In order to carry out a study on the synergistic relationship of variables which could affect the electrical properties of CPC, a universal and anisotropic platform of simulation, containing three simulation modules are explored. The simulation modules are: finite element modelling (FEM), percolation threshold modeling (PTM) and electrical networks modelling (ENM).

1.
Modelling the relative permittivity of anisotropic insulating composites
,
F.
Nilsson
. Author links open the author workspace.U.W. Gedde. Author links open the author workspace. M.S. Hedenqvist,
Composites Science and Technology
,
2011
2.
Simulating the effective electric conductivity of polymer composites with high aspect ratio fillers
,
Fritjof
Nilsson
,
Johannes
Krückel
,
Dirk W.
Schubert
,
Fei
Chen
,
Mikael
Unge
,
Ulf W.
Gedde
,
Mikael S.
Hedenqvist
,
Composites Science and Technology
,
2016
3.
I.
Balberg
,
J. App. Phys.
2012
,
112
,
066104
.
4.
L.
Berhan
and
A. M.
Sastr
,.
Phys. Rev. E
2007
,
75
,
041120
.
5.
J.
Krückel
,
Z.
Starý
,
C.
Triebel
,
D. W.
Schubert
and
H.
Münstedt
,
Polymer
,
2012
,
53
(
2
),
395
402
.
6.
J.
Krückel
,
Z.
Starý
and
D. W.
Schubert
,
Polymer
,
2013
,
54
(
3
),
1106
1113
.
7.
J.
Krückel
and
D. W.
Schubert
,
Eur. Polym. J.
,
2014
,
53
(
1
),
50
57
.
8.
X.
Liu
,
J.
Krückel
,
G.
Zheng
and
D. W.
Schubert
,
ACS Appl. Mater. Interfaces
,
2013
,
5
(
18
),
8857
8860
.
9.
S. D.
Bondt
 et al 
Journal of materials science
1992
;
27
:
1983
1988
.
10.
Chippendale
, et al 
The 8th International Conference on Computation in Electromagnetics
.,
2011
.
12.
H.
Deng
,
L.
Lin
,
M.
Ji
,
S.
Zhang
,
M.
Yang
and
Q.
Fu
,
Prog. Polym. Sci.
,
2014
,
39
(
4
),
627
655
.
13.
C. S.
Boland
,
U.
Khan
,
G.
Ryan
,
S.
Barwich
,
R.
Charifou
,
A.
Harvey
,
C.
Backes
,
Z.
Li
,
M. S.
Ferreira
,
M. E.
Möbius
,
R. J.
Young
and
J. N.
Coleman
,
Science
,
2016
,
354
(
6317
),
1257
1260
.
14.
H.
Liu
,
W.
Huang
,
X.
Yang
,
K.
Dai
,
G.
Zheng
,
C.
Liu
,
C.
Shen
,
X.
Yan
,
J.
Guo
and
Z.
Guo
.
J. Mater. Chem. C
,
2016
,
4
,
4459
4469
.
15.
T.
Sekitani
,
Y.
Noguchi
,
K.
Hata
,
T.
Fukushima
,
T.
Aida
and
T.
Someya
,
Science
,
2008
,
321
,
1468
1472
.
16.
M.
Kujawski
,
J. D.
Pearse
and
E.
Smela
,
Carbon
,
2010
,
48
,
2409
2417
.
17.
L.
Chen
,
G.
Chen
and
L.
Lu
,
Adv. Funct. Mater.
,
2007
,
17
,
898
904
.
18.
Z.
Dang
,
M.
Jiang
,
D.
Xie
,
S.
Yao
,
L.
Zhang
and
J.
Bai
,
J. Appl. Phys.
,
2008
,
104
,
024114/1
6
.
19.
L.
Bokobza
,
Silicon
,
2009
,
1
,
141
145
.
20.
H.
Liu
,
J.
Gao
,
W.
Huang
,
K.
Dai
,
G.
Zheng
,
C.
Liu
,
C.
Shen
,
X.
Yan
,
J.
Guo
and
Z.
Guo
,
Nanoscale
,
2016
,
8
,
12977
12989
.
21.
H.
Liu
,
Y.
Li
,
K.
Dai
,
G.
Zheng
,
C.
Liu
,
C.
Shen
,
X.
Yan
,
J.
Guo
, and
Z.
Guo
,
J. Mater. Chem. C
,
2016
,
4
,
157
166
.
22.
Q.
Fan
,
Z.
Qin
,
S.
Gao
,
Y.
Wu
,
J.
Pionteck
,
E. Mäder and M.
Zhu
,
Carbon
,
2012
,
50
(
11
),
4085
4092
.
23.
S. B.
Kharchenko
,
J. F.
Douglas
,
J.
Obrzut
,
E. A.
Grulke
and
K. B.
Migler
,
Nat. Mater.
,
2004
,
3
(
8
),
564
568
.
24.
Balberg
and
N.
Binenbaum
,
Phys. Rev. A
,
1987
,
35
(
12
),
5174
.
25.
Balberg
,
J. App. Phys.
2012
,
112
,
066104
.
26.
L.
Berhan
and
A. M.
Sastr
,.
Phys. Rev. E
2007
,
75
,
041120
.
This content is only available via PDF.