Add to ORKGThis thesis investigates the shear strain-driven energy harvesting performance of compliant piezoelectric composite material systems. A characterization study was performed to observe and quantify the piezoelectric shear coupling of two phase piezoelectric composite materials ranging from 0-3 (particulate) to 1-3 (fiber) composites. To this aim, the shear mode properties of piezoelectric composites were experimentally established by a novel impedance-based measurement technique, which was complemented with standard quasi-static measurements. Finite element simulations were performed to validate the new method. Moreover, homogenization-based finite element simulations served to numerically obtain the effective properties of the experimentall...
Recent studies showed that the active piezoelectric structural fiber (PSF) composites may achieve si...
In this study, energy harvesting from cantilever composite beams produced at different lamination an...
Direct piezoelectric strain energy harvesting can be used to power wireless autonomous sensors in en...
The study of piezoelectric cantilever beam as vibration based energy harvesting has been emerged ove...
The active and passive piezoelectric response of lead zirconium titanate (PZT)-epoxy particulate com...
The study of vibrational energy harvesting using piezoelectric patch integrated on isotropic beam-li...
In this paper, a finite element model is coupled to an homogenisation theory in order to predict the...
The use of active-fiber composites (AFC) instead of traditional ceramic piezoelectric materials is m...
This contribution presents original numerical and experimental characterizations for prototyped long...
Vibration-based energy harvesters consisting of a laminated piezoelectric cantilever have recently a...
The decreasing energy consumption of today's portable electronics has invoked the possibility of ene...
This paper presents a finite element (FE) model developed using commercial FE software COMSOL to sim...
AbstractThis paper deals with studying the effect of positioning and number of PFC with IDE (PFC-W14...
Piezoelectrics are an important class of materials for mechanical energy harvesting technologies. In...
This paper addresses an important issue of the individual layer thickness influence in a multilayer ...
Recent studies showed that the active piezoelectric structural fiber (PSF) composites may achieve si...
In this study, energy harvesting from cantilever composite beams produced at different lamination an...
Direct piezoelectric strain energy harvesting can be used to power wireless autonomous sensors in en...
The study of piezoelectric cantilever beam as vibration based energy harvesting has been emerged ove...
The active and passive piezoelectric response of lead zirconium titanate (PZT)-epoxy particulate com...
The study of vibrational energy harvesting using piezoelectric patch integrated on isotropic beam-li...
In this paper, a finite element model is coupled to an homogenisation theory in order to predict the...
The use of active-fiber composites (AFC) instead of traditional ceramic piezoelectric materials is m...
This contribution presents original numerical and experimental characterizations for prototyped long...
Vibration-based energy harvesters consisting of a laminated piezoelectric cantilever have recently a...
The decreasing energy consumption of today's portable electronics has invoked the possibility of ene...
This paper presents a finite element (FE) model developed using commercial FE software COMSOL to sim...
AbstractThis paper deals with studying the effect of positioning and number of PFC with IDE (PFC-W14...
Piezoelectrics are an important class of materials for mechanical energy harvesting technologies. In...
This paper addresses an important issue of the individual layer thickness influence in a multilayer ...
Recent studies showed that the active piezoelectric structural fiber (PSF) composites may achieve si...
In this study, energy harvesting from cantilever composite beams produced at different lamination an...
Direct piezoelectric strain energy harvesting can be used to power wireless autonomous sensors in en...