Rafah Alwan Nassif scite author profile

Three polymeric blends were prepared using epoxy, nitrile butadiene rubber (NBR), and polyurethanes (PU) to develop antiskid surfaces with the required mechanical properties. The optimum mixing ratio was decided according to the results of the coefficient of friction and impact tests. Mechanical properties, including wear, bending, compression, impact, hardness, and water uptake were measured. Scanning electron microscopy (SEM) was used to investigate the microscopic features. The results showed variations in the values of coefficient of friction for the three blends, where the epoxy/ NBR specimens showed the highest value of 0.81, followed by specimens of epoxy blended with the two types of commercial polyurethanes, Sikaflex™ and Sikaswell™ of 0.73 and 0.69; respectively. The highest wear rate was noticed for the epoxy/NBR specimen, while the epoxy+Sikaflex showed the lowest wear rate, compared to other specimens. The epoxy/Sikaflex also showed the highest values for hardness, compared with epoxy/sikaswell and epoxy/NBR; respectively. The resultant blends showed improved mechanical properties with high slipping resistance, which makes the prepared blends as potential alternatives compared to traditional flooring materials.

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Study on adsorption of some metals from waste solution by (unsaturated polyester-kaolin) composite

Hilal

Nassif

2023

Kuwait Journal of Science

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Rafah Alwan Nassif

Effects of oxygen gas on the physical properties of tin oxide nano films using laser light as ablation source

Preparation of polymeric composite for antiskid flooring purpose

Study on adsorption of some metals from waste solution by (unsaturated polyester-kaolin) composite

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