Abstract
The poly(2,6-dimethyl-1,4-phenylene oxide) (PPO) was toughened by melt extrusion through its blending with a styrene- b-ethylene/butadiene- b-styrene triblock copolymer (SEBS), or with maleic anhydride (MA) grafted SEBS (SEBS- g-MA). Their morphology, mechanical properties, and rheology have been investigated. Transmission electron microscopy revealed that both kinds of blends had an island–sea structure at low concentrations of SEBS or SEBS- g-MA and a bicontinuous one at sufficiently high concentrations. However, the percolation threshold was higher for SEBS than for the SEBS- g-MA. The Izod impact strength of PPO could be significantly improved through its blending with SEBS- g-MA, particularly in a blend with 20 wt% of SEBS- g-MA at which it had a maximum value. The rheological experiments indicated that the incorporation of SEBS increased and that of SEBS- g-MA decreased the melt viscosity of the system.
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