Vibration of mechanically-assembled 3D microstructures formed by compressive buckling

Keyphrases

• 3D Architecture 33%
• 3D Design 33%
• 3D Mesostructures 33%
• 3D Microstructure 100%
• 3D Structure 33%
• Actuator 33%
• Analytical Model 33%
• Analytical Modeling 33%
• Analytical Solution 33%
• Biomaterials 33%
• Complex 3D Geometries 33%
• Compressive Buckling 100%
• Deflection Amplitude 66%
• Effective Means 33%
• Elastomeric Substrate 33%
• Energy Harvester 33%
• Energy Vehicles 33%
• External Loading 33%
• Finite Element Analysis 100%
• Hybrid Energy Harvesting 33%
• Linear Vibration 33%
• Mechanical Properties 66%
• Micro-electro-mechanical Systems 66%
• Micro-platform 66%
• Mode Change 33%
• Natural Frequency 100%
• Natural Modes 33%
• Nonlinear Vibration 66%
• Nonlinearity 33%
• Ribbon 33%
• Scaling Laws 33%
• Simultaneous Measurement 33%
• Static Deflection 66%
• Strain-dependent 33%
• Structural Vibration 33%
• Two Dimensional 33%
• Vibration Behavior 33%
• Vibration Mode 33%
• Vibrational Behavior 33%
• Vibrational Modes 33%
• Viscosity 33%

Engineering

• Actuator 33%
• Analytical Model 33%
• Dependent Strain 33%
• Directional 33%
• Effective Mean 33%
• Energy Harvesting 33%
• External Loading 33%
• Finite Element Analysis 100%
• Fluid Viscosity 33%
• Harvester 33%
• Limitations 33%
• Micro-Electro-Mechanical System 66%
• Natural Mode 33%
• Nonlinear Vibration 66%
• Nonlinearity 33%
• Oscillator 33%
• Resonant Frequency 100%
• Scaling Law 33%
• Static Deflection 66%
• Structural Vibration 33%
• Thin Films 33%
• Two Dimensional 33%
• Vibration Mode 33%

Material Science

• Actuator 33%
• Analytical Modeling 33%
• Biomaterial 33%
• Density 33%
• Finite Element Methods 100%
• Microelectromechanical System 66%
• Nonlinear Vibration 66%
• Oscillator 33%
• Structural Vibration 33%
• Thin Films 33%