Does PLZT photovoltage affect the deflection of a cantilever beam?

Then, the relationship between the PLZT photovoltage and the deflection at the end of cantilever beam is investigated. After that, the theoretical analysis of the influence factors on the deflection of the cantilever beam is carried out. Finally, the established mathematical model and theory are verified through experiments.

Why does a photovoltaic-electrostatic cantilever beam deflection?

Because the two pieces of copper foil collect the same amount of charge with the opposite polarity, the two copper foils attract each other under the action of electrostatic force to generate a driving force, thereby causing deflection of the cantilever beam. Figure 1. The schematic diagram of the photovoltaic-electrostatic cantilever beam.

Does the deflection at the free end of a cantilever beam increase?

The analysis results indicate that the deflection at the free end of cantilever beam increases with the increase in light intensity and length of the copper foil. The photovoltaic-electrostatic flexible cantilever beam can be taken as a micro-actuator with the advantages of remote control and clean drive.

Does copper foil length affect the deflection of a photovoltaic-electrostatic cantilever beam?

Furthermore, the influences of ultraviolet light intensity and copper foil length on the deflection of the photovoltaic-electrostatic cantilever beam are analyzed via the theoretical and experimental methods.

Can photovoltaic-electrostatic flexible cantilever beam be used as a micro-actuator?

The photovoltaic-electrostatic flexible cantilever beam can be taken as a micro-actuator with the advantages of remote control and clean drive. Micro-cantilever beam is a very common structure in micro-mechanical system, and it is commonly used in inertial sensors and actuators.

How safe are flexible PV brackets under extreme operating conditions?

Safety Analysis under Extreme Operating Conditions For flexible PV brackets, the allowable deflection value adopted in current engineering practice is 1/100 of the span length . To ensure the safety of PV modules under extreme static conditions, a detailed analysis of a series of extreme scenarios will be conducted.