Abstract
This research aims to investigate the influence of water soaking and re-drying on the mechanical and wear properties of nanoclay-polyester nanocomposites (NPNCs). The nanoclay addition significantly enhances the mechanical properties of NPNCs in as-made, water-soaked and re-dried conditions. Also, the addition of nanoclay decreased the percentage of reduction in mechanical properties under water-soaking condition. Re-drying recovers more than 90% in values of mechanical properties compared to original values. In contrast, the addition of nanoclay reduces the mass loss (wear test) of specimens in all three conditions. Re-dried specimens have lesser mass loss than water-soaked specimens and greater mass loss than as-made specimens. SEM images illustrate that the absorbed water can alter the fracture and worn-out surface by swelling and plasticization. Also, SEM images reveal that re-drying can reverse the effect of swelling and plasticization of the specimens.
Highlights
This research aims to investigate the influence of water soaking and re-drying on the mechanical and wear properties of nanoclay-polyester nanocomposites (NPNCs)
Many investigations have been done on nanoclay-polyester nanocomposites, and the researchers reported that adding nanoclay enhances the properties of polyester resin[3,14,15]
The present study investigates the effect of water soaking and re-drying conditions on mechanical and wear properties of nanoclay-polyester nanocomposites (NPNCs)
Summary
This research aims to investigate the influence of water soaking and re-drying on the mechanical and wear properties of nanoclay-polyester nanocomposites (NPNCs). The nanoclay addition significantly enhances the mechanical properties of NPNCs in as-made, water-soaked and re-dried conditions. The addition of nanoclay decreased the percentage of reduction in mechanical properties under water-soaking condition. The present study investigates the effect of water soaking and re-drying conditions on mechanical and wear properties of nanoclay-polyester nanocomposites (NPNCs). It targets the influence of different nanoclay weight percentages on water absorption, tensile and flexural strengths, and wear property (mass loss) of polyester under water aging and drying conditions. Fracture surfaces under tensile load and worn-out surfaces are investigated in order to establish the causes of specimen failure
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