Add to ORKGThis study investigates the prospects of manufacturing Piezo-fabrics with embedded piezoelectric yarns that have the potential to convert the human movement-induced mechanical strain on the fabric into electrical energy. The impact of fabric architecture on electrical power output and the translation of simulated work (in ANSYS) into real electrical outputs through the experimental validation of the piezoelectric yarns was also investigated
The phenomenon of piezoelectricity has been applied in many fields, with one of the significant uses...
Piezoelectric polymer materials have been under investigation since the 1970’s starting with the di...
Cette étude s’inscrit dans le cadre du projet Autonotex et vise à développer un textile connecté et ...
AbstractIn the present paper, energy harvesting properties of a recently developed piezoelectric tex...
The field of power harvesting has experienced significant growth over the past few years due to the ...
Recent development in miniaturize electronic devices with higher computational capabilities and ultr...
The field of power harvesting has experienced significant growth over the past few years due to the ...
Piezoelectric, melt spun, textile fibres as multifunctional materials appeared recently, and they ar...
Recent advances in ubiquitous low-power electronics call for the development of light-weight and fle...
In the present paper, energy harvesting properties of a recently developed piezoelectric textile bi-...
In the present paper, energy harvesting properties of a recently developed piezoelectric textile bi-...
AbstractIn the present paper, energy harvesting properties of a recently developed piezoelectric tex...
This chapter discusses in depth various types of energy-harvesting textiles and their applications a...
In the Piezoelectric behaviour refers that conversion of mechanical impact to electrical power, or e...
Piezoelectric textile fibres are important for wearable energy harvesting applications. Piezoelectri...
The phenomenon of piezoelectricity has been applied in many fields, with one of the significant uses...
Piezoelectric polymer materials have been under investigation since the 1970’s starting with the di...
Cette étude s’inscrit dans le cadre du projet Autonotex et vise à développer un textile connecté et ...
AbstractIn the present paper, energy harvesting properties of a recently developed piezoelectric tex...
The field of power harvesting has experienced significant growth over the past few years due to the ...
Recent development in miniaturize electronic devices with higher computational capabilities and ultr...
The field of power harvesting has experienced significant growth over the past few years due to the ...
Piezoelectric, melt spun, textile fibres as multifunctional materials appeared recently, and they ar...
Recent advances in ubiquitous low-power electronics call for the development of light-weight and fle...
In the present paper, energy harvesting properties of a recently developed piezoelectric textile bi-...
In the present paper, energy harvesting properties of a recently developed piezoelectric textile bi-...
AbstractIn the present paper, energy harvesting properties of a recently developed piezoelectric tex...
This chapter discusses in depth various types of energy-harvesting textiles and their applications a...
In the Piezoelectric behaviour refers that conversion of mechanical impact to electrical power, or e...
Piezoelectric textile fibres are important for wearable energy harvesting applications. Piezoelectri...
The phenomenon of piezoelectricity has been applied in many fields, with one of the significant uses...
Piezoelectric polymer materials have been under investigation since the 1970’s starting with the di...
Cette étude s’inscrit dans le cadre du projet Autonotex et vise à développer un textile connecté et ...