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Volume 18 Issue 5
Oct.  2011
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Mevlüt Şahinand Hasan Kaya, Mechanical properties of directionally solidified lead-antimony alloys, Int. J. Miner. Metall. Mater., 18(2011), No. 5, pp. 582-588. https://doi.org/10.1007/s12613-011-0481-2
Cite this article as:
Mevlüt Şahinand Hasan Kaya, Mechanical properties of directionally solidified lead-antimony alloys, Int. J. Miner. Metall. Mater., 18(2011), No. 5, pp. 582-588. https://doi.org/10.1007/s12613-011-0481-2
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Mechanical properties of directionally solidified lead-antimony alloys

  • 通讯作者:

    Hasan Kaya    E-mail: hasankaya@erciyes.edu.tr

  • The Pb-17wt% Sb alloy was directionally solidified under two solidification conditions: with different temperature gradients (G=0.93–3.67 K/mm) at a constant growth rate (V=17.50 μm/s) and with different growth rates (V=8.3–497 μm/s) at a constant temperature gradient (G=3.67 K/mm) in a Bridgman furnace. Microstructure parameters, such as primary dendrite arm spacing (λ1), secondary dendrite arm spacing (λ2), and dendrite tip radius (R), were measured. The microhardness (Hv) and ultimate tensile strength (σ) of the directional solidification samples were also measured. The influences of solidification and microstructure parameters on Hv and σ were investigated. The results obtained in this work were compared with similar experimental researches in literatures. It is shown that the Hv and σ values increase with the increase of G and V, but decrease with the increase of λ1, λ2, and R.
  • Mechanical properties of directionally solidified lead-antimony alloys

    + Author Affiliations
    • The Pb-17wt% Sb alloy was directionally solidified under two solidification conditions: with different temperature gradients (G=0.93–3.67 K/mm) at a constant growth rate (V=17.50 μm/s) and with different growth rates (V=8.3–497 μm/s) at a constant temperature gradient (G=3.67 K/mm) in a Bridgman furnace. Microstructure parameters, such as primary dendrite arm spacing (λ1), secondary dendrite arm spacing (λ2), and dendrite tip radius (R), were measured. The microhardness (Hv) and ultimate tensile strength (σ) of the directional solidification samples were also measured. The influences of solidification and microstructure parameters on Hv and σ were investigated. The results obtained in this work were compared with similar experimental researches in literatures. It is shown that the Hv and σ values increase with the increase of G and V, but decrease with the increase of λ1, λ2, and R.
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