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中国科学院研究生院学报 2006
Effect of Ultrasonic Wave on the Polymerization of Vinyl Acetate (VAC) Emulsion
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Abstract:
The monomer conversion efficiency and average particle size and its distribution of vinyl acetate (VAC) polymerization by conventional and ultrasonic-assisted means individually were compared. With adding ultrasonic waves in the VAC polymerization, the monomer conversion efficiency was increased from 92.5% to 98.8%, and the average particle size of latex was reduced from 136.7nm to 101.4nm. During the process of ultrasonic-assisted polymerization of VAC system, the effects of initiator concentration and reaction temperature on the conversion efficiency and average particle size distribution were studied. The experimental results demonstrated that the radicals generated from ultrasonic energy solely were not enough to propel the polymerization perfectly and the radicals produced by decomposition of initiator play an important role in driving polymerization. Furthermore, the mechanism of ultrasonic-assisted emulsion polymerization was briefly deduced. It was also found that ultrasonic waves maintained a constant supply of radicals and these radicals were able to reactivate some of the non-active polymer chains, so that it resulted in the higher conversion efficiency of the monomer.
