Figure 1751 piezoelectric transducer problem sketch

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Unformatted text preview: sity through Solenoid Windings ANSYS Verification Manual . ANSYS Release 9.0 . 002114 . © SAS IP, Inc. 1–385 VM172 Figure 172.4 3-D Circumferential Stress through Solenoid Windings Figure 172.5 3-D Axial Flux Density through Solenoid Windings 1–386 ANSYS Verification Manual . ANSYS Release 9.0 . 002114 . © SAS IP, Inc. VM173: Centerline Temperature of an Electrical Wire Overview Reference: W. M. Rohsenow, H. Y. Choi, Heat, Mass and Momentum Transfer, 2nd Printing, Prentice-Hall, Inc., Englewood Cliffs, NJ, 1963, pg. 106, ex. 6.5. Analysis Type(s): Static, Coupled-Field Analysis (ANTYPE = 0) Element Type(s): 3-D Coupled-Field Solid Elements (SOLID5) Input Listing: vm173.dat Test Case Determine the centerline temperature and the surface temperature Ts of a bare steel wire carrying a current I and having a resistance R/I. The surface convection coefficient between the wire and the air (at temperature Ta) is h. Also determine the heat dissipation rate q. Figure 173.1 Electrical Wire Problem Sketch Material Properties R = .0001...
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This note was uploaded on 12/09/2010 for the course DEPARTMENT E301 taught by Professor Kulasinghe during the Spring '09 term at University of Peradeniya.

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