Abstract
The swelling behavior of poly(acrylamide-co-acrylic acid and trimethyl-N-acryloyl-3-aminopropyl ammonium chloride) gel in electrolyte solutions of NaCl (uni-univalent) and MgCl2 (bi-univalent) was investigated over the whole range of pH.
The swelling of gel was induced by the ionic pressure due to Na+ and/or Mg2+ ions in the acid region (pH = 4–7) as well as basic region, where Na+ or Mg2+ ions added in solution were exchanged with H+ ion supplied by the yet undissociated group, –COOH. in the region of pH = 1–4, Cl– ions generated the ionic pressure. In the case of bivalent cation, Mg2+ especially, it was observed that the interactions between the localized fixed charges and the bivalent cation, may result in formation of new weak cross-linking. The swelling and behavior of the ions in the gel were predicted fairly well using a simple model based on Donnan equilibrium theory.
