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Found 2 results

  1. I would like to quantify the effect of the eccentricity of the translator of the attached actuator. The device is a 2-D axisymmetric reluctance actuator. The attached simulation only contains the permanent magnet, the pole shoes, and the core. I am only interested in the effects between the permanent magnet and the steel parts. I failed to create a 3-D FLUX file that captures the eccentricity of the translator (composed of the permanent magnet and the pole shoes). Any help would be appreciated. Axisymm_ecc_trans_Proto_dims_mtrls.FLU.zip
  2. Hi everyone, I am writing here hoping someone can help me with the following problem. I have a plate which is connected to one end of a flexural spring (0.8mm thick) through FREEZE contact (please see picture below). The other spring end is fixed. I have used 2 loadsteps to perform this analysis: The plate has to translate downwards of about 1.4 mm. LGDISP non linear static analysis activated. From the position reached in the previous point, the plate must rotate about the X axis of an angle 0.25° (DOF4).LGDISP non linear static analysis activated. All displacements have been enforced through SPC. Picture of the model: I have used CNTNLSUB in order to make one subcase follow the other. Unfortunately, from other threads in this forum, I seem to have guessed the 1st loadstep loads (SPC enforced displacements in this case) must be enforced in 2nd loadstep as well. This proves to be impractical, since my final goal is to simulate bending+torsion in the flexural spring. In fact, I cannot impose the desired rotation in the 2nd loadstep because the plate has to be forced to translate downwards like it is in the 1st loastep. I am attaching my file in order to get the matter as clear as possible. Thank you in advance for any help you will wish to provide. Best Regards Matteo Spring_Plate.fem
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