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Magnetic field dependent thermal conductivity investigation of water based Fe3O4/CNT and Fe3O4/graphene magnetic hybrid nanofluids using a Helmholtz coil system setup
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R. Alsangur Et Al. , "Magnetic field dependent thermal conductivity investigation of water based Fe3O4/CNT and Fe3O4/graphene magnetic hybrid nanofluids using a Helmholtz coil system setup," Diamond and Related Materials , vol.141, 2024

Alsangur, R. Et Al. 2024. Magnetic field dependent thermal conductivity investigation of water based Fe3O4/CNT and Fe3O4/graphene magnetic hybrid nanofluids using a Helmholtz coil system setup. Diamond and Related Materials , vol.141 .

Alsangur, R., Doganay, S., Ates, İ., TURGUT, A., Cetin, L., & Rebay, M., (2024). Magnetic field dependent thermal conductivity investigation of water based Fe3O4/CNT and Fe3O4/graphene magnetic hybrid nanofluids using a Helmholtz coil system setup. Diamond and Related Materials , vol.141.

Alsangur, R. Et Al. "Magnetic field dependent thermal conductivity investigation of water based Fe3O4/CNT and Fe3O4/graphene magnetic hybrid nanofluids using a Helmholtz coil system setup," Diamond and Related Materials , vol.141, 2024

Alsangur, R. Et Al. "Magnetic field dependent thermal conductivity investigation of water based Fe3O4/CNT and Fe3O4/graphene magnetic hybrid nanofluids using a Helmholtz coil system setup." Diamond and Related Materials , vol.141, 2024

Alsangur, R. Et Al. (2024) . "Magnetic field dependent thermal conductivity investigation of water based Fe3O4/CNT and Fe3O4/graphene magnetic hybrid nanofluids using a Helmholtz coil system setup." Diamond and Related Materials , vol.141.

@article{article, author={R. Alsangur Et Al. }, title={Magnetic field dependent thermal conductivity investigation of water based Fe3O4/CNT and Fe3O4/graphene magnetic hybrid nanofluids using a Helmholtz coil system setup}, journal={Diamond and Related Materials}, year=2024}