Journal of Innovative Science and Engineering
Araştırma Makalesi
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The Impact of Orientation Angle and Number of Layers on Electromagnetic Shielding Characteristics of Carbon Fiber Composites

Yıl 2022, Cilt: 6 Sayı: 2, 190 - 200, 31.12.2022

Yücel ÇOŞKUN Mehmet Barış TABAKCIOĞLU

https://doi.org/10.38088/jise.979187

Öz

In this study, electromagnetic shielding characteristics for orientation angle and number of plies of carbon fiber reinforced epoxy composites were investigated in the frequency range between 900 and 6000 MHz. Both unidirectional and bidirectional carbon fiber fabrics were utilized as reinforcement materials to manufacture the composite samples. Twill bidirectional glass fiber fabrics were also used in order to provide a large amount of flexibility. To prepare the composite laminates for measurement, hand lay-up method was preferred. Measurements were carried out by using DFG 4060 signal generator and HF 60105 spectrum analyzer. In the proposed frequency range, electromagnetic shielding effectiveness (EMSE) up to 62.13 dB was achieved. This value is accepted in the literature as a good level of shielding. According to the measurements, it was observed that EMSE was very higher when the orientation angle of the carbon fiber was 90°, as compared to 0°. Another parameter that affects EMSE is whether the carbon fiber fabric used is unidirectional or bidirectional because it was observed that the bidirectional fabric increased EMSE. In addition, it was determined that the number of plies has less effect on EMSE than the orientation angle.

Anahtar Kelimeler

Carbon fiber, Hand lay-up method, Orientation angle, Electromagnetic shielding

Kaynakça

  • [1] Chung, D. D. L. (2001). Electromagnetic interference shielding effectiveness of carbon materials. Carbon, 39: 279-285.
  • [2] Kim, H. G., Shin, H. J., Kim, G. C., Park, H. J., Moon, H. J. and Kwac, L. K. (2014). Electromagnetic interference shielding characteristics for orientation angle and number of plies of carbon fiber reinforced plastic. Carbon letters, 15: 268-276.
  • [3] Arik, E. and Tabakcioglu, M.B. (2017). Reducing emi by multiple slits shielding, 9th International Conference on Electronics, Computers and Artificial Intelligence, pp. 1-4.
  • [4] Ding, S.J., Zhao, Y.Z., Ge, D.B. (2008). Research progress in electromagnetic shielding materials. Materials Review 22.4.
  • [5] Williams, N., Varadan, V.K., Ghodgaonkar, D. and Varadan, V.V. (1990). Measurement of transmission and reflection of conductive lossy polymers at millimeter-wave frequencies. IEEE transactions on electromagnetic compatibility, 32: 236-240.
  • [6] Rea, S., Linton, D., Orr, E. and McConnell, J. (2005). Electromagnetic shielding properties of carbon fibre composites in avionic systems. Mikrotalasna revija, 11: 29-32.
  • [7] Amran, Y. M., Alyousef, R., Alabduljabbar, H., Alaskar, A., & Alrshoudi, F. (2020). Properties and water penetration of structural concrete wrapped with CFRP. Results in Engineering, 5, 100094.
  • [8] Liu, Z., Zhou, Z., & Hou, Q. (2021, October). Improvement on Electric Conductivity of Carbon Fiber Reinforced Plastic Composites. In 2021 IEEE 5th Information Technology, Networking, Electronic and Automation Control Conference (ITNEC) (Vol. 5, pp. 632-635). IEEE.
  • [9] Jana, P. B., Mallick, A. K. and De, S. K. (1992). Effects of sample thickness and fiber aspect ratio on emi shielding effectiveness of carbon fiber filled polychloroprene composites in the x-band frequency range. IEEE transactions on electromagnetic compatibility, 34: 478-481.
  • [10] Jones, R. M. (1975). Mechanism of composites materials, McGraw-Hill Book Co., New York, 2nd Edition.
  • [11] Mohan, L., Kumar, T. N., Karakkad, S., & Krishnan, S. T. (2021). Development of Cost-Effective Carbon Nanofiber Epoxy Nanocomposites for Lightweight Wideband EMI Shielding Application. IEEE Transactions on Nanotechnology, 20, 627-634.
  • [12] Luo, X., & Chung, D. D. L. (1999). Electromagnetic interference shielding using continuous carbon-fiber carbon-matrix and polymer-matrix composites, Composites Part B: Engineering, 30(3), 227-231.
  • [13] Ucar, N., Kayaoğlu, B. K., Bilge, A., Gurel, G., Sencandan, P., & Paker, S. (2018). Electromagnetic shielding effectiveness of carbon fabric/epoxy composite with continuous graphene oxide fiber and multiwalled carbon nanotube. Journal of Composite Materials, 52(24), 3341-3350.
  • [14] Jaroszewski, M, Thomas, S., Rane, A.V. (2018). Advanced materials for electromagnetic shielding: fundamentals, properties, and applications. John Wiley & Sons.
  • [15] Sultan Aljibori, H.S., Mohamad Alosfur, F.K., Ridha, N.J. and Salim, S. (2016). A study on thermal diffusivity and dielectric properties of epoxy matrix reinforced by fibers material. Journal of Kerbala University, 12: 42-53.
  • [16] Coskun, Y. and Tabakcioglu, M.B. (2021). Electromagnetic Shielding Characteristics of Oriented Carbon Fiber Epoxy Composites”, EMC Turkey Conference, Submitted.

