Electrically Conductive Nanocompositeas smart material based on PP/EPDM thermoplastic Vulcanizate and Nanographite
Katbab AA
Electrically Conductive Nanocompositeas smart material based on PP/EPDM thermoplastic Vulcanizate and Nanographite - Rubber India 2013 - 48-54
Electrically conductive polymer nanocomposites fabricated by mixing particulate conducting phase with insulator matrix have a wide range of applications in various industries due to their unique electrical and mechanical properties as well as the ease of their shaping process. Depending on the level, distribution and orientation of conductive nanofillers, they could be sensitive and smart towards pressure, gas, solvent, and temperature by either increase ordecrease in elecrtical resistivity which are called negative and positive piezoresistive bahavior respectively. In our recent work, electrically conductive nanocomposites with piezoresistive (pressure-sensitive) behaviour has been prepared based on PP/EPDM thermoplastic vulcanizate (TPV) and graphite nanosheets via melt mixing process. Piezoresistive and conductive properties of nanocomposites were correlated with the developed microstructure by performing scanning electron microscopy (SEM) and melt dynamic viscoelastic measurements on samples. Interfacially compatibilized TPV/graphic nanocomposites exhibited strong presure sensing bahaviour beyond the nanographite percolation threshold.
Electrical conductive
Nanographite
PP/EPDM
Thermoplastic vulcanizate
Electrically Conductive Nanocompositeas smart material based on PP/EPDM thermoplastic Vulcanizate and Nanographite - Rubber India 2013 - 48-54
Electrically conductive polymer nanocomposites fabricated by mixing particulate conducting phase with insulator matrix have a wide range of applications in various industries due to their unique electrical and mechanical properties as well as the ease of their shaping process. Depending on the level, distribution and orientation of conductive nanofillers, they could be sensitive and smart towards pressure, gas, solvent, and temperature by either increase ordecrease in elecrtical resistivity which are called negative and positive piezoresistive bahavior respectively. In our recent work, electrically conductive nanocomposites with piezoresistive (pressure-sensitive) behaviour has been prepared based on PP/EPDM thermoplastic vulcanizate (TPV) and graphite nanosheets via melt mixing process. Piezoresistive and conductive properties of nanocomposites were correlated with the developed microstructure by performing scanning electron microscopy (SEM) and melt dynamic viscoelastic measurements on samples. Interfacially compatibilized TPV/graphic nanocomposites exhibited strong presure sensing bahaviour beyond the nanographite percolation threshold.
Electrical conductive
Nanographite
PP/EPDM
Thermoplastic vulcanizate