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Thermal ConductivityMagnesium OxideEarth (Planet)Dielectric SpectroscopyGraphiteNanotubes, CarbonHot TemperatureTemperatureElectric Conductivity

Theoretical analysis of three methods for calculating thermal insulation of clothing from thermal manikin. (73/114)

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Growth, thermal and spectral properties of Er3+-doped and Er3+/Yb3+-codoped Li3Ba2La3(WO4)8 crystals. (74/114)

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Potential influences of climate and nest structure on spotted owl reproductive success: a biophysical approach. (75/114)

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Real time estimation of brain water content in comatose patients. (76/114)

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A finite element thermal analysis of various dowel and core materials. (77/114)

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Lipid class and depth-specific thermal properties in the blubber of the short-finned pilot whale and the pygmy sperm whale. (78/114)

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Models of cylindrical bubble pulsation. (79/114)

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Thermoelectric properties of Ca(1-x)Gd(x)MnO(3-delta) (0.00, 0.02, and 0.05) systems. (80/114)

Polycrystalline samples of Ca(1-x)Gd(x)MnO(3-delta) (x = 0.00, 0.02, and 0.05) have been studied by X-ray diffraction (XRD), electrical resistivity (rho), thermoelectric power (S), and thermal conductivity (kappa). All the samples were single phase with an orthorhombic structure. The Seebeck coefficient of all the samples was negative, indicating that the predominant carriers are electrons over the entire temperature range. The iodometric titration measurements indicate that the electrical resistivity of Ca(1-x)Gd(x)MnO(3-delta) correlated well with the average valence of Mn(v+) and oxygen deficiency. Among the doped samples, Ca(0).(9)(8)Gd(0).(0)(2)MnO(3-delta) had the highest dimensionless figure of merit 0.018 at 300 K, representing an improvement of about 125% with respect to the undoped GaMnO(3-delta) sample at the same temperature.  (+info)