Title:
Polymer Physics and Superplasticizers
Author(s):
R.J. Flatt, I. Schober, E. Raphael, E. Lesniewska, and C. Plassard
Publication:
Symposium Paper
Volume:
262
Issue:
Appears on pages(s):
113-122
Keywords:
adsorption; atomic force microscopy; scaling laws; steric hindrance; superplasticizers.
DOI:
10.14359/51663226
Date:
10/1/2009
Abstract:
The increased performance of polycarboxylate superplasticizers is generally explained by the steric hindrance they are intended to develop between
cement particles. In fact, direct evidence of this is relatively scarce. The only direct measurements to date have been made by atomic force microscopy on model surfaces of magnesium oxide. In this paper, we report very recent measurements using the same technique but on surfaces of calcium silicate hydrate that constitute a more realistic model system. Furthermore, it is shown that the measured interfacial behavior of superplasticizers can be quantified by a scaling law approach borrowed and extended from polymer physics.