Yıl 2022, Cilt: 6 Sayı: 2, 190 - 200, 31.12.2022

Yücel ÇOŞKUN Mehmet Barış TABAKCIOĞLU

https://doi.org/10.38088/jise.979187

Öz

Kaynakça

  • [1] Chung, D. D. L. (2001). Electromagnetic interference shielding effectiveness of carbon materials. Carbon, 39: 279-285.
  • [2] Kim, H. G., Shin, H. J., Kim, G. C., Park, H. J., Moon, H. J. and Kwac, L. K. (2014). Electromagnetic interference shielding characteristics for orientation angle and number of plies of carbon fiber reinforced plastic. Carbon letters, 15: 268-276.
  • [3] Arik, E. and Tabakcioglu, M.B. (2017). Reducing emi by multiple slits shielding, 9th International Conference on Electronics, Computers and Artificial Intelligence, pp. 1-4.
  • [4] Ding, S.J., Zhao, Y.Z., Ge, D.B. (2008). Research progress in electromagnetic shielding materials. Materials Review 22.4.
  • [5] Williams, N., Varadan, V.K., Ghodgaonkar, D. and Varadan, V.V. (1990). Measurement of transmission and reflection of conductive lossy polymers at millimeter-wave frequencies. IEEE transactions on electromagnetic compatibility, 32: 236-240.
  • [6] Rea, S., Linton, D., Orr, E. and McConnell, J. (2005). Electromagnetic shielding properties of carbon fibre composites in avionic systems. Mikrotalasna revija, 11: 29-32.
  • [7] Amran, Y. M., Alyousef, R., Alabduljabbar, H., Alaskar, A., & Alrshoudi, F. (2020). Properties and water penetration of structural concrete wrapped with CFRP. Results in Engineering, 5, 100094.
  • [8] Liu, Z., Zhou, Z., & Hou, Q. (2021, October). Improvement on Electric Conductivity of Carbon Fiber Reinforced Plastic Composites. In 2021 IEEE 5th Information Technology, Networking, Electronic and Automation Control Conference (ITNEC) (Vol. 5, pp. 632-635). IEEE.
  • [9] Jana, P. B., Mallick, A. K. and De, S. K. (1992). Effects of sample thickness and fiber aspect ratio on emi shielding effectiveness of carbon fiber filled polychloroprene composites in the x-band frequency range. IEEE transactions on electromagnetic compatibility, 34: 478-481.
  • [10] Jones, R. M. (1975). Mechanism of composites materials, McGraw-Hill Book Co., New York, 2nd Edition.
  • [11] Mohan, L., Kumar, T. N., Karakkad, S., & Krishnan, S. T. (2021). Development of Cost-Effective Carbon Nanofiber Epoxy Nanocomposites for Lightweight Wideband EMI Shielding Application. IEEE Transactions on Nanotechnology, 20, 627-634.
  • [12] Luo, X., & Chung, D. D. L. (1999). Electromagnetic interference shielding using continuous carbon-fiber carbon-matrix and polymer-matrix composites, Composites Part B: Engineering, 30(3), 227-231.
  • [13] Ucar, N., Kayaoğlu, B. K., Bilge, A., Gurel, G., Sencandan, P., & Paker, S. (2018). Electromagnetic shielding effectiveness of carbon fabric/epoxy composite with continuous graphene oxide fiber and multiwalled carbon nanotube. Journal of Composite Materials, 52(24), 3341-3350.
  • [14] Jaroszewski, M, Thomas, S., Rane, A.V. (2018). Advanced materials for electromagnetic shielding: fundamentals, properties, and applications. John Wiley & Sons.
  • [15] Sultan Aljibori, H.S., Mohamad Alosfur, F.K., Ridha, N.J. and Salim, S. (2016). A study on thermal diffusivity and dielectric properties of epoxy matrix reinforced by fibers material. Journal of Kerbala University, 12: 42-53.
  • [16] Coskun, Y. and Tabakcioglu, M.B. (2021). Electromagnetic Shielding Characteristics of Oriented Carbon Fiber Epoxy Composites”, EMC Turkey Conference, Submitted.

