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Welding International Volume 35, 2021 - Issue 10-12
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Translated Articles: 40th anniversary of the formation of the Laser Technology in Engineering department at Moscow State Technical University N.E. Bauman

Technological features of growing a combustion chamber of a liquid-propellant rocket engine by method of selective laser melting from AISI 316L steel*

A. G. Grigoryantsa Federal State Budgetary Educational Institution of Higher Education, Moscow State Technical University N.E. Bauman, Moscow, Russia
,
D. A. Yagodnikova Federal State Budgetary Educational Institution of Higher Education, Moscow State Technical University N.E. Bauman, Moscow, Russia
,
A. V. Kolchanovaa Federal State Budgetary Educational Institution of Higher Education, Moscow State Technical University N.E. Bauman, Moscow, Russia
,
K. E. Kovaleva Federal State Budgetary Educational Institution of Higher Education, Moscow State Technical University N.E. Bauman, Moscow, Russia
,
V. P. Aleksandrenkova Federal State Budgetary Educational Institution of Higher Education, Moscow State Technical University N.E. Bauman, Moscow, Russia
,
A. A. Dreninb Moscow Laser Technology Centre Ltd, Moscow, Russia
&
L. A. Shustovac JSC Scientific and Production Corporation, Design Bureau of Mechanical Engineering, Kolomna (Moscow Region), Russia
 show all
Pages 415-420 | Published online: 17 Sep 2021

References

  • Shishkovskii IV. Laser synthesis of functional-gradient mesostructures and three-dimensional articles. Moscow: FISMATLIT; 2009. p. 424.
  • Grigor’yants AG, Shiganov IN, Misyurov AI, et al. Laser additive technologies in engineering. Moscow: Izd. MGTU im. Baumana; 2018. p. 280. ISBN 978-5-7038-4976-7.
  • AshabulAnam M, Dilip JJS, Pal D, et al. Effect of scan pattern on the microstructural evolution of inconel 625 during selective laser melting. Louisville (KY): Department of Industrial Engineering J.B Speed School of Engineering/University of Louisville.
  • Cheng B, Shrestha S, Chou YK. Stress and deformation evaluations of scanning strategy effect in selective laser melting. Proceedings of the ASME 2016 International Manufacturing Science and Engineering Conference; 2016 Jun 27—Jul 1; Blacksburg, Virginia, USA.
  • Simonelli M, Tse YY, Tuck C. Further understanding of ti-6al-4v selective laser melting using texture analysis. REVIEWED. [Cited 2012 Aug 22].
  • Yang Y, Liu YJ, Chen J, et al. Crystallographic features of α variants and β phase for Ti—6Al—4V alloy fabricated by selective laser melting. Mater Sci Eng A. 2017. DOI:https://doi.org/10.1016/j.msea.2017.09.068
  • Perevoshchikova N, Rigaud J, Sha Y, et al. Optimisation of selective laser melting parameters for the Ni-based superalloy IN-738 LC using Doehlert’s design. Rapid Prototyping J. 2017. DOI:https://doi.org/10.1108/RPJ-04-2016-0063
  • ASM metals handbook Vol. 1 — properties and Selection: irons steels and high performance alloys. ASM International; 2002. p. 2521.
  • Grigor’yants AG, Shiganov IN, Misyurov AI. Technological processes for laser treatment. Moscow: Izd. MGTU; 2006. p. 660.

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