. (née Orowan) Martin.<ref>Nabarro, F.R.N. and Argon, A. S. "Egon Orowan. 1901—1989: A Biographical Memoir". Washington, D.C.: National Academies Press, 1996. p. 310.</ref><ref name=":3" />

Orowan died at the age of 87 on 3 August 1989, in the Mount Auburn Hospital in Cambridge, Massachusetts.<ref name=":0" /><ref name=":3" /> He was buried in the Mount Auburn Cemetery.<ref name=":1" />

Selected publications

  • "Zur Temperaturabhängigkeit der Kristallplastizität". Zeitschrift für Physikysik, vol. 102 (1936) 112–118.
  • "The Rate of Plastic Flow as a Function of Temperature". Proceedings of the Royal Society, vol. A168 (1938): 307–310.
  • "Problems of Plastic Gliding". Proceedings of the Physical Society, vol. 52 (1940): 8-22.
  • "Origin and Spacing of Slip Bands". Nature, vol. 147 (1941): 452–454.
  • "A New Method in X-ray Crystallography". Nature, vol. 149 (1942): 355–356.
  • "The Fatigue of Glass Under Stress". Nature, vol. 154 (1944): 341–343.
  • "Fracture and Notch Brittleness in Ductile Materials", in Brittle Fracture in Mild Steel Plates, British Iron and Steel Research Association Part 5 (1945) 69–78.
  • "Creep in Metallic and Non-metallic Materials". Proceeding of the First. U.S. National Congress of Applied Mechanics. New York: ASME, 1953. pp. 453– 472.
  • "Condition of High Velocity Ductile Fracture". Journal of Applied Physics, vol. 26 (1955): 900–902.
  • "Continental Drift and the Origin of Mountains". Science, vol. 146 (1964): 1003–1010.
  • "Dilatancy and the Seismic Focal Mechanism". Reviews of Geophysics, vol. 4 (1966): 395–404.
  • "The Origin of the Oceanic Ridges". Scientific American, vol. 221 (1969): 102–119.
  • "Surface Energy and Surface Tension in Solids and Liquids". Proceeding of the Royal Society, vol. A316 (1970) 473–491.

See also

References

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