PCI’s “Did You Know” column has published a wealth of information about redox chemistries for use in emulsion polymerizations. This edition, the third in a series, focuses on its use in aqueous-based polymer dispersions.
This article, the conclusion of a five-part series, covers work done on using reactive surfactants to make styrene acrylic emulsions with better water resistance.
This article, the fourth in a series, covers work done to improve the water resistance of water-based emulsions by replacing conventional emulsion surfactants with surfactants that will react into the polymer matrix.
This article, the third in a series, covers work done to improve the water resistance of water-based emulsions by replacing conventional emulsion surfactants with surfactants that will react into the polymer matrix.
This article, the second in a series, covers work done to improve the water resistance of water-based emulsions by replacing conventional emulsion surfactants with surfactants that will react into the polymer matrix.
This article, the first in a series, covers work done to improve the water resistance of water-based emulsions by replacing conventional emulsion surfactants with surfactants that will react into the polymer matrix.
PCI’s “Did You Know” column has published a wealth of information about redox chemistries for use in emulsion polymerizations. This edition focuses on its use in aqueous-based polymer dispersions.
New regulations, market needs and customer requirements demand new emulsion formulations that are low in VOC content. Many of these new formulations use hydrophobic monomers that present significant challenges regarding productivity and monomer conversion.