Results 251 to 260 of about 764,032 (331)
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A review of the coefficient of thermal expansion and thermal conductivity of graphite
New Carbon Materials, 2022Lu Zhao, Jiang Tang, Min Zhou, Ke Shen
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Superior thermal conductivity of single-layer graphene.
Nano Letters, 2008A. Balandin +6 more
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, 2020
This article seeks to experimentally estimate the variation of temperature-dependent thermal conductivity. While utilized cylindrical samples for this purpose are subjected to an impinging hot air jet from a surface, the time-history of temperature is ...
S. D. Farahani, Mahdi Sojoudi Kisomi
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This article seeks to experimentally estimate the variation of temperature-dependent thermal conductivity. While utilized cylindrical samples for this purpose are subjected to an impinging hot air jet from a surface, the time-history of temperature is ...
S. D. Farahani, Mahdi Sojoudi Kisomi
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The Journal of Chemical Physics, 2023
Since the 1920s, the Enskog solutions to the Boltzmann equation have provided a route to predicting the transport properties of dilute gas mixtures. At higher densities, predictions have been limited to gases of hard spheres. In this work, we present a revised Enskog theory for multicomponent mixtures of Mie fluids, where the Barker–Henderson ...
Vegard G. Jervell, Øivind Wilhelmsen
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Since the 1920s, the Enskog solutions to the Boltzmann equation have provided a route to predicting the transport properties of dilute gas mixtures. At higher densities, predictions have been limited to gases of hard spheres. In this work, we present a revised Enskog theory for multicomponent mixtures of Mie fluids, where the Barker–Henderson ...
Vegard G. Jervell, Øivind Wilhelmsen
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Thermal Conductivity and Seebeck Coefficient of InP
Physical Review, 1964The thermal conductivity and the Seebeck coefficient of two undoped InP crystals were measured between 300 and 800\ifmmode^\circ\else\textdegree\fi{}K. Computed values of the Seebeck coefficient, assuming pure polar scattering, are in excellent agreement with the experimental data.
I. Kudman, E. F. Steigmeier
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The thermal diffusivity and thermal conductivity coefficient of methanol vapour
Chemical Physics Letters, 1987Abstract The thermal diffusivity of methanol vapour is measured by the thermal lens technique giving values of 0.76, 1.02, 1.70 and 1.78 N s −1 at 321, 341, 377 and 405 K respectively. These thermal diffusivities are shown to be pressure-independent, the pressure dependence of the thermal conductivity merely reflecting the pressure-dependent heat ...
R.T. Bailey +3 more
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Macromolecular rapid communications, 2021
The integration of intrinsic thermal conductivity and intrinsic flame retardancy of epoxy resins shows wider application prospects in electricals and electronics.
Xiao Zhong +4 more
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The integration of intrinsic thermal conductivity and intrinsic flame retardancy of epoxy resins shows wider application prospects in electricals and electronics.
Xiao Zhong +4 more
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Heat conduction with a temperature-dependent thermal conductivity coefficient
Journal of engineering physics, 1970A variational method is employed to solve stationary and nonstationary heat conduction problems when the thermal conductivity coefficient is temperature-dependent and the heat generation function of the medium is arbitrary.
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Seebeck coefficient and thermal conductivity in doped C60
Journal of Renewable and Sustainable Energy, 2009Pressed bulk samples of C60 doped with P, Co, Al, and Bi have been investigated for their thermoelectric properties. These samples show extremely low thermal conductivity, typically in the range of 0.1–0.3W∕Km at room temperature. The Seebeck coefficients of Co, Al, and Bi doped C60 solids are in the tens of μV∕K; however, for P doped C60 samples, a ...
Wendong Wang +6 more
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, 2021
The current study investigated the variation of the thermal conductivity coefficient of TiO2-Graphene/Water hybrid nanofluid. Hybrid nanofluids were tested at different temperatures (25 to 75 °C) and different volume fractions (0.005 to 0.5%).
R. Bakhtiari +3 more
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The current study investigated the variation of the thermal conductivity coefficient of TiO2-Graphene/Water hybrid nanofluid. Hybrid nanofluids were tested at different temperatures (25 to 75 °C) and different volume fractions (0.005 to 0.5%).
R. Bakhtiari +3 more
semanticscholar +1 more source