E X P E R I M E N T A L A N A L Y S I S O F P E N E T R A T I O N I N T O W O V E N F A B R I C T A R G E T I M P R E G N A T E D W I T H S H E A R T H I C K E N I N G F L U I D W I T H C L A Y N A N O P A R T I C L E S
Author(s):
Abstract:
Fluids can be divided into several classifications in terms of their viscosity behavior with relation to shear rate. One of these classes is the Newtonian u{fb02}uids, which exhibit a constant viscosity with the increase of shear rate. The main feature of Shear Thickening Fluid )STF( exhibits an increased viscosity with the increase of shear rate. The shear thickening phenomenon occurs in most of the concentrated colloidal suspensions containing hard solid particles in fluid. The behavior of continuous phase has a significant impact on the properties of the STF. Due to the appearance of OH bonds on the surface of silica particles and also the appearance of this type of bond in the polyethylene glycol, the formation of hydrogen bonds. In this paper, glass fiber reinforced shear thickening fluid and shear thickening fluid with clay nanoparticles under quasi-static tests is investigated. A shear thickening fluid was prepared successfully and rheological behavior was was investigated. One of the disadvantages of shear thickening fluid (STF) is high concentration. To prepare shear thickening fluid polyethylene glycol as a base fluid and the silica nanoparticles is added slowly to the fluid. After to create shear thickening fluid clay nano particles are added to the fluid. Glass fabrics were soaked in STF/ethanol (1:3) solution to prepare STF-glass fabric composite and STF- nanoclay-glass composite. For better immersion of fibers, at first STF is diluted in ethanol, and then the fibers are left there in for a specified period in order to impregnate all fibers with the fluid. The composite's sensitivity to the impact will be reduced through ethanol combining with the fluid and its elimination. After this stage, to eliminate the ethanol in the sample, it is heated at a temperature range of $60-{70^0}C$. Quasi-static resistant tests were carried out on three modes the neat glass fabrics and STF- glass fabric and STF-nanoclay glass fabrics composites. The current study clearly displays a significant enhancement in penetration resistance of glass fabric impregnated with STF-nanoclay.
Keywords:
Language:
Persian
Published:
Mechanical Engineering Sharif, Volume:33 Issue: 1, 2017
Pages:
49 to 54
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