Mechanical and Electrical Response of Structural Capacitor for Various Dielectric Materials
Year 2020,
, 555 - 563, 01.06.2020
Aysun Eğrisöğüt Tiryaki
,
Oğuzhan Bartuğ Kurukaya
Abstract
Due to the run out of the fossil energy sources and environmental issues, new energy storage systems are developed in conjunction with renewable energy technologies. The machines that supplied energy from the batteries consume extra energy because they carry both the weight of the batteries and the structural weight. Recently, the idea of storing energy in structural elements has been studied. In this study, the multifunctionality of structural capacitors made by placed of varied dielectric layers between the carbon fiber plates has been investigated. The effects on the mechanical and electrical properties of different dielectric material combinations has been investigated by the simulation, experimentally and by the calculations based on Hook's law. Thus, the results of structural dielectric capacitors in these combinations have been compared and discussed.
Supporting Institution
Sakarya University Scientific Research Projects Coordination Unit.
Project Number
2018-50-01-006
Thanks
This study is supported by Sakarya University Scientific Research Projects Coordination Unit. Project Number: 2018-50-01-006.
References
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Year 2020,
, 555 - 563, 01.06.2020
Aysun Eğrisöğüt Tiryaki
,
Oğuzhan Bartuğ Kurukaya
Project Number
2018-50-01-006
References
- [1] P. Ladpli, R. Nardari, F. Kopsaftopoulos, F.K. Chang, “Multifunctional energy storage composite structures with embedded lithium-ion batteries,” Journal of Power Sources, vol.414, pp.517-529, February 2019.
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- [3] D.J. O’Brien, D.M. Baechle, O.B. Yurchak, E.D. Wetzel, “Effect of Processing Conditions and electrode characteristics on the electrical properties of structural composite capacitors,” Composites Part A: Applied Science and Manufacturing, vol.68, pp.47-55, January 2015.
- [4] T. Carlson, D. Ordeus, M. Wysocki, L.E. Asp, “Structural capacitor materials made from carbon fiber epoxy composites,” Composite Science Technology, vol.70, no.7, pp. 1135-1140, July 2010.
- [5] T. Carlson, L.E. Asp, “Structural carbon fibre composite/PET capacitors – Effects of dielectric separator thickness” Composites Part B: Engineering, vol.49, pp. 16-21, June 2013.
- [6] Z. Shen and H. Zhou, “Mechanical and electrical behavior of carbon fiber structural capacitors: Effects of delamination and interlaminar damage,” Composite Structures, vol.166, pp. 38-48, 2017.
- [7] K.Y.Chan, B. Jia, H. Lin, B. Zhu, K.T.Lau, “Design of a structural power composite using graphene oxide as a dielectric material layer,” Mater. Lett., vol.216, pp. 162-165, 2018.
- [8] K.Y. Chan, H. Lin, K. Qiao, B. Jia, K.T.Lau, “Multifunctional graphene oxide paper embodied structural dielectric capacitor based on carbon fibre reinforced composites,” Composite Science and Technology, vol.163, pp. 180-190, 2018.
- [9] K.Y. Chan, D. Yang, B. Demir, A.P. Mouritz, H. Lin, B. Jia, K.T.Lau, “Boosting the electrical and mechanical properties of structural dielectric capacitor composites via gold nanoparticle doping,” Composites Part B, vol.178, 107480, 2019.
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- [11] P. Jain, E.J. Rymaszewski, Rensselaer Polytechnic Institute Troy, NY, 2004. Thin- Film Capacitors for Packaged Electronics. ISBN 978-1-4419-9144-7 (eBook), DOI 10.1007/978-1-4419-9144-7.