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Modeling of nanocomposite structures to evaluate the effect of nanoplatelet interphase region on electric field intensity
Sharip, M.R.M1, Lau, K.Y2, Zaidel, D.N.A3.
The effects of the nanoplatelet interphase region on
the electric field intensity within a nanocomposite structures are
presented in this paper. The modeling of the nanoplatelet and its
interphases was performed by using the Finite Element Method
Magnetics (FEMM) 4.2 software. Two possible structures of the
nanoplatelet were simulated – with and without interphases. In
addition, two different models of interphase structures
surrounding the nanoplatelet were analyzed – one with
rectangular-shaped interphase and the other with circularlyshaped
interphase. Both sets of the model interphase were
assumed to have different thicknesses and radii. The results
showed that the presence of the nanoplatelet interphase affected
the electric field intensity of the nanocomposite.
Affiliation:
- Universiti Malaysia Sarawak, Malaysia
- Universiti Malaysia Sarawak, Malaysia
- Universiti Teknologi Malaysia, Malaysia
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| Indexation |
| Indexed by |
MyJurnal (2019) |
| H-Index
|
0 |
| Immediacy Index
|
0.000 |
| Rank |
0 |
| Indexed by |
Scopus (SCImago Journal Rankings 2016) |
| Impact Factor
|
0 |
| Rank |
Q4 (Computer Networks and Communications)
Q4 (Electrical and Electronic Engineering)
Q4 (Hardware and Architecture) |
| Additional Information |
0.112 (SJR) |
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