Title :
Research on Nano-SiO2/Carbon Black Composite for Flexible Tactile Sensing
Author :
Ying, Huang ; Xiulan, Fu ; Min, Wang ; Panfeng, Huang ; Yunjian, Ge
Author_Institution :
Hefei Univ. of Technol., Hefei
Abstract :
In this paper, aiming at pressure sensitive conductive rubber materials based on flexible tactile sensing, studying the influence of adding nano-SiO2 materials on the electrical and mechanical performances. Analyses are made on the phenomenon produced by filling nano-SiO2 with different contents through experiments, researching the micro and macro mechanism of nano-SiO2 modification theoretically. The results showed that the combination of suitable nano-SiO2 and carbon black can effectively increase the conductivity of composites, and improve piezoresistive properties and stability of composites. It can provide pressure sensitive conductive rubber with high conductivity and fine mechanical properties for flexible tactile sensors.
Keywords :
composite materials; piezoresistance; rubber; tactile sensors; SiO2; carbon black composite; flexible tactile sensing; piezoresistive properties; pressure sensitive conductive rubber materials; Composite materials; Conducting materials; Conductivity; Electric resistance; Immune system; Organic materials; Piezoresistance; Polymers; Rubber; Tactile sensors; Conductive rubber; Nano-SiO2 Flexibility; Piezoresistance;
Conference_Titel :
Information Acquisition, 2007. ICIA '07. International Conference on
Conference_Location :
Seogwipo-si
Print_ISBN :
1-4244-1220-X
Electronic_ISBN :
1-4244-1220-X
DOI :
10.1109/ICIA.2007.4295738
