Poly(butylene terephthalate), PET, can be impact modified by blending
with appropriate ABS materials. The effect of ABS type and processing
conditions on the notched Izod impact strength of PET blends is examin
ed in depth. Of three emulsion-made ABS materials containing 38 to 50%
rubber, the one with the highest melt viscosity (50% rubber and a bro
ad rubber particle distribution) proved the least effective for improv
ing the impact strength of PET when processed at high temperatures (26
0 degrees C). Blends prepared in twin screw vs a single screw extruder
have similar impact behavior. Melt temperatures greater than 240 degr
ees C used during molding have little effect on the crystalline behavi
our of PBT; however, they reduce the effectiveness of some ABS grades
for impact modification. Blends moulded at higher temperatures show a
coarse phase morphology with large, poorly dispersed ABS domains. PBT/
ABS blends can have excellent mechanical properties in the absence of
any compatibilizer; however, a compatabilizer would no doubt improve t
he stability of the morphology of the blends and may lessen their depe
ndence on process conditions. (C) 1997 Elsevier Science Ltd.