Vinod et al., 2018 - Google Patents
Experimental evidence for the significant role of initial cluster size and liquid confinement on thermo-physical properties of magnetic nanofluids under applied …Vinod et al., 2018
- Document ID
- 12426366283495690106
- Author
- Vinod S
- Philip J
- Publication year
- Publication venue
- Journal of Molecular Liquids
External Links
Snippet
Though huge thermal conductivity enhancement was observed in some magnetic fluids under an external field, the percentage of enhancement reported were largely different in similar magnetic fluids, which was quite perplexing to the scientific community. Here, we …
- 230000005291 magnetic 0 title abstract description 98
Similar Documents
| Publication | Publication Date | Title |
|---|---|---|
| Vinod et al. | Experimental evidence for the significant role of initial cluster size and liquid confinement on thermo-physical properties of magnetic nanofluids under applied magnetic field | |
| Socoliuc et al. | Ferrofluids and bio-ferrofluids: Looking back and stepping forward | |
| Maldonado-Camargo et al. | Magnetic characterization of iron oxide nanoparticles for biomedical applications | |
| Yu et al. | Enhancement of thermal conductivity of kerosene-based Fe3O4 nanofluids prepared via phase-transfer method | |
| Altan et al. | Enhancement of thermal conductivity upon application of magnetic field to Fe3O4 nanofluids | |
| Tartaj et al. | Magnetic behavior of γ-Fe2O3 nanocrystals dispersed in colloidal silica particles | |
| Vinod et al. | Thermal and rheological properties of magnetic nanofluids: Recent advances and future directions | |
| Qiao et al. | Magnetorheological behavior of Pickering emulsions stabilized by surface-modified Fe3O4 nanoparticles | |
| Wu et al. | Particle size dependent rheological property in magnetic fluid | |
| Çelik et al. | Synthesis of FeCo magnetic nanoalloys and investigation of heating properties for magnetic fluid hyperthermia | |
| Vinod et al. | Role of field-induced nanostructures, zippering and size polydispersity on effective thermal transport in magnetic fluids without significant viscosity enhancement | |
| Ruan et al. | The rheological responds of the superparamagnetic fluid based on Fe3O4 hollow nanospheres | |
| Liu et al. | Preparation and characterization of carbonyl iron/strontium hexaferrite magnetorheological fluids | |
| Allia et al. | Dynamic effects of dipolar interactions on the magnetic behavior of magnetite nanoparticles | |
| Kowlgi et al. | Synthesis of magnetic noble metal (nano) particles | |
| Shahrivar et al. | Rheological behavior of magnetic colloids in the borderline between ferrofluids and magnetorheological fluids | |
| Eliseev et al. | Rotational dynamics of colloidal hexaferrite nanoplates | |
| Ersen et al. | Microstructural investigation of magnetic CoFe2O4 nanowires inside carbon nanotubes by electron tomography | |
| Vinod et al. | Impact of field ramp rate on magnetic field assisted thermal transport in ferrofluids | |
| Palihawadana-Arachchige et al. | Effect of magnetic dipolar interactions on temperature dependent magnetic hyperthermia in ferrofluids | |
| Khan et al. | Tunable thermal conductivity and rheology of in-house synthesized Fe55Co25Ni20 complex fluids under the external magnetic field | |
| Ranoo et al. | Enhancement in field induced heating efficiency of TMAOH coated superparamagnetic Fe3O4 nanoparticles by texturing under a static bias field | |
| Vinod et al. | Field induced deformation of sessile ferrofluid droplets: effect of particle size distribution on magnetowetting | |
| Lemal et al. | Simple and fast evaluation of relaxation parameters of magnetic nanoparticles | |
| Bae et al. | Preparation and magnetorheological response of triangular-shaped single-crystalline magnetite particle-based magnetic fluid |