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  • Effect of Ca2+ ion concentration on adsorption of poly(carboxylate ether)-based (PCE) superplasticizer on mica.

Effect of Ca2+ ion concentration on adsorption of poly(carboxylate ether)-based (PCE) superplasticizer on mica.

Journal of colloid and interface science (2018-05-25)
Bo Wu, Byong-Wa Chun, Le Gu, Tonya L Kuhl
ABSTRACT

Poly(carboxylate ether)-based (PCE) superplasticizers consist of a carboxylic acid backbone and grafted poly(ethylene glycol) (PEG) side chains. Ca2+ ion bridging mechanism is commonly purported to control PCE's adsorption on negatively charged cement particle surfaces in cement suspension, thus PCE was expected to adsorb on negatively charged surfaces in synthetic pore solutions via Ca2+/COO- interactions. Adsorption behaviors of a commercial PCE on negatively charged mica were studied in aqueous electrolyte solutions by a surface forces apparatus. Direct force measurements indicated that the PCE adsorbed onto mica from 0.1 M K2SO4 due to K+ ion chelation by the ether oxygen units CH2CH2O on the PEG chains, but surprisingly did not adsorb from either 0.1 M K2SO4 with saturated Ca(OH)2 or 0.1 M Ca(NO3)2. The adsorption in K2SO4 was weak, enabling the adsorbed PCE layers to be squeezed out under modest compression. Upon separating the surfaces, the PCE immediately achieved an identical re-adsorption. In high-calcium conditions, the PCE was highly positively charged due to Ca2+ ion chelation by PEG chains and backbone carboxylic groups COO-, and mica also underwent charge reversal due to electrostatic adsorption/binding of Ca2+ ions. Consequently, the interaction between mica and PCE was electrostatically repulsive and no PCE adsorption occurred. These findings can be explained by the complex interplay of ion chelation by PEG chains, electrostatic binding and screening interactions with charged surfaces in the presence of monovalent and divalent counterions, and ultimately charge reversal of both the charged surfaces and polyelectrolyte in high divalent ion conditions.

MATERIALS
Product Number
Brand
Product Description

Sigma-Aldrich
Calcium hydroxide, 99.995% trace metals basis
Sigma-Aldrich
Potassium sulfate, 99.99% trace metals basis
Sigma-Aldrich
Calcium nitrate hydrate, 99.997% trace metals basis