Vibration Characteristics of Force–Electric–Thermal Coupling for Three-Dimensional Braided Piezoelectric Composite Energy Harvester

Abstract: In this study, three-dimensional (3D) braided composites are integrated into the substructure of the energy harvester and a 3D braided piezoelectric composite energy harvester (BPCEH) with good performance is proposed. A theoretical model of the 3D BPCEH under the force–electricity–thermal coupling is established, and the output response, which is affected by excitation frequency, load resistance, external excitation and temperature, is simulated. The results illustrate that the braided elastic layer can great… Show more

“…The cantilever beam-type PVEH has a simple structure, a wider range of applications, and relatively higher output power [33,34]. The cantilever beam-type PVEH usually has a layer of piezoelectric patch bonded to the surface of the PVEH, or both the top and bottom surfaces [35,36]. Although this type of structure has many advantages, there are also many unavoidable drawbacks.…”

Electro‐mechanical coupling analysis of three‐dimensional embedded braided composite piezoelectric vibration energy harvester

“…The cantilever beam-type PVEH has a simple structure, a wider range of applications, and relatively higher output power [33,34]. The cantilever beam-type PVEH usually has a layer of piezoelectric patch bonded to the surface of the PVEH, or both the top and bottom surfaces [35,36]. Although this type of structure has many advantages, there are also many unavoidable drawbacks.…”

Electro‐mechanical coupling analysis of three‐dimensional embedded braided composite piezoelectric vibration energy harvester

Mechanical electrical coupling analysis of a 3D braided composite piezoelectric energy harvester with spring support to expand the frequency domain