Spelling suggestions: "subject:"bthermal properties"" "subject:"3thermal properties""
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Heat transfer from electric power cables enclosed in vertical, protective shieldsHartlein, Richard Alan 05 1900 (has links)
No description available.
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Transient thermal models for substation transmission componentsConeybeer, Robert T. 08 1900 (has links)
No description available.
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Transient thermal ratings of underground power cablesPark, Sang-il 05 1900 (has links)
No description available.
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Theoretical modeling of onset of ledinegg flow instability in a heated channelRhodes, Matthew D. 05 1900 (has links)
No description available.
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High temperature degradation of combustion CVD coated thermal barrier coatingsRyan, David J. 08 1900 (has links)
No description available.
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Radiative ignition of a wall jetRing, Harvey Brents, III 05 1900 (has links)
No description available.
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The development of a method for predicting the thermal performanceof partially buried wallsHernandez, Francis Georg 08 1900 (has links)
No description available.
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The thermal effect and clocking in quantum-dot cellular automataKanuchok, Jonathan L. January 2004 (has links)
We present a theoretical study of quasi-adiabatic clocking and thermal effect in Quantum-dot Cellular Automata (QCA). Quasi-adiabatic clocking is the modulation of an inter-dot potential barrier in order to keep the QCA cells near the ground state throughout the switching process. A time-dependent electric field is calculated for arrays of charged rods. The electron tunneling between dots is controlled by raising and lowering a potential barrier in the cell.A quantum statistical model has been introduced to obtain the thermal average of polarization of a QCA cell. We have studied the thermal effect on QCA devices. The theoretical analysis has been approximated for a two-state model where the cells are in one of two possible eigenstates of the cell Hamiltonian. In general, the average polarization of each cell decreases with temperature and the distance from the driver cells. The results demonstrate the critical nature of temperature dependence for the operation of QCA. / Department of Physics and Astronomy
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Thermomechanical properties of polymers at high rates of strainTrojanowski, Albin S. January 1997 (has links)
-1 were achieved when testing specimens and this rate was obtained using a split Hopkinson pressure bar. A substantial number of preliminary tests were conducted in order to obtain a suitable specimen size which was then used in the temperature measurement process. Quasistatic, intermediate and high strain-rate tests were performed; the last utilised the radiometer for temperature measurement. An Eyring plot was constructed from which fundamental values for activation volumes and enthalpies were obtained. Full descriptions of the testing techniques used have been included and a brief photoelastic analysis has been carried out on a partially deformed specimen which shows molecular alignment.
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The thermal accommodation of helium and argon on hot tungstenWatts, Michael James January 1977 (has links)
Experiments are described in which the momentum flux of gas atoms, remitted normal to the surface of a hot clean tungsten ribbon immersed in a low pressure of helium or argon, is measured with a torsion balance and the thermal accommodation coefficient deduced. Data are presented in which the tungsten temperature range was 700 to 1900 K for helium and 1100 to 1700 K for argon. If it is assumed that the normal remitted momentum flux is that expected on assumption of the cosine emission relation, accommodation coefficients much larger (and for argon physically impossible) than those found previously by other workers are implied. A model is proposed which assumes that atoms impinging on and remitted from the hot tungsten ribbon conserve momentum in directions parallel to the surface. This results in a remitted flux, in the direction of the normal, greater than the cosine relation would predict. The resulting accommodation coefficients are then of the same order as those found using the total heat loss method. The method here reported is believed to be novel. Its accuracy increases with the temperature of the hot solid. It permits the measurement of translational thermal accommodation without relying on the temperature coefficient of resistance of the solid and hence is applicable to alloys and to non-metals. For metals., which have a normal temperature coefficient of resistance, the method allows translational accommodation to be measured and internal energy accommodation to be deduced.
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