Measurements of the dynamic viscoelastic behavior in the temperature ranges of -120 ℃ to +100 ℃ at 11 Hz by use of Rheovibron DDV-II-C, and of the tensile stress-strain behavior at 20 ℃ by use of the Instron tensile tester have been carried out for a series of mechanical Polyvinylchloride（PVC）/Ethylene-co-vinylacetate(EVA) blends in the composition range of 0 % to 21 % by weight of EVA in the blends.
From the observation of the dynamic viscoelastic behavior of the PVC/EVA blends, the temperature-dependence of the rheological properties which are the storage modulus, the loss modulus, and the loss tangent have been investigated for each blend. From these results, it is suggested that EVA is slightly compatible with PVC. The toughness is increased mostly when the EVA is blended with PVC to the extent of 3 % by weight of EVA in the blend. It is elieved that the PVC/EVA blends are toughened because EVA is slightly compatible with PVC and because the toughening mechani는 which involve the crazing and the shear yielding occurred in the blend. Wikth increasing amount of EVA than 3 % by weight in the PVC/EVA blends, the toughness of the blend is gradually decreased and eventually becomes less than that of the PVC alone. The reduction of toughness of the blend may be due to the reduced interparticle distance of EVA which leads to the excessive development of crazes between the EVA particles or to the adiabatic heating process around those crazes.