Abstract
Latexes based on ethyl methacrylate (EMA), acrylic acid (AA), crosslinked with 1,6-hexanediol propoxylate diacrylate (HPDA), were synthesized via emulsion polymerization, yielding dispersions with different acidic group contents and crosslinking densities. The latexes were thickened using various NaOH/AA molar ratios and the resultant dispersions were characterized by pH-metry, zeta potentiometry, and turbidimetry. The process of thickening by carboxyl neutralization was shown to be dependent on the neutralization effect on particle–particle interactions and particle solubilization. Turbidimetry, pH-metry, and zeta potential measurements showed that neutralization resulted in partial latex solubilization and viscometry indicated that, for a given latex, an optimum thickening was achieved for and specific NaOH/AA molar ratio, showing the existence of a relationship between thickening, particle–particle interactions, latex solubilization, and polyelectrolyte effect.
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