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HomeDefect and Diffusion ForumDefect and Diffusion Forum Vol. 440Exploring Magnetic Field-Dependent Viscosity of...

Exploring Magnetic Field-Dependent Viscosity of Hybrid Ferrofluid on Elongated Surfaces

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Abstract:

Hybrid ferrofluid holds significant promise in medical applications and targeted drug de livery. An external magnetic field may alter the rheological properties of the ferrofluids. This study investigates the magnetic field-dependent viscosity (MFDV) in a hybrid ferrofluid composed of mag netite ferrite (Fe₃O₄) and cobalt ferrite (CoFe₂O₄) over an elongated surface, where a mixture of ethylene glycol and water serves as the conventional fluid. The influence of magnetohydrodynamics (MHD) is taken into account. The developed nonlinear governing equations are transformed into or dinary differential equations using the similarity transformation method. Then, the bvp4c solver in MATLAB is employed to compute the numerical results. The findings reveal that both the velocity and temperature fields experience an upsurge due to the MFDV. Moreover, the MHD effect enhances the thermal profile while reducing the velocity field of the hybrid ferrofluid. These findings present promising opportunities for the development of innovative medical technologies that capitalise on the unique properties of hybrid ferrofluid.

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Periodical:

Defect and Diffusion Forum (Volume 440)

Pages:

47-53

DOI:

https://doi.org/10.4028/p-S6p9se

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Online since:

March 2025

Authors:

Nur Ilyana Kamis, Noraihan Afiqah Rawi*, Lim Yeou Jiann, Sharidan Shafie

Keywords:

bvp4c, Hybrid Ferrofluid, MFDV, MHD

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© 2025 Trans Tech Publications Ltd. All Rights Reserved

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* - Corresponding Author

[1] S. Idris, A. Jamaludin, R. Nazar and I. Pop: Submitted to Heliyon Vol. 9 (2023)

[2] K. Anantha Kumar, N. Sandeep, V. Sugunamma and I. L. Animasaun: submitted to Journal of Thermal Analysis and Calorimetry Vol. 139 (2020), pp.2145-2153

DOI: 10.1007/s10973-019-08628-4

[3] Hedayatnasab, Z., F. Abnisa, and W.M.A.W. Daud: submitted to Materials & Design Vol. 123 (2017), pp.174-196

[4] N. S. Khashi'Ie, I. Waini, N. S. Wahid, N. M. Arifin, and I Pop: submitted to CFD Letters Vol. 14 (2022), pp.9-21

[5] H. Waqas, U. Farooq, D. Liu, M. Abid, M. Imran, and T. Muhammad: submitted to International Communications in Heat and Mass Transfer Vol. 138 (2022)

DOI: 10.1016/j.icheatmasstransfer.2022.106303

[6] Kasim, A.R.M., N.S. Nordin, and I: submitted to Journal of Advanced Research in Fluid Mechanics and Thermal Sciences, Vol. 109 (2023), pp.95-112

[7] W. M. H. W. Rosli, M. K. A. Mohamed, N. M. Sarif, N. F. Mohammad, and S. K. Soid: submitted to CFD Letters Vol. 15, (2023), pp.112-122

[8] E. Esmaeilnezhad, H. J. Choi, M. Schaffie, M. Gholizadeh, M. Ranjbar, and S. H. Kwon: submitted to Journal of Magnetism and Magnetic Materials 444 (2017): 161-167.

DOI: 10.1016/j.jmmm.2017.08.023

[9] Odenbach, S. and S. Thurm, Spinger (2002).

[10] Sunil, A. Sharma, D. Sharma, and P. Kumar: submitted to Chemical Engineering Communications Vol. 195 (2008), pp.571-583

[11] L. Wang, Y. Wang, X. Yan, X. Wang, and B. Feng: submitted to International Communications in Heat and Mass Transfer, Vol. 72 (2016), pp.23-28

[12] M. Izadi, M. Javanahram, S. M. H. Zadeh, and D. Jing: submitted to Chinese Journal of Chemical Engineering Vol 28 (2020), pp.329-339

[13] S. A. M. Mehryan, M. Izadi, Z. Namazian, and A. J. Chamkha: submitted to Journal of Thermal Analysis and Calorimetry Vol. 138 (2019), pp.1541-1555

[14] A. Khan, M. S. Khan, A. A. Pasha, R. Marzouki, M. M. Rahman, O. Mahmoud, A. M. Galal, and S. A. Najati: submitted to Scientific Reports Vol. 12 (2022)

DOI: 10.1038/s41598-022-20959-1

[15] Karimi, Z., L. Karimi, and H. Shokrollahi: submitted to Materials Science and Engineering Vol. 33 (2013), pp.2465-2475

[16] M. S. A. Darwish, N. H. A. Nguyen, A. Ševců, I. Stibor, and S. K. Smoukov: Materials Science and Engineering: C Vol. 63 (2016), pp.88-95

DOI: 10.1016/j.msec.2016.02.052

[17] S. F. Samakosh, A. Bahari, V. F. Hamidabadi, and H. M. Moghaddam: submitted to Bio- NanoScience Vol. 13 (2023), p.2168–2179

[18] Sharifi, I., H. Shokrollahi, and S. Amiri: submitted to Journal of Magnetism and Magnetic Materials Vol. 2012. 324(6): pp.903-915

DOI: 10.1016/j.jmmm.2011.10.017

[19] S. Laurent, S. Dutz, U. O. Häfeli, and M. Mahmoudi: submitted to Advances in colloid and interface science Vol. 166 (2011), pp.8-23

DOI: 10.1016/j.cis.2011.04.003

[20] M. P. Beck, Y. Yuan, P. Warrier, and A. S. Teja: submitted to Journal of Nanoparticle Research Vol. 12 (2010), pp.1469-1477

[21] M. Akbari, M. Afrand, A. Arshi, and A. Karimipour: submitted to Journal of Molecular Liquids Vol. 233 (2017), pp.352-357

[22] Tiwari, R.K. and M.K. Das: submitted to International Journal of Heat and Mass Transfer Vol 50 (2007), pp.2002-2018.

[23] J. Wang, N. A. Shah, B. Almutairi, O. K. Kwon, and J. D. Chung: submitted to Results in Physics Vol. 57 (2024)

[24] O. Afonso and P.B. Vasconcelos: Routledge (2015)

[25] M. Z. Salleh, R. Nazar, I. Pop: submitted to Journal of the Taiwan Institute of Chemical Engineers (2010)

[26] M. Qasim, I. Khan, S. Shafie: submitted to PLoS One 8 (2013)

[27] N. I. Kamis, L. Y. Jiann, S. Shafie, and N. A. Rawi: submitted to Case Studies in Thermal Engineering Vol. 51 (2023)