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W4313593602 abstract "A hybrid of aluminum chips and gabbro particulate filler reinforced polystyrene composite material was developed using a compounding machine and subsequent thermo-compression in mixture design experiment technique. Constituents’ materials used were confirmed using XRF and FTIR analyzers. Characterization results of the three-constituent and two-constituent analysis showed that an increase in aluminum and a decrease in gabbro compositions increase the flexural strength while both increases in aluminum and gabbro compositions increase the hardness value and density respectively. Mathematical models of the properties showed that the flexural strength fits best with the modified cubic model, hardness value with the special cubic model and the density with the cubic model. All the models were found to be statistically significant in predicting the respective properties with p-values less than 5%. The optimized formulation of maximization of the flexural strength and hardness value was determined at 4, 19, and 77% of aluminum chips (filler), gabbro rock particles (filler), and polystyrene (matrix) respectively with a corresponding flexural strength of 46.1 MPa and hardness value of 32.23Hv. Overall, the maximum flexural strength (sample 3) and hardness value (sample 9) as compared with the control sample (aluminum chips) were improved by 63 and 182% respectively." @default.
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W4313593602 date "2023-03-01" @default.
W4313593602 modified "2023-10-10" @default.
W4313593602 title "Development, characterization, and modeling of aluminum chips-gabbro filler polystyrene hybrid composite using mixture design" @default.
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W4313593602 doi "https://doi.org/10.1016/j.matchemphys.2022.127235" @default.
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