Browsing by Author "Gordo, Elena"

Now showing items 1-5 of 6

  • Evaluation of the mechanical properties of powder metallurgy Ti-6Al-7Nb alloy

    Bolzoni, Leandro; Ruiz-Navas, Elisa María; Gordo, Elena (2017-03)
    Titanium and its alloys are common biomedical materials owing to their combination of mechanical properties, corrosion resistance and biocompatibility. Powder metallurgy (PM) techniques can be used to fabricate biomaterials ...
  • Joint effect of steel addition and press-and-sinter on the properties of low-cost PM Ti Alloys

    Bolzoni, Leandro; Ruiz-Navas, Elisa María; Gordo, Elena (Trans Tech Publications, 2018)
    Cheap alloying elements and creative processing techniques are a way forward to open up more industrial opportunities for Ti in sectors where it is not extensively applied yet, rather than in aerospace and biomedical ...
  • Low-Cost α+β PM Ti Alloys by Fe/Ni Addition to Pure Ti

    Bolzoni, Leandro; Ruiz-Navas, Elisa María; Gordo, Elena (2016)
    Ti and its alloys can deliver a very interesting combination of properties such as low density, high strength, corrosion resistance and biocompatibility and, therefore, are very flexible materials which can be adapted to ...
  • Modification of sintered titanium alloys by hot isostatic pressing

    Bolzoni, Leandro; Ruiz-Navas, Elisa María; Zhang, Deliang; Gordo, Elena (Trans Tech Publications, 2012)
    Powder metallurgy (PM) permits to obtain titanium alloys with properties and microstructures close to ingot metallurgy products. However, residual porosity is normally present in the products produced by the PM route of ...
  • Quantifying the properties of low-cost powder metallurgy titanium alloys

    Bolzoni, Leandro; Ruiz-Navas, Elisa María; Gordo, Elena (2017-02)
    The extensive industrial employment of titanium is hindered by its high production costs where reduction of these costs can be achieved using cheap alloying elements and appropriate alternative processing techniques. In ...

Elena Gordo has 3 co-authors in Research Commons.