• Title of article

    Influence of plasma and cold spray deposited Ti Layers on high-cycle fatigue properties of Ti6Al4V substrates

  • Author/Authors

    Cizek، نويسنده , , Jan and Kovarik، نويسنده , , Ondrej and Siegl، نويسنده , , Jan and Khor، نويسنده , , Khiam Aik and Dlouhy، نويسنده , , Ivo، نويسنده ,

  • Issue Information
    روزنامه با شماره پیاپی سال 2013
  • Pages
    11
  • From page
    23
  • To page
    33
  • Abstract
    This paper presents a summary of the research on the influence of plasma and cold spray deposition of bio-grade Ti powder on the high-cycle fatigue properties of Ti6Al4V substrates. ets of flat specimens (as-received, grit-blasted, plasma and cold sprayed) were prepared and subjected to cantilever–beam cyclic bend loading with a constant deflection of the free end. found that the grit-blasting procedure significantly increased the fatigue lives of the specimens compared to the as-received set (1.81 × increase). The deposition of the coatings onto grit-blasted specimens led to deterioration of fatigue properties. The average fatigue lives of the plasma sprayed and cold sprayed samples reached 1.16 × and 0.91 × of the as-received specimens, respectively. er to understand the positive effect of the grit-blasting procedure and the adverse effect of the coatings deposition on fatigue lives, chemical analyses, fractographic analysis, microstructural investigations as well as layers elastic moduli estimation were carried out. It was found that the cold spray deposition retained the composition of the powder feedstock while a complete transformation of Ti into nitrides and oxides was detected in the plasma deposited layers. Owing to the different coating build-up principles and their respective different porosity levels, the moduli of the coatings were found to vary (7.2 GPa for plasma sprayed and 36.7 GPa for cold sprayed layers). The fatigue crack initiation sites and propagation directions in the plasma and cold sprayed specimens were found to differ substantially. Based on the obtained results, two explanations of the fatigue loading results are suggested in the paper.
  • Keywords
    plasma spray , high-cycle fatigue , Cold spray , Ti6Al4V , Elastic modulus calculation , Titanium coating
  • Journal title
    Surface and Coatings Technology
  • Serial Year
    2013
  • Journal title
    Surface and Coatings Technology
  • Record number

    1827258