FDTD method for the electromagnetic transient behavior of carbon fiber reinforced plastic

Nhat Nam Nguyen; Satoshi Matsumoto

doi:10.1109/AMS.2012.11

FDTD method for the electromagnetic transient behavior of carbon fiber reinforced plastic

Nhat Nam Nguyen, Satoshi Matsumoto

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution

Abstract

In this research, Finite Difference Time Domain (FDTD) is applied using nonuniform grids and second ordered Liao's Absorbing Boundary Condition (ABC) for simulating the electromagnetic shielding effect of Carbon Fiber Reinforced Plastic (CFRP) panels. Besides, these panels are unidirectional laminates with an an isotropic conductivity model. The presence of very small or thin structures is taken into account in this scheme through a simple way. This improves the flexibility of FDTD method. Hence, simulation results are able to give a clear and accurate view of this dynamic phenomenon. Moreover, these achieved results prove that a coated paint on the surface of the CFRP panels can improve the shielding performance effectively.

Original language	English
Title of host publication	Proceedings - 6th Asia International Conference on Mathematical Modelling and Computer Simulation, AMS 2012
Pages	231-235
Number of pages	5
DOIs	https://doi.org/10.1109/AMS.2012.11
Publication status	Published - 2012 Sept 27
Event	6th Asia International Conference on Mathematical Modelling and Computer Simulation, AMS 2012 - Bali, Indonesia Duration: 2012 May 29 → 2012 May 31

Publication series

Name	Proceedings - 6th Asia International Conference on Mathematical Modelling and Computer Simulation, AMS 2012

Conference

Conference	6th Asia International Conference on Mathematical Modelling and Computer Simulation, AMS 2012
Country/Territory	Indonesia
City	Bali
Period	12/5/29 → 12/5/31

Keywords

CFRP
FDTD
electromagnetic

ASJC Scopus subject areas

Modelling and Simulation

Access to Document

10.1109/AMS.2012.11

Cite this

Nguyen, N. N., & Matsumoto, S. (2012). FDTD method for the electromagnetic transient behavior of carbon fiber reinforced plastic. In Proceedings - 6th Asia International Conference on Mathematical Modelling and Computer Simulation, AMS 2012 (pp. 231-235). [6243899] (Proceedings - 6th Asia International Conference on Mathematical Modelling and Computer Simulation, AMS 2012). https://doi.org/10.1109/AMS.2012.11

FDTD method for the electromagnetic transient behavior of carbon fiber reinforced plastic. / Nguyen, Nhat Nam; Matsumoto, Satoshi.
Proceedings - 6th Asia International Conference on Mathematical Modelling and Computer Simulation, AMS 2012. 2012. p. 231-235 6243899 (Proceedings - 6th Asia International Conference on Mathematical Modelling and Computer Simulation, AMS 2012).

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution

Nguyen, NN & Matsumoto, S 2012, FDTD method for the electromagnetic transient behavior of carbon fiber reinforced plastic. in Proceedings - 6th Asia International Conference on Mathematical Modelling and Computer Simulation, AMS 2012., 6243899, Proceedings - 6th Asia International Conference on Mathematical Modelling and Computer Simulation, AMS 2012, pp. 231-235, 6th Asia International Conference on Mathematical Modelling and Computer Simulation, AMS 2012, Bali, Indonesia, 12/5/29. https://doi.org/10.1109/AMS.2012.11

Nguyen NN, Matsumoto S. FDTD method for the electromagnetic transient behavior of carbon fiber reinforced plastic. In Proceedings - 6th Asia International Conference on Mathematical Modelling and Computer Simulation, AMS 2012. 2012. p. 231-235. 6243899. (Proceedings - 6th Asia International Conference on Mathematical Modelling and Computer Simulation, AMS 2012). doi: 10.1109/AMS.2012.11

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abstract = "In this research, Finite Difference Time Domain (FDTD) is applied using nonuniform grids and second ordered Liao's Absorbing Boundary Condition (ABC) for simulating the electromagnetic shielding effect of Carbon Fiber Reinforced Plastic (CFRP) panels. Besides, these panels are unidirectional laminates with an an isotropic conductivity model. The presence of very small or thin structures is taken into account in this scheme through a simple way. This improves the flexibility of FDTD method. Hence, simulation results are able to give a clear and accurate view of this dynamic phenomenon. Moreover, these achieved results prove that a coated paint on the surface of the CFRP panels can improve the shielding performance effectively.",

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FDTD method for the electromagnetic transient behavior of carbon fiber reinforced plastic

Abstract

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Keywords

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