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A study of inverse dispersion polymerization of acrylic acid using water-soluble redox initiators

✍ Scribed by Z. Liu; B. W. Brooks

Publisher
John Wiley and Sons
Year
1997
Tongue
English
Weight
280 KB
Volume
66
Category
Article
ISSN
0021-8995

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✦ Synopsis

Inverse dispersion polymerizations of acrylic acid were conducted by using a water-soluble redox initiation system under both isothermal and nonisothermal conditions. The polymerizations were monitored by measuring residual monomer by highperformance liquid chromatography for isothermal polymerizations or by monitoring the temperature variation inside the dispersion for nonisothermal polymerizations. The aqueous drop behavior was examined throughout the course of polymerization by scanning electron microscopy with freeze-fracture equipment. The agitation intensity had a significant effect on polymerization, drop size, and distribution. The volume of aqueous reductant affected the polymerization rate and limiting conversion. A second shot of aqueous reductant induced a further initiation of reaction. The rate of dispersion polymerization was slower than that of solution polymerization with surfactant. A hypothesis was proposed that polymerization occurred in aqueous drops. Coalescence and breakup of aqueous drops took place simultaneously and played an important role in polymerization.

πŸ“œ SIMILAR VOLUMES

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Redox polymerizations of acrylic acid in inverse dispersion and in aqueous solution (with surfactant) were conducted by using sodium metabisulphite/potassium bromate initiators. The monomer conversions were determined by using high-performance liquid chromatography, and the polymer particles in the

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Aqueous polymerization of acrylic acid was conducted using potassium bromate/sodium metabisulphite redox initiators under isothermal conditions. The initial polymerization rates were determined with variation in temperature and in the initial concentrations of acrylic acid, potassium bromate and sod

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Polymerization of carboxyl group containing monomers with chemical initiators. Part III. Polymerization of acrylic acid induced by the persulphate/sulphite redox system
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## Abstract The polymerization of acrylic acid by the redox system ammonium persulphate/sodium sulphite was studied under a variety of conditions. The obtained results indicate that the total conversion is determined by the concentrations of (NH~4~)~2~S~2~O~8~ and Na~2~SO~3~, as well as by the degr