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Static ultrasonic oscillations induced degradation and its effect on the linear rheological behavior of novel propylene based plastomer melts
Authors:Bo Peng  Shaoyun Guo  Shih-Yaw Lai
Affiliation:a The State Key Laboratory of Polymer Materials Engineering, Polymer Research Institute of Sichuan University, Chengdu 610065, China
b Dow Chemical (China) Investment Company, Shanghai 200120, China
c Dow Chemical Pacific (Singapore) Pte Ltd, Asia-Pacific Technical Center, Singapore 638025, Singapore
Abstract:The ultrasonic degradation of novel propylene based plastomer (DP) melts with different melt viscosities was conducted in a “static” ultrasonic device where the samples were taken from various distances from the tip of an ultrasonic probe. The effects of ultrasonic time, oscillation temperature, ultrasonic intensity and the distance from the ultrasonic probe tip on the degradation behavior of DP melts as well as the ultrasonic degradation effect on the linear rheological behavior of DP melts were studied. The results show that the increase of initial melt viscosity of DP (higher molecular weight) has greater impact on the ultrasonic degradation of DP melt. The molecular weight and intrinsic viscosity of DP decrease with the increase of ultrasonic oscillation time and they approach to a limiting value. The molecular weight distribution of DP increases after ultrasonic degradation. Decreasing oscillation temperature and distance from probe tip and increasing ultrasonic intensity lead to an increase in the degradation of DP melt. The linear rheological behavior measurements of the samples obtained near the ultrasonic probe tip show that ultrasonic oscillations decrease the complex viscosity, zero shear viscosity, viscoelastic moduli, cross modulus, relaxation time and the slope of log G′ − log G″ for DP melts.
Keywords:Propylene based plastomer   Ultrasonic oscillations   Degradation   Linear rheological behavior
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