Author:
Kalinina N.E.,Hlushkova D.B.,Hrinchenko O.D.,Kalinin V.T.,Voronkov A.I.,Kostina L.L.,Nikitchenko I.N.,Nosova T.V.,Reznikov A.A.
Abstract
With a purpose of creating anti-erosion protection on turbine rotor blades the experiments in electrospark alloying using electrodes made of different materials: Т15К6 hard alloy and 15Х11МФШ steel were conducted. Reduction of the roughness of a surface layer having a uniform thickness was achieved upon its hardening with a steel electrode. The electrospark alloying process was perfected. Tests of mechanical properties of blade samples hardened with steel revealed overmatch of GOST requirements for strength and ductility. Increasing of surface layer microhardness was also achieved. For anti-erosion protection of leading edges of the turbine rotor blades it is recommended to replace the applied electrode made ofТ15 К6 alloy with the one made of 15Х11МФШ steel.
Publisher
Problems of Atomic Science and Technology
Reference13 articles.
1. B. Luiset, F. Sanchette, A. Billard, D. Schuster. Mechanisms of stainless steels erosion by water droplets // Wear. 2013, v. 303, p. 459-464.
2. G.M.L. Murari, P. Singh. Turbine Blade Construction, Materials and Manufacture in de Blade Design and Analysis for Steam Turbines, McGraw Hill, 2011, p. 67-78.
3. Bernd M. Schonbauer, Stefanie E. Stanzl-Tschegg, Andrea Perlega, Ronald N. Salzman, Neville F. Rieger, Shengqi Zhou, Alan Turnbull, David Gandy. Fatigue life estimation of pitted 12% Cr steam turbine blade steel in different environments and at different stress ratios // International Journal of Fatigue. 2014; v. 65, p. 33-43.
4. Krunal K. Ratthod, Praful G. Patil, Purvik R. Patel. Heat Treatment of Steam-Turbine Rotor Blade by Induction Hardening // International Journal of Scientific & Engineering Research. v. 8, issue 3, March-2017 694 ISSN 2229-5518 IJSER © 2017 http://www.ijser.org.
5. Technical Guides “РТМ 108.020.15-86”. Metals for turbines and heat-exchange equipment of nuclear power plants.
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