Filters

2016 - 20172

More filters

20192
Reset filters

Settings

End date: 2019 × Start date: 2016 × Publisher: Heidelberg : Springer × Subject: metallic glasses ×

Search Results

Now showing 1 - 2 of 2
  • Thumbnail Image
    Item
    Properties of the Ti40Zr10Cu36Pd14 BMG modified by Sn and Nb aqdditions
    (Heidelberg : Springer, 2016) Sypien, Anna; Stoica, Mihail; Czeppe, Tomasz
    The results of investigation of the influence of additions of 2 and 3 at.% of Sn and simultaneously of Sn and 3 at.% Nb on microstructure and properties of the bulk metallic glasses of composition (Ti40Cu36−x Zr10Pd14Sn x )100−y Nb y are reported. It was found that the additions of Sn increased the temperatures of glass transition (T g), primary crystallization (T x ), melting, and liquidus as well as supercooled liquid range (ΔT) and glass forming ability (GFA). The nanohardness and elastic modulus decreased in alloys with 2 and 3 at.% Sn additions, revealing similar values. The 3 at.% Nb addition to the Sn-containing amorphous phase decreased as well all the T g, T x , T L, and T m temperatures as ΔT and GFA; however, relatively larger values of this parameters in alloys containing larger Sn content were preserved. In difference to the previously published results, in the case of the amorphous alloys containing small Nb and Sn additions, a noticeable amount of the quenched-in crystalline phases was not confirmed, at least of the micrometric sizes. In the case of the alloys containing Sn or both Sn and Nb, two slightly different amorphous phase compositions were detected, suggesting separation in the liquid phase. Phase composition of the alloys determined after amorphous phase crystallization was similar for all compositions. The phases Cu8Zr3, CuTiZr, and Pd3Zr were mainly identified in the proportions dependent on the alloy compositions.
  • Thumbnail Image
    Item
    Importance of surface oxide for the tribology of a Zr-based metallic glass
    (Heidelberg : Springer, 2017) Kang, S.J.; Rittig, Kai Thomas; Kwan, S.G.; Park, H.W.; Bennewitz, Roland; Caron, Arnaud
    Thermally grown surface oxide layers dominate the single-asperity tribological behavior of a Zr60Cu30Al10 glass. Increase in oxidation time leads to an increased contribution of shearing and a corresponding decreased contribution of ploughing to friction. This change in the dominating friction and wear mechanism results in an overall minor decrease of the friction coefficient of oxidized surfaces compared to the metallic glass sample with native surface oxide. Our results demonstrate the importance of creating a stable oxide layer for practical applications of metallic glasses in micro-devices involving sliding contact.