• Title of article

    Non-Contact Measurements of the Thermophysical Properties of Hafnium-3 Mass% Zirconium at High Temperature

  • Author/Authors

    P.-F. Paradis، نويسنده , , T. Ishikawa and S. Yoda ، نويسنده ,

  • Issue Information
    روزنامه با شماره پیاپی سال 2003
  • Pages
    20
  • From page
    239
  • To page
    258
  • Abstract
    Several thermophysical properties of hafnium-3 mass % zirconium, namely the density, the thermal expansion coefficient, the constant pressure heat capacity, the hemispherical total emissivity, the surface tension and the viscosity are reported. These properties were measured over wide temperature ranges, including overheated and undercooled states, using an electrostatic levitation furnace developed by the National Space Development Agency of Japan. Over the 2220 to 2875 K temperature span, the density of the liquid can be expressed as rL(T)=1.20×104−0.44(T−Tm) (kg ·m−3) with Tm=2504 K, yielding a volume expansion coefficient aL(T)=3.7×10−5 (K−1). Similarly, over the 1950 to 2500 K span, the density of the high temperature and undercooled solid b-phase can be fitted as rS(T)=1.22×104−0.41(T−Tm), giving a volume expansion coefficient aS(T)=3.4×10−5. The constant pressure heat capacity of the liquid phase can be estimated as CPL(T)=33.47+7.92×10−4(T−Tm) (J ·mol−1·K−1) if the hemispherical total emissivity of the liquid phase remains constant at 0.25 over the 2250 K to 2650 K temperature iInterval. Over the 1850 to 2500 K temperature span, the hemispherical total emissivity of the solid b-phase can be represeInted as eTS(T)=0.32+4.79×10−5(T−Tm). The latent heat of fusion has also been measured as 15.1 kJ ·mol−1. In addition, the surface tension can be expressed as s(T)=1.614×103−0.100(T−Tm) (mN·m−1) and the viscosity as h(T)=0.495 exp[48.65×103/(RT)] (mPa· s) over the 2220 to 2675 K temperature range.
  • Keywords
    hemispherical total emissivity , heat capacity , latent heat of fusion , non-contact processing , viscosity. , surface tension , Density , Liquid metal , hafnium
  • Journal title
    International Journal of Thermophysics
  • Serial Year
    2003
  • Journal title
    International Journal of Thermophysics
  • Record number

    426941