Electromagnetic Waves Absorption of the Epoxy Resin-MWCNT Composite Synthesis via Ultrasonic Bath and Milling Process

Publish Year: 1401
نوع سند: مقاله ژورنالی
زبان: English
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JR_JMATPR-10-1_001

تاریخ نمایه سازی: 1 مرداد 1401

Abstract:

In this study, ultrasonic bath and milling processes were used to synthesis epoxy resin-multiwalled carbon nanotubes (MWCNT) composite, and their effect on the absorption of magnetic waves was investigated using the Vector Network Analyzer (VNA) test. The effect of the concentration of MWCNT used to attract the wave's magnetic part in the epoxy resin matrix is also investigated. This study showed that the optimal amount of MWCNT in this epoxy resin-MWCNT composite was about ۵ wt.% for the ultrasonic bath method, while it was around ۱۵ wt% for the milling method. The ultrasonic bath caused the reflection losses (RL) value reaches to about -۲۵ dB in the range of ۹ to ۱۱ GHz. The results of the VSM test showed that the composite produced from epoxy resin and MWCNT is a soft magnetic material. Also, the sample produced in the ultrasonic bath process has a higher magnetic saturation than the milling process, which causes it to absorb more electromagnetic waves.

Authors

Sadegh Shahriyari

Advanced Materials Research Center, Department of Materials Engineering, Najafabad Branch, Islamic Azad University, Najafabad, Iran

Mahdi Omidi

Advanced Materials Research Center, Department of Materials Engineering, Najafabad Branch, Islamic Azad University, Najafabad, Iran

Seyyed Ali Hassanzadeh Tabrizi

Advanced Materials Research Center, Department of Materials Engineering, Najafabad Branch, Islamic Azad University, Najafabad, Iran

Mahdi Yeganeh

Department of Materials Science and Engineering, Faculty of Engineering, Shahid Chamran University of Ahvaz, Ahvaz, Iran.

Hamid Reza Bakhsheshi-Rad

Advanced Materials Research Center, Department of Materials Engineering, Najafabad Branch, Islamic Azad University, Najafabad, Iran.

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  • ConclusionsAccording to the results obtained from the discussion and conclusion, ...
  • Due to the absence of steel balls used in the ...
  • The presence of carbon nanotubes that experienced mechanical damage and ...
  • The highest reflection losses (RL) observed in the sample contains ...
  • References[۱] J. Rushchitsky, Theory of waves in materials, ed., Bookboon, ...
  • J. Cao, W. Fu, H. Yang, Q. Yu, Y. Zhang, ...
  • I.V. Shadrivov, M. Lapine, Y.S. Kivshar, Nonlinear, tunable and active ...
  • L. Peng, L. Li, R. Wang, Y. Hu, X. Tu, ...
  • S. Lu, K. Ma, X. Wang, X. Xiong, W. Xu, ...
  • I. Al Kawni, R. Garcia, S. Youssef, M. Abboud, J. ...
  • N. Shiri, A. Amirabadizadeh, A. Ghasemi, "Influence of carbon nanotubes ...
  • X. Jian, B. Wu, Y. Wei, S.X. Dou, X. Wang, ...
  • Z. Yan, J. Cai, Y. Xu, D. Zhang, "Microwave absorption ...
  • C.H. Papas, Theory of electromagnetic wave propagation, ed., Courier Corporation, ...
  • M.F. Iskander, Electromagnetic fields and waves, ed., Prentice Hall, ۱۹۹۲ ...
  • L.-F. Chen, C. Ong, C. Neo, V. Varadan, V.K. Varadan, ...
  • X.C. Tong, Advanced materials and design for electromagnetic interference shielding, ...
  • D. Micheli, C. Apollo, R. Pastore, M. Marchetti, "X-band microwave ...
  • X. Qi, Y. Deng, W. Zhong, Y. Yang, C. Qin, ...
  • M.-J. Park, J. Choi, S.-S. Kim, "Wide bandwidth pyramidal absorbers ...
  • E.F. Kuester, C.L. Holloway, "A low-frequency model for wedge or ...
  • C.L. Holloway, E.F. Kuester, "A low-frequency model for wedge or ...
  • D.-A. Li, H.-B. Wang, J.-M. Zhao, X. Yang, "Fabrication and ...
  • A. Mandal, C.K. Das, " Effect of BaTiO۳ on the ...
  • Y. Zhai, Y. Zhang, W. Ren, "Electromagnetic characteristic and microwave ...
  • T. Ting, Y. Jau, R. Yu, "Microwave absorbing properties of ...
  • B.Q.N. Bien Dong Che, Le-Thu T Nguyen, Ha Tran Nguyen, ...
  • Z. Wu, S. Li, , M. Liu, Z. Wang and ...
  • S. Rathee, S. Maheshwari, A.N. Siddiquee, M. Srivastava, "A review ...
  • H. Li, A. Misra, Z. Horita, C.C. Koch, N.A. Mara, ...
  • S. Barrau, P. Demont, E. Perez, A. Peigney, C. Laurent, ...
  • J. Sandler, M. Shaffer, T. Prasse, W. Bauhofer, K. Schulte, ...
  • Y.S. Song, J.R.J.C. Youn, "Influence of dispersion states of carbon ...
  • H. Zhuang, G. Zheng, A. Soh, "Interactions between transition metals ...
  • H. Kaurav, S. Manchanda, K. Dua, D.N. Kapoor, "Nanocomposites in ...
  • J. Hernández, M.C. García-Gutiérrez, A. Nogales, D.R. Rueda, M. Kwiatkowska, ...
  • J. Li, P.C. Ma, W.S. Chow, C.K. To, B.Z. Tang, ...
  • J. Aguilar, J. Bautista-Quijano, F.J.E.P.L. Avilés, "Influence of carbon nanotube ...
  • A.P. Singh, P. Garg, F. Alam, K. Singh, R. Mathur, ...
  • H.-B. Zhang, Q. Yan, W.-G. Zheng, Z. He, Z.-Z. Yu, ...
  • G. De Bellis, A. Tamburrano, A. Dinescu, M.L. Santarelli, M.S. ...
  • P. Bhattacharya, C.K. Das, S.S. Kalra, "Graphene and mwcnt: Potential ...
  • S.u.D. Khan, M. Arora, M.A. Wahab, P. Saini, "Permittivity and ...
  • A. Gharieh, M.S. Seyed Dorraji, "A systematic study on the ...
  • G. Hu, W. Fu, Y. Ma, J. Zhou, H. Liang, ...
  • S. Roy, R.S. Petrova, S.J.N.r. Mitra, "Effect of carbon nanotube ...
  • M. Yazdi, V.H. Asl, M. Pourmohammadi, H. Roghani-Mamaqani, "Mechanical properties, ...
  • M. Haghgoo, R. Ansari, M.J.C.P.B.E. Hassanzadeh-Aghdam, "Prediction of electrical conductivity ...
  • M.A. Zhilyaeva, E.V. Shulga, S.D. Shandakov, I.V. Sergeichev, E.P. Gilshteyn, ...
  • H. Jintoku, Y. Matsuzawa, M.J.C. Yoshida, "Dual use of anionic ...
  • J. Pan, L.J.M.C. Bian, Physics, "A physics investigation for influence ...
  • نمایش کامل مراجع