Ayrıntılar

Birincil Dil İngilizce
Konular Mühendislik
Bölüm Research Articles
Yazarlar

Yücel ÇOŞKUN
BEYKENT UNIVERSITY, FACULTY OF ARCHITECTURE
0000-0003-4575-8061
Türkiye

Mehmet Barış TABAKCIOĞLU
BURSA TECHNICAL UNIVERSITY
0000-0002-1607-355X
Türkiye

Destekleyen Kurum Scientific Research Projects Department (BAP) of Bursa Technical University
Proje Numarası 200Y013
Teşekkür This work is supported partially by Scientific Research Projects Department (BAP) of Bursa Technical University under the grant no. 200Y013.
Erken Görünüm Tarihi 11 Ekim 2022
Yayımlanma Tarihi 31 Aralık 2022
Yayınlandığı Sayı Yıl 2022Cilt: 6 Sayı: 2

Kaynak Göster

Bibtex @araştırma makalesi { jise979187, journal = {Journal of Innovative Science and Engineering}, eissn = {2602-4217}, address = {ursa Technical University, Mimar Sinan Campus, Mimar Sinan Mah. Mimar Sinan Blv. Eflak Cad. No:177 16310 Yıldırım, Bursa / Turkey}, publisher = {Bursa Teknik Üniversitesi}, year = {2022}, volume = {6}, number = {2}, pages = {190 - 200}, doi = {10.38088/jise.979187}, title = {The Impact of Orientation Angle and Number of Layers on Electromagnetic Shielding Characteristics of Carbon Fiber Composites}, key = {cite}, author = {Çoşkun, Yücel and Tabakcıoğlu, Mehmet Barış} }
APA Çoşkun, Y. & Tabakcıoğlu, M. B. (2022). The Impact of Orientation Angle and Number of Layers on Electromagnetic Shielding Characteristics of Carbon Fiber Composites . Journal of Innovative Science and Engineering , 6 (2) , 190-200 . DOI: 10.38088/jise.979187
MLA Çoşkun, Y. , Tabakcıoğlu, M. B. "The Impact of Orientation Angle and Number of Layers on Electromagnetic Shielding Characteristics of Carbon Fiber Composites" . Journal of Innovative Science and Engineering 6 (2022 ): 190-200 <http://jise.btu.edu.tr/tr/pub/issue/72956/979187>
Chicago Çoşkun, Y. , Tabakcıoğlu, M. B. "The Impact of Orientation Angle and Number of Layers on Electromagnetic Shielding Characteristics of Carbon Fiber Composites". Journal of Innovative Science and Engineering 6 (2022 ): 190-200
RIS TY - JOUR T1 - The Impact of Orientation Angle and Number of Layers on Electromagnetic Shielding Characteristics of Carbon Fiber Composites AU - YücelÇoşkun, Mehmet BarışTabakcıoğlu Y1 - 2022 PY - 2022 N1 - doi: 10.38088/jise.979187 DO - 10.38088/jise.979187 T2 - Journal of Innovative Science and Engineering JF - Journal JO - JOR SP - 190 EP - 200 VL - 6 IS - 2 SN - -2602-4217 M3 - doi: 10.38088/jise.979187 UR - https://doi.org/10.38088/jise.979187 Y2 - 2022 ER -
EndNote %0 Journal of Innovative Science and Engineering The Impact of Orientation Angle and Number of Layers on Electromagnetic Shielding Characteristics of Carbon Fiber Composites %A Yücel Çoşkun , Mehmet Barış Tabakcıoğlu %T The Impact of Orientation Angle and Number of Layers on Electromagnetic Shielding Characteristics of Carbon Fiber Composites %D 2022 %J Journal of Innovative Science and Engineering %P -2602-4217 %V 6 %N 2 %R doi: 10.38088/jise.979187 %U 10.38088/jise.979187
ISNAD Çoşkun, Yücel , Tabakcıoğlu, Mehmet Barış . "The Impact of Orientation Angle and Number of Layers on Electromagnetic Shielding Characteristics of Carbon Fiber Composites". Journal of Innovative Science and Engineering 6 / 2 (Aralık 2022): 190-200 . https://doi.org/10.38088/jise.979187
AMA Çoşkun Y. , Tabakcıoğlu M. B. The Impact of Orientation Angle and Number of Layers on Electromagnetic Shielding Characteristics of Carbon Fiber Composites. JISE. 2022; 6(2): 190-200.
Vancouver Çoşkun Y. , Tabakcıoğlu M. B. The Impact of Orientation Angle and Number of Layers on Electromagnetic Shielding Characteristics of Carbon Fiber Composites. Journal of Innovative Science and Engineering. 2022; 6(2): 190-200.
IEEE Y. Çoşkun ve M. B. Tabakcıoğlu , "The Impact of Orientation Angle and Number of Layers on Electromagnetic Shielding Characteristics of Carbon Fiber Composites", Journal of Innovative Science and Engineering, c. 6, sayı. 2, ss. 190-200, Ara. 2022, doi:10.38088/jise.979187
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