Waterborne latex coatings of color: III. Triblock polyether influences on color development and viscosity |
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Authors: | David M Mahli Jon M Wegner J Edward Glass Daniel G Phillips |
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Affiliation: | (1) Coatings Plus Department, University of Lake Wobegon, 1751 S. 23rd St., Fargo, ND 58103, USA;(2) Degussa Corp., 2 Turner Place, Piscataway, NJ 08854, USA |
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Abstract: | Oxyethylene (PEO)/oxypropylene (PPO) triblock polymers are added to colorant formulations to determine the influence of molecular
weight and other structural variances on the rheology and color development of tinted latex paints. Waterborne coatings are
a matrix of many coating components. In this study, a 108- or a 600-nm latex was thickened with a nonassociative thickener,
hydroxyethyl cellulose, or an associative telechelic HEUR thickener. Triblock polymers with internal PPO segments and PEO
terminal segments added as a dispersant to colorant packages, lead to better color development than PPO/PEO/PPO triblocks
dispersants in carbon black (CB) tinted paints. The increase in color development with high molecular weight (MW) triblocks
starts at a very low concentration (2 mM) and plateaus in a Langmuir-type adsorption isotherm. Lower molecular weight triblock
polymers also exhibit this behavior in CB-, red-, and yellow-tinted latex coatings; however, increasing the terminal PEO segment
sizes leads to better color development only in the CB-tinted coatings. With large PEO terminal units red and yellow tints
are high only at very low concentrations (2 mM) of the triblock. This parabolic response in color development, in contrast
to CB-tinted formulations, is attributed to the high surface area and porosity of CB that limits the amount of large PEO segments
interacting with the talc particle present at twice the volume fraction of the colorant. With the lower surface areas of the
red and yellow colorants, the interaction of the large PEO terminal segments with talc particles accounts for the limited
triblock concentration for which good color development is observed. This can be reversed by decreasing or eliminating talc
from the formulation. |
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Keywords: | Colorant formulations Triblock polymers Waterborne Color retention Surfactant Latex Carbon black Thickener Polyoxypropylene Polyoxyethylene Viscosity |
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