Temperature dependency of magnetorheological fluids’ properties under varying strain amplitude and rate

•The effect of temperature on the shear stress-shear rate responses of the MR fluids has been investigated.•The influence of temperature on the viscoelastic properties of MR fluids (storage and loss moduli) has been studied.•Various levels of applied magnetic field and wide range of operating temper...

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Bibliographic Details
Published in:Journal of magnetism and magnetic materials 2020-03, Vol.498, p.166109, Article 166109
Main Authors: Hemmatian, Masoud, Sedaghati, Ramin, Rakheja, Subhash
Format: Article
Language:English
Subjects:
Amplitudes
Critical strain
Data acquisition
Flux density
Linear and nonlinear viscoelasticity
Loss modulus
Magnetic fields
Magnetic flux
Magnetic properties
Magnetism
Magnetorheological (MR) fluids
Magnetorheological fluids
Mechanical properties
Rheological properties
Shear flow
Shear strain
Shear stress
Solid particle fraction
Storage modulus
Stress concentration
Temperature dependence
Temperature dependency
Temperature effects
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Summary:•The effect of temperature on the shear stress-shear rate responses of the MR fluids has been investigated.•The influence of temperature on the viscoelastic properties of MR fluids (storage and loss moduli) has been studied.•Various levels of applied magnetic field and wide range of operating temperature have been considered at different strain amplitudes and frequencies.•In absence of magnetic field, the MR fluid is highly dependent on the temperature especially for temperatures below 10 °C.•Magnetic field reduces effect of temperature and it mostly affects storage and loss moduli in linear viscoelastic region. The temperature dependencies of the rheological and viscoelastic properties of magnetorheological (MR) fluids were investigated experimentally using a rotary rheometer. The shear flow and oscillatory shear strain experiments were conducted over a wide temperature range (−5 to 50 °C) for different levels of magnetic flux density, and strain amplitude and rate. The temperature effect is also investigated considering three different MR fluids with varying solid particles concentration. The measured shear stress-strain data were used to evaluate the effects of temperature and magnetic field on the pre- and post-yield properties of the MR fluids. The acquired data under harmonic strain excitations swept in the 0.005–100% strain amplitude and different levels of steady temperatures in the −5 °C to 50 °C range were analyzed to identify storage and loss moduli as functions of the temperature, shear strain amplitude and frequency. The results suggested strong influence of temperature on the mechanical properties of the fluids in the absence of the magnetic field, especially at temperatures below 10 °C. The magnetic field, however, constituted the dominant effect. In the presence of a magnetic field, the temperature effect could be observed only at low strain levels. The temperature dependency of the mechanical properties also varied considerably with the iron particle fraction of the MR fluid. The critical strain amplitude also increased with increasing magnetic field density, while the linear storage modulus approached saturation with magnetic flux density above 0.2 T.
ISSN:0304-8853
1873-4766
DOI:10.1016/j.jmmm.2019.166109