The pressure of the fluid entering and exiting the

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Unformatted text preview: the given solenoid actuator with an applied total coil current of 1000 A-turns, find the magnetic flux density (BZ) of the Pole, the magnetic flux density (BZ) of the Arm, and the Virtual Work Force in the Z-direction (See Problem Description for location of parts). Material Properties Murx =1 Geometric Properties X1 = 63.5mm X2 = 12.5mm Y1 = 12.5mm Y2 = 5mm Y3 = 18mm Z1 = 25 mm Z2 = 100mm Z3 = 98.5mm Z4 = 96.6mm Loading Total Current = 5000 A-turns ANSYS Verification Manual . ANSYS Release 9.0 . 002114 . © SAS IP, Inc. 1–565 VM241 Figure 241.1 B-H Curve Analysis Assumptions and Modeling Notes This analysis is based on the TEAM workshop problem 20. It utilizes the edge-flux element formulation with tetrahedral shaped SOLID117 elements. To simplify meshing, the SMRTSIZE meshing option was used to automatically determine line divisions and spacing ratios while taking into account the line proximity effects. Mesh density can be adjusted using the SmartSize parameter, for this case, a SmartSizing level of 10 was applied. The analysis is performed using a quarter symmetry model of the solenoid actuator. The magnetic coil was created using the RACE command. Magnetic force and boundary conditions were placed on the armature component by using the FMAGBC command. 1–566 ANSYS Verification Manual . ANSYS Release 9.0 . 002114...
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