Transcription of Piezoelectric Simulations - COMSOL Multiphysics
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Piezoelectric SimulationsOutline Overview Examples Relevant Products Useful FeaturesOverviewIndustries Using Piezoelectric DevicesPiezoelectric DevicesAerospaceAutomotiveAcousticsBiome dicalMEMSOil & GasPiezoelectric Devices Synthetic Jet Inkjet Printer Active Valves Micro Pump Flow Sensor SONAR Hydrophone Speaker Microphone Hearing Aid RF MEMS Switch SAW Filter BAW Filter Tunable Cavity Filter Linear and Rotary Motors Position Controller Accelerometer Gyroscope Load Cell Pressure Sensor Energy HarvesterActuators and SensorsRF MEMSFlow ControlAcoustic DevicesPiezoelectric EffectVoltageDisplacementForceVoltageInv erse effectDirect effectCoupled Constitutive EquationsEeSDEeScTSTE T= stress;S= strainE= electric fieldD= electric displacementcE= elasticity matrix (rank 4 tensor cijkl)e= coupling matrix (rank 3 tensor eijk) S= permittivity matrix (rank 2 tensor ij)EdTDEdTsSTTE Stress-Charge FormStrain-Charge FormTETSEEE ddsdsesc111 In COMSOL , you can choose any one of these equat
This model performs a static 2D axisymmetric analysis of a piezoelectric actuator. A radially polarized piezoelectric tube is simulated, with two sets of boundary conditions. The first case illustrates the inverse piezoelectric effect, and the second case shows the direct piezoelectric effect. The model is based on a paper by S. M.
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