The dependence of the normal stress on the shear rate and magnetic field strength in the shear flow of magnetorheological (MR) fluids has been studied experimentally. An obvious normal stress could be observed when the applied magnetic field was higher than a critical value. The normal stress increases considerably with increase of the shear rate and magnetic field, and decreases suddenly and significantly upon the onset of shear thickening in MR fluids. The ratio of shear stress to normal stress, an analogue of the friction coefficient, increases with increase of the shear rate, but decreases with increase of the applied magnetic field. Along with the shear stress, the normal stress in MR fluids could provide a more comprehensive understanding of the MR effect, and the evolution of the particle structure in shear flow, and may have important implications for preparing high performance magnetostrictive elastomers with high force output along the magnetic field direction.
The high-ortho epoxy phenolic fibers (HEPFs) were prepared by the crosslinking of as-spun filaments derived from melt-spinning of the epoxy novolac resins copolymerized among epichlorohydrin (ECH), phenol and formaldehyde, and cured in a combined solution of formaldehyde and hydrochloric acid with a different heating rate. The changes in functional groups, thermal performance and mechanical properties during the different heating rates in solution curing were characterized. The results show that a peak of thermal stability and mechanical properties can be obtained with increasing heating rate, and crosslinking structure and characteristic group have changed after the solution curing. The epoxy phenolic fibers show great potential in the application of elastic flame-resistant textiles, aero-composites and precursors for activated carbon fibers used in electronic devices.
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