Skin Development during the Film Formation of Waterborne Acrylic Pressure-Sensitive Adhesives Containing Tackifying Resin

Mallégol, Jacky; Bennett, George; McDonald, P.J.; Keddie, Joseph L.; Dupont, Olivier

doi:10.1080/00218460600646461

Cited by 38 publications

(58 citation statements)

References 42 publications

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“…More recently, scanning near-field optical microscopy [26] has been applied for these purposes. In our previous research, [27,28,29,30] we determined the morphology of waterborne PSA films using atomic force microscopy (AFM), as a first step in correlation with properties.…”

Section: Introductionmentioning

confidence: 99%

Probing particle structure in waterborne pressure-sensitive adhesives with atomic force microscopy

Lei

Ouzineb²,

Dupont³

et al. 2007

Journal of Colloid and Interface Science

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Section: Introductionmentioning

confidence: 99%

Probing particle structure in waterborne pressure-sensitive adhesives with atomic force microscopy

Lei

Ouzineb²,

Dupont³

et al. 2007

Journal of Colloid and Interface Science

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“…Drying in the direction perpendicular to the substrate (i.e. vertically), however, is of greater relevance to problems associated with short open times and skin formation [15], which is when a coalesced layer develops at the surface of a drying film. With skin formation, the rate of drying is thereafter slower [16], and there is a risk of water entrapment within the film or in the substrate.…”

Section: Introductionmentioning

confidence: 99%

An experimental test of the scaling prediction for the spatial distribution of water during the drying of colloidal films

Ekanayake

McDonald

Keddie

2009

Eur. Phys. J. Spec. Top.

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Abstract. A Peclet number, Pe, for the drying of colloidal films can be used as a predictor of the uniformity of water concentration in the direction normal to the film. Uniform drying is predicted to occur when Pe < 1, whereas with Pe > 1, a layer of packed particles is expected to develop above a more dilute layer. Routh and Zimmerman have more recently proposed that the particle concentration gradient between the packed and dilute layers, dφp/dz , will scale as Pe 1/2 . Here, this scaling relation is tested experimentally with magnetic resonance profiling data obtained from waterborne colloidal films dried under conditions to yield a range of Pe. It is found that dφp/dz increases with Pe but scales as Pe 0.8 . This disagreement with the prediction can be attributed to an underestimate of Pe when there are greater non-uniformities of drying, because of an unquantified slowing down of the evaporation rate.

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“…In particular, non-uniformity of water during the drying process can cause "skin formation" in which a coalesced surface develops over a wet interior. 10 Consequently, water loss from further evaporation is severely slowed down. 11,12 Water trapped within polymer films (because of skin formation) can be detrimental to their cohesive strength and adhesion.…”

Section: Introductionmentioning

confidence: 99%

Correlation of Silicone Incorporation into Hybrid Acrylic Coatings with the Resulting Hydrophobic and Thermal Properties

et al. 2008

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A series of high-solids hybrid silicone-acrylic latexes, with varying silicone concentrations and reactivities, was prepared via miniemulsion polymerization. The properties of the resulting coatings have been correlated with their structure and the extent of silicone grafting. The highest silicone incorporation was obtained with silicones containing two reactive vinyl groups polymerized by a semicontinuous method with a delayed addition of neat monomer. It was found that the amount of silicone grafted to the acrylic chains, not the overall total amount in the formulation, was the main factor affecting film properties. Hydrophobicity, water resistance and thermal stability all increased with the amount of grafted silicone. Coatings that contained high levels of non-grafted silicone displayed separate sub-micrometer silicone phases and exhibited inferior properties. When silicone was incorporated into the acrylic particles, the total drying time of the coating was shorter, and the water distribution -as determined with magnetic resonance profiling -was more uniform, in comparison to an acrylic coating. A blend of a silicone emulsion and the acrylic latex displayed a non- † Present address: Department of Physics, University of Peradeniya, Peradeniya, Sri Lanka * To whom the correspondence should be addressed. E-mail: jm.asua@ehu.es

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Skin Development during the Film Formation of Waterborne Acrylic Pressure-Sensitive Adhesives Containing Tackifying Resin

Cited by 38 publications

References 42 publications

Probing particle structure in waterborne pressure-sensitive adhesives with atomic force microscopy

Probing particle structure in waterborne pressure-sensitive adhesives with atomic force microscopy

An experimental test of the scaling prediction for the spatial distribution of water during the drying of colloidal films

Correlation of Silicone Incorporation into Hybrid Acrylic Coatings with the Resulting Hydrophobic and Thermal Properties

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