Elemental substitution tuned magneto elastoviscous behavior of nanoscale ferrite MFe2O4 M = Mn, Fe, Co, Ni based complex fluids
Ankur Chattopadhyay, Subhajyoti Samanta, Rajendra Srivastava, Rajib, Mondal, Purbarun Dhar

TL;DR
This study investigates how substituting different magnetic metals in nanoscale ferrite spinels influences the magnetorheological and magneto elastoviscous behaviors of related fluids, revealing shear thinning, hysteresis, and solid-like properties under magnetic fields.
Contribution
It demonstrates the effect of M-site substitution in nanoscale ferrites on the magnetorheological behavior, providing insights into tailoring nano MRFs for specific applications.
Findings
MRFs exhibit shear thinning and yield under magnetic fields.
MnFe2O4 MRFs show the best yield performance.
CoFe2O4 MRFs demonstrate superior dynamic and oscillatory performance.
Abstract
The present article reports the governing influence of substituting the M2 site in nanoscale MFe2O4 spinel ferrites by different magnetic metals Fe,Mn,Co,Ni on magnetorheological and magneto elastoviscous behaviors of the corresponding magnetorheological fluids MRFs. Different doped MFe2O4 nanoparticles have been synthesized using the polyol assisted hydrothermal method. Detailed steady and oscillatory shear rheology have been performed on the MRFs to determine the magneto-viscoelastic responses. The MRFs exhibit shear thinning behavior and augmented yield characteristics under influence of magnetic field. The steady state magnetoviscous behaviors are scaled against the governing Mason number and self similar response from all the MRFs have been noted. The MRFs conform to an extended Bingham plastic model under field effect. Transient magnetoviscous responses show distinct hysteresis…
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