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2018 | 25 | Special Issue S1 |

Tytuł artykułu

Application of Rapid Prototyping technology in the manufacturing of turbine blade with small diameter holes

Warianty tytułu

Języki publikacji

EN

Abstrakty

EN
The article presents the possibilities++ of using Rapid Prototyping (RP) technology in the manufacturing of turbine blades with small diameter holes. The object under investigation was gas turbine blade with small diameter cooling holes and holes for generating longitudinal vortices. A turbine blade model was produced by means of Direct Metal Laser Sintering (DMLS) technology and subsequently validated in terms of detection and accuracy of the obtained holes. The application of the computer tomography and digital radiography technique resulted in obtaining a series of cross-sections of the turbine blade model with a series of holes. Particular attention was pointed out at the investigation of the locations of micro-holes with a diameter of 0.3 mm. It turned out that it was impossible to make such small holes by the RP method. In the following part the results of the study on the possibilities of making the micro-holes using electrical discharge method have been presented. In addition, proposition of further works such as the development of the considerations and issues discussed in this article, has been offered

Słowa kluczowe

Wydawca

-

Rocznik

Tom

25

Opis fizyczny

p.119-123,fig.,ref.

Twórcy

autor
  • Department of Manufacturing and Production Engineering, Faculty of Mechanical Engineering, Gdansk University of Technology, 11/12 Narutowicza St., 80-233 Gdansk, Poland
  • Department of Manufacturing and Production Engineering, Faculty of Mechanical Engineering, Gdansk University of Technology, 11/12 Narutowicza St., 80-233 Gdansk, Poland
  • Institute of Fluid-Flow Machinery, Polish Academy of Sciences, 14 Fiszera St., 80-231 Gdansk, Poland
autor
  • Department of Manufacturing and Production Engineering, Faculty of Mechanical Engineering, Gdansk University of Technology, 11/12 Narutowicza St., 80-233 Gdansk, Poland
autor
  • Department of Manufacturing and Production Engineering, Faculty of Mechanical Engineering, Gdansk University of Technology, 11/12 Narutowicza St., 80-233 Gdansk, Poland

Bibliografia

  • 1. Flaszynski P., Doerffer P., Piotrowicz M.: Effect of Jet Vortex Generators on Shock Wave Induced Separation on Gas Turbine Profile. Proceedings of the 13thInternational Symposium on Experimental Computational Aerothermodynamics of Internal Flows, 7-11 May 2017, Okinawa, Japan.
  • 2. Gebhard J.: Generative Fertigungsverfahren, Additive Manufacturing und 3D Drucken für Prototyping-Tooling-Produktion; Prototyping-Tooling-Produktion, Carl Hanser Verlag, München 2013.
  • 3. Iftikhar A., Khan M., Alam K., Imran Jaffery S. H., Ali L., Ayaz Y. and Khan A.: Turbine blade manufacturing through rapid tooling (RT) process and its quality inspection. Materials and Manufacturing Processes, Vol. 28, Issue 5, (2013), pp. 534-538.
  • 4. Lampart P., Kosowski K., Piwowarski M. and Jędrzejewski Ł.: Design analysis of Tesla micro-turbine operating on a low-boiling medium. Polish Maritime Research, Special issue 2009/S1; pp. 28-33.
  • 5. Nikon XT H series, X-ray technology and CT for industrial applications, Nikon Metrology/ Vision Beyond Precision, 2017.
  • 6. Tan X., Kok Y., Tor S. B. and Chua, C. K.: Application of Electron Beam Melting (EBM) in Additive Manufacturing of an Impeller. Proceedings of the 1st International Conference on Progress in Additive Manufacturing (Pro-AM 2014), 2014, pp. 327-332.
  • 7. Vaezi M., Safaeian D. and Chua C.K.: Gas turbine blade manufacturing by use of epoxy resin tooling and silicone rubber moulding techniques. Rapid Prototyping Journal, Vol. 17 Issue: 2, 2011, pp.107-115.
  • 8. Vayre B., Vignat F. and Villeneuve F.: Designing for Additive Manufacturing. 45th CIRP Conference on Manufacturing Systems, Procedia CIRP 3, 2012, pp. 632–637.
  • 9. VDI 3405:2014-12: Additive manufacturing processes, rapid manufacturing - Basics, definitions, processes.
  • 10. Yadroitsev I. and Yadroitsava I.: Evaluation of residual stress in stainless steel 316L and Ti6Al4V samples produced by selective laser melting. Virtual and Physical Prototyping. Vol. 10, No. 2, 2015, pp. 67–76.
  • 11. Yakout M., Elbestawi M.A. and Veldhuis S.C.: On the characterization of stainless steel 316L parts produced by selective laser melting. The International Journal of Advanced Manufacturing Technology,2017, pp 1-22.
  • 12. https://drukarki3d.pl/technologie/dmls/13. https://drukarki3d.pl/materialy/dmls/eos-maragingsteel-ms1/

Typ dokumentu

Bibliografia

Identyfikatory

Identyfikator YADDA

bwmeta1.element.agro-83058fa0-7136-4cad-83c2-0c5f709ea456
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