PBAT/Mt-PPy
|
0-0.25 MPa
|
10 wt%
|
2.6 times (1.25x10-7 to 3 x 10-7 S cm-1)
|
M
elt mixing
|
Silicon/Carbon nanoparticles1616 Hussain M, Choa YH, Niihara K. Fabrication process and electrical behavior of novel pressure-sensing composites. Composites Part A: Applied Science and Manufacturing. 2001;32(12):1689-1696.
|
0-1.2 MPa |
35 wt% |
1000 times(10-5 to 10-2 S cm-1) |
Solution casting |
Natural rubber/Carbon black1515 Job AE, Oliveira FA, Alves N, Giacometti JA, Mattoso LHC. Conductive composites of natural rubber and carbon black. Synthetic Metals. 2003;135-136:99-100.
|
0-2.4 MPa |
10 wt% |
2.8 times(2.5x10-8 to 7 x 10-8 S cm-1) |
Solution casting |
Natural rubber/Carbon black5656 Oliveira FA, Alves N, Giacometti JA, Constantino CJL, Mattoso LHC, Balan AMOA, et al. Study of the thermomechanical and electrical properties of conducting composites containing natural rubber and carbon black. Journal of Applied Polymer Science. 2007;106(2):1001-1006.
|
0-2.4 MPa |
20 wt% |
4 times (1 to 4 S cm-1) |
Solution casting |
Poly(styrene-butadiene-styrene)/
PAni1111 Souza FG Jr, Michel RC, Soares BG. A methodology for studying the dependence of electrical resistivity with pressure in conducting composites. Polymer Testing. 2005;24(8):998-1004.
|
0-4 MPa |
30 wt% |
10 times (10-7 to 10-6 S cm-1) |
Melt mixing |
SEBS/PANi1212 Barra GMO, Martins RR, Kafer KA, Paniago R, Vasques CT, Pires ATN. Thermoplastic elastomer/polyaniline blends: Evaluation of mechanical and electromechanical properties. Polymer Testing. 2008;27(7):886-892.
|
0-300 MPa |
30 wt% |
Solution 15 times (0.8x10-5 to 1.2 x 10-4 S cm-1) In situ 12 times (0.75 x 10-4 to 9 x 10-4 S cm-1) |
Solution casting/ In situ |
SEBS/PPy2323 Muller D, Garcia M, Salmoria GV, Pires ATN, Paniago R, Barra GMO. SEBS/PPy.DBSA Blends: Preparation and evaluation of electromechanical and dynamic mechanical properties. Journal of Applied Polymer Science. 2011;120(1):351-359.
|
0-10 MPa |
25 wt% |
36 times (10-4 to 3.6 x 10-3 S cm-1) |
Solution casting |
Silicon rubber/PPy3838 Vilcáková J, Paligová M, Omastová M, Sáha P. Quadrat O. "Switching effect" in pressure deformation of silicone rubber/polypyrrole composites. Synthetic Metals. 2004;146(2):121-126.
|
ε up to 15% |
8,5 v% |
100000 times (10-10 to 10-5 S cm-1 ) |
Solution casting |
PVC/Graphite/Nickel nanoparticles5757 Al-Hartomy AO, Al-Solamy F, Al-Ghambi AA, Ibrahim MA, Dishovsky N, El-Tantawy F. Pressure Sensors Based on Polyvinyl Chloride/Graphite/Nickel Nanocomposites. Journal of Elastomers & Plastics. 2011;43(2):137-153.
|
0-50 MPa |
20 wt% |
5 times (2x10-6 to 10-5 S cm-1) |
Melt mixing |
Silicon rubber/Carbon nanotubes5858 Wang L, Wang X, Li Y. Relation between repeated uniaxial compressive pressure and electrical resistance of carbon nanotube filled silicone rubber composite. Composites Part A: Applied Science and Manufacturing. 2012;43(2):268-274.
|
0-2 MPa |
14 wt% |
4 times (resistance from 800 to 200 kΩ) |
Solution casting |
PVDF/PPy88 Merlini C, Almeida RS, D'Ávila MA, Schreiner WH, Barra GMO. Development of a novel pressure sensing material based on polypyrrole-coated electrospun poly (vinylidene fluoride) fibers. Materials Science and Engineering: B. 2014;179:52-59.
|
0-10 MPa |
50 wt% |
40 times (5 x 10-1 to 20 S cm-1) |
In situ |