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Konstantin Khrenov

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Konstantin Konstantinovich Khrenov
Born
Константин Константинович Хренов

(1894-02-13)13 February 1894
Died12 October 1984(1984-10-12) (aged 90)
EducationSaint Petersburg State Electrotechnical University
Occupation(s)Engineer, professor
Known forInventor of underwater welding
AwardsOrder of Lenin
Order of the October Revolution
State Stalin Prize
USSR State Prize

Konstantin Konstantinovich Khrenov (Russian: Константин Константинович Хренов; 13 February 1894 – 12 October 1984) was a Soviet engineer and inventor who in 1932 introduced underwater welding and cutting of metals.[1][2] For this method, extensively used by the Soviet Navy during World War II, Khrenov was awarded the State Stalin Prize in 1946.

Biography

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Khrenov was born in 1894 in Borovsk, a town in Kaluga Oblast, Russia, located just south from its border with the Moscow Oblast. In 1918, he graduated from the department of electrochemistry of Saint Petersburg State Electrotechnical University (ETU). After graduation, he continued his research at ETU and worked there as a lecturer between 1921 and 1925. He then moved to Moscow and between 1928 and 1947 was teaching at the Moscow Institute of Electromechanical Engineering (Railway Transport); in 1933 he became a professor there. In parallel, between 1931 and 1947 Khrenov was teaching at the Bauman Moscow State Technical University – one of the oldest and largest Russian technical universities.[2][3]

In the 1940s, Khrenov moved to Ukraine where he assumed professor positions at the following institutions:[3]

  • 1945–48 – Institute of Electric Welding
  • 1948–1952 – Institute of Structural Mechanics
  • 1952–1963 – Institute of Electrical Engineering
  • 1947–1958 – Kiev Polytechnic Institute
  • 1963–till retirement – Institute of Electric Welding.

Achievements

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A modern underwater welding

Khrenov dedicated his entire career to the development of welding techniques and equipment. He invented methods of electric welding and cutting metals under water, designed power sources for arc and spot welding, ceramic fluxes, electrode coatings, methods of cold pressure welding, diffusion welding, plasma cutting and many others.[3] His breakthrough achievement was development of the electrodes for underwater welding in 1932. Their successful test at the Black Sea in the same year was the first practical realization of underwater welding.[4][5] In this method, the gas bubbles formed as a result of welding reactions were generating a stable flow which shielded the arc from water.[6] Underwater welding had quickly found practical application and already in 1936–1938 was used in the lifting of the ship Boris sunk in the Black Sea, as well as in the repair of bridges and other ships, especially during World War II.[7][8]

Awards

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For his pioneering work in underwater welding, Khrenov was awarded the State Stalin Prize in 1946. He was elected a member of the National Academy of Sciences of Ukraine and of the Russian Academy of Sciences in 1945 and 1953, respectively. His lifetime achievements were later acknowledged by the Council of Ministers (Soviet Union) Prize (1982), and USSR State Prize (1986, posthumously). His other decorations include Order of Lenin, Order of the October Revolution and several other lesser orders.[3]

Books

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See also

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References

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  1. ^ Institute of Welding Welding and metal fabrication, Vol. 13–14, IPC Scientific and Technology Press, 1945, p. 529
  2. ^ a b Carl W. Hall A biographical dictionary of people in engineering: from the earliest records until 2000 Archived 2023-04-10 at the Wayback Machine, Vol. 1, Purdue University Press, 2008 ISBN 1-55753-459-4 p. 120
  3. ^ a b c d Хренов Константин Константинович Archived 2010-06-21 at the Wayback Machine, Great Soviet Encyclopedia (in Russian)
  4. ^ "The Rise of the Soviet Navy". Archived from the original on 2011-10-17. Retrieved 2010-12-10.
  5. ^ Хренов К.К. (1933). "Электросварка под водой (Electric welding underwater)". Сварщик. 1: 23–24.
  6. ^ "Unknown". Chemistry. 20. American Chemical Society: 26. 1946., same in Electricity and Gas Used in Under-Water Cutting, (1945) Science news, Vol. 47–48, p. 152
  7. ^ Подводная сварка и резка (Underwater welding and cutting Archived 2012-03-15 at the Wayback Machine (in Russian)
  8. ^ John Turkevich Soviet men of science: academicians and corresponding members of the Academy of Sciences of the USSR, Van Nostrand, 1963, p. 160