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Turbine blades of the single crystal nickel based CMSX-6 superalloy

Wybrane pełne teksty z tego czasopisma
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Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
Purpose: Research and Development Laboratory for Aerospace Materials in Rzeszow University of Technology is the place where production of single crystal nickel base superalloys has been proved technically feasible. This paper presents the method of manufacturing the single crystal superalloys turbine blades and the prospective developments of the enterprise. Design/methodology/approach: Turbine blades were produced in the vacuum induction melting furnace ALD for investment casting of equiaxed, directionally solidified and single crystal materials. The CMSX-6 nickel based superalloy is used for production of turbine blades. Findings: The ceramic moulds production process was formulated. All main parameters of single crystal production was accordanted. Research limitations/implications: EBSD analysis clearly revealed that the casted turbine blades are single crystals and possessed [001] crystal orientation. Originality/value: The paper gives a general review of the technology of production single crystals turbine blades.
Rocznik
Strony
66--69
Opis fizyczny
Bibliogr. 15 poz., rys., tabl.
Twórcy
autor
autor
  • Department of Materials Science, Rzeszow University of Technology, ul. W. Pola 2, 35-959 Rzeszów, Poland, onyszko@prz.edu.pl
Bibliografia
  • [1] W. Betteridge, S.W.S. Shaw, Development of superalloys, Materials Science and Technology 3 (1987) 682-694.
  • [2] R. C. Reed, The superalloys: Fundamentals and Application, Cambridge University Press, Cambridge, 2006.
  • [3] J. Sieniawski, Criteria and methods of properties evaluation used for aircraft turbine engines materials, PRz Publishing House, Rzeszow, 1995.
  • [4] J. C. Williams, E. A. Strake, Progress in structural materials for aerospace systems, Acta Materialia 51 (2003) 5775-5799.
  • [5] R. Scharfrik, R. Sprague, The saga of gas turbine materials, Part III, Advanced Materials and Processes 162 (2004) 33-35.
  • [6] G. A. Whittaker, Precision casting of aero gas turbine components, Materials Science and Technology 2 (1986) 436-441.
  • [7] J. D. Livingston, H. E. Cline, E. F. Koch, R. R. Russell, High speed solidification of several eutectic alloys, Acta Metallurgica 18 (1970) 399-403.
  • [8] T. P. Gabb, G. Welsch, The high temperature deformation in cyclic loading of a single crystal nickel-base superalloy, Acta Metallurgica 37 (1989) 2507-2514.
  • [9] A. D. Cetel, D. N. Duhl, Second generation nickel-base single crystal superalloy, in: Superalloys, PA: The Metallurgical Society, Warrendale, 1988, 236-243.
  • [10] F. R. N. Nabarro, H. L. de Villiers, The Physics of Creep, Taylor and Francis, 1995.
  • [11] S. Suresh, Fatigue of Materials, Second Edition, Cambridge University Press, Cambridge, 1998.
  • [12] T. I. Barry, A. T. Dinsdale, Thermodynamics of metal gas liquid reactions, Materials Science and Technology 3 (1987) 503-510.
  • [13] A. G. Dodd, mechanical design of gas turbine blanding in cast superalloys, Materials Science and Technology 2 (1986) 476-480.
  • [14] L. A. Jackman, G.A. Maurer, S. Widge, New knowledge about white spots in superalloys, Journal of Metals 43 (1993) 19-25.
  • [15] D. Furrer, H. Fecht, Ni-based superalloys for turbine discs, Journal of Metals 51 (1999) 15-18.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-article-BOS2-0019-0054
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