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Tytuł artykułu

Simulation of the tensile behaviour of two-phase titanium alloy with diffusion hardened layer

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Identyfikatory
Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
Because of the poor tribological properties titanium alloys are often surface treated in order to improve their load bearing capacity and wear resistance. Various surface engineering techniques are applied to produce hard single or multilayered coatings, composed of various intermetallic phases, e.g. TiN, Ti2N, Ti(C,N), TiAl and others. During thermochemical treatment hardened diffusion layer can also be formed. It acts as a support for the coating that possesses significantly higher stiffness and strength properties than substrate material, and can improve durability of the elements due to reduction of localized plastic deformation of the substrate in case of stress eoncentration resulting from elastic coating cracking. In the paper results of the computational analysis of tensile tests of two-phase titanium alloy were summarized, both with and without diffusion layer. Influence of the volume fraction of a and /3 phases, their strength properties, depth and strength of the diffusion layer on plastic deformation behaviour of the alloy was determined.
Rocznik
Strony
131--136
Opis fizyczny
Bibliogr. 16 poz., rys.
Twórcy
autor
  • Rzeszów University of Technology, Faculty of Mechanical Engineering and Aeronautics, Department of Materials Science, Rzeszów, Poland
Bibliografia
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  • 4. Nascimento M.P., Souza R.C., Pigatin W.L., Voorwald H.J.C.: Effects of surface treatment on the fatigue strength of AISI 4340 aeronautical steel. Int. J. Fatig. 23 (2001), pp. 607-618.
  • 5. Baragetti S., La Vecchia G.M., Terranova A.: Fatigue behaviour and FEM modclling of thin-coated components. Int. J. Fatig. 25 (2003), pp. 1229-1238.
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  • 9. Bolmaro R.E., Browning R.V., Gucrra F.M., Rollet A.D.: Finite element method simulations for two-phase material plastic strains. Mater. Sci. Eng. A196 (1995), pp. 53-63.
  • 10. Chakraborty A., Earthman J.C.: Numerical models of creep cavitation in single-phase, dual-phase, and fully lamellar titanium aluminide. Acta Mater. 45 (1997), pp. 4615-4626.
  • 11. Ankem S., Margolin H., Greene C.A., Neuberger B.W., Oberson P.G.: Mechanical properties of alloys consisting of two ductile phases. Progr. Mater. Sci. 51 (2006), pp. 632-709.
  • 12. ADINA -Theory and Modeling Guide. ADINA R&D, Inc., Watertown MA, 2004.
  • 13. Morrissey R.J., McDowell D.L., Nicholas T.: Microplasticity in HCF of Ti-6AI4V. Int. J. Fatig. 23 (2001), pp. S55-S64.
  • 14. Sieniawski J.: Przemiany fazowe i ocena możliwości kształtowania struktury w wieloskładnikowych stopach tytanu z zawartością Al, Mo, V i Cr., Publishing house of Rzcszow Univcrsity of Technology, Rzeszow, 1985.
  • 15. Goh C.-H., Wallacc J.M., Ncu R.W., McDowell D.L.: Polycrystal plasticity simulations of fretting fatigue. Int. J. Fatig. 23 (2001), pp. S423-S435.
  • 16. Ziaja W., Sieniawski J., Motyka M.: Investigation of stress distribution in α+β titanium alloy by FEM. Proc. of the 10th World Conf. on Titanium" Ti-2003 Science and Technology" eds. Lutjering G, Albrecht J., Wiley-VCH Verlag GmbH & Co. KGaA, Weinheim 2004, pp. 1505-1510.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-article-BPG4-0028-0034
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