Results 201 to 210 of about 115,095 (266)
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Thermal Spreading Resistance in Multilayered Contacts: Applications in Thermal Contact Resistance
Journal of Thermophysics and Heat Transfer, 1999Application of highly conductive coatings to contacting surfaces is a commonly employed method to enhance thermal contact conductance. In many applications it is often necessary to apply an intermediate coating such that the conductive coating may be applied to a nonadhering substrate.
Y. S. Muzychka +3 more
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Thermal Resistance of Contacts
Review of Scientific Instruments, 1973In order to obtain accurate thermal resistance data for contacts under high loads (i.e., P/M > 2×10−3) it is not always necessary to employ a high vacuum for transverse thermal insulation, or a guard-heater arrangement.
P. W. O'Callaghan, S. D. Probert
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Advances in thermal contact resistance studies
Proceedings of the Institution of Mechanical Engineers, Part C: Journal of Mechanical Engineering Science, 2022The demand for accurate Thermal Contact Resistance analysis and prediction continues to increase with the advancement of technology. In applications such as manufacturing, it is beneficial to understand the Thermal Contact resistance between the workpiece and tool, or between the tool and debris or shavings to accurately predict the tool wear rate. It
Rabelani Dennis Murwamadala +1 more
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Introduction to Thermal Contact Resistance
2023Contact resistance has been an area of interest in engineering applications dating as far back as 1930. Yovanovich (2005) provides a comprehensive historical overview of the field with emphasis on the research-intensive period spanning the early 1960s to early 2000s.
Yuri S. Muzychka, M. Michael Yovanovich
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Thermal resistance of silicon point contacts
Physical Review B, 1989We investigate thermal transport on microcontacts established between two silicon wedges. The measurements are carried out with a variable contact radius of 0.3--2 \ensuremath{\mu}m at temperatures from 2 to 300 K. The measured thermal resistance is used to calculate the contact radius with an accuracy better than 50%.
, Weber, , Gmelin, , Queisser
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