Results 271 to 280 of about 402,137 (316)
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AIChE Journal, 1957
AbstractBy experimental means a relation is obtained between the thermal resistance of an eddy and its angular momentum. The eddy is stationary, and no extraneous motion is present. The secondary motion which may develop in the annulus between concentric rotating cylinders is used to obtain the eddies.
L. G. Clark, W. W. Hagerty
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AbstractBy experimental means a relation is obtained between the thermal resistance of an eddy and its angular momentum. The eddy is stationary, and no extraneous motion is present. The secondary motion which may develop in the annulus between concentric rotating cylinders is used to obtain the eddies.
L. G. Clark, W. W. Hagerty
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Thermal Constriction Resistance
1996It was seen in Chapter 1 that the contact interface consists of a number of discrete and small actual contact spots separated by relatively large gaps. These gaps may be either evacuated or filled with a conducting medium such as gas. In the first case, all of the heat flow lines are constrained to pass through the contact spots. If the gaps are filled
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Interfacial thermal resistance: Past, present, and future
Reviews of Modern Physics, 2022Xiangfan Xu, Baowen Li
exaly
Thermal constriction resistance
1958Maxwell 2 pointed out that the temperature plays the same part in the theory of the heat current as does the electric potential in the theory of electric current, and thermal resistances may be expressed mathematically in the same manner as electric resistances except that ϱ is replaced by 1/k where k is the heat conductivity.
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The Thermal Boundary Resistance
1976This paper will provide a brief introduction to the intriguing problem of the Kapitza thermal boundary resistance (RB), and will serve as background material for the contributions to this topic being presented at this conference.
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