Sulfate resistance increases with increasing rubber particle replacement percentage.
ASAs with rubber particle sizes of 100 nm and 1 µm, respectively, and ABS with rubber particle size of 100 nm were investigated.
ASAs with rubber particle sizes of 100 nm and 1 μm, respectively, and ABS with rubber particle size of 100 nm were examined.
Structurally, the classical rubber particle morphology was not observed.
The lowest shrinkage in CLSRC was achieved at a rubber particle replacement percentage of 20%.
The ultrasonic pulse velocity decreased as the rubber particle replacement percentage increased.
Regardless of the rubber particle size, rubber-sand contacts represent an important contribution to the overall strength of the material; however, the rubber particle size dictates how said contribution takes place.
The research results showed that rubber particle replacement percentages in the range of 10 20% are feasible in engineering practice.
ABS is observed to exhibit a higher scratch resistance when compared to ASA with comparable rubber particle size.
It is shown that the rubber particle size decreases significantly by increasing the rubber content for the unreinforced blend.
The two polyamides generate comparable rubber particle sizes at the same of MA level.
