1 voltft nodes 1 though 16 are assumed to be ground

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Unformatted text preview: Y, 1984, pg. 275. Analysis Type(s): Coupled field Analysis (ANTYPE = 0) Element Type(s): 2-D Coupled-Field Solid Elements (PLANE13) 3-D Magneto-Structural Solid Elements (SOLID62) 3-D Magnetic Solid Elements (SOLID97) Input Listing: vm172.dat Test Case A long, thick solenoid carries a uniform current density distribution, J. Assuming that the turns of the solenoid can be modeled as a homogeneous isotropic material with modulus of elasticity E, and Poisson's ratio ν, determine the axial magnetic flux density distribution Bθ and the circumferential stress σo distribution in the solenoid. Figure 172.1 Isotropic Solenoid Problem Sketch Material Properties E = 10.76 x 1010 N/m2 υ = 0.35 µ = µo Geometric Properties a = .01 m b = .02 m t = .002 m Θ = 10 degrees Loading J = 1 x 106 A/m2 ANSYS Verification Manual . ANSYS Release 9.0 . 002114 . © SAS IP, Inc. 1–383 VM172 Analysis Assumptions and Modeling Notes The problem is solved first using a 2-D axisymmetric analysis with PLANE13 elements and then a 3-D analysis using SOLID62 and SOLI...
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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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