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ACRYLATE COPOLYMER THICKENERS

IP.com Disclosure Number: IPCOM000201039D
Publication Date: 2010-Nov-05

Publishing Venue

The IP.com Prior Art Database

Abstract

Disclosed are surfactant compositions containing at least one crosslinked acrylic copolymer. The crosslinked acrylic copolymer is polymerized in the presence of at least two different classes of crosslinking monomers. The crosslinked acrylic copolymers provide desirable rheological, clarity, and aesthetic properties in aqueous surfactant containing compositions.

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ACRYLATE COPOLYMER THICKENERS

TECHNICAL FIELD
[0001]
In one aspect, the invention relates to an acrylic based thickener suitable for use in aqueous systems. A further aspect of the invention relates to the formation of stable, aqueous compositions containing an acrylic based rheology modifier, a surfactant, and optionally various components that are substantially insoluble materials requiring suspension or stabilization. A still further aspect of the invention relates to the formation of clear, rheologically and phase stable surfactant compositions formulated with an alkaline material and/or an acidic material without negatively impacting the rheology and clarity of the composition.

BACKGROUND OF THE INVENTION
[0002]
Rheology modifiers, also referred to as thickeners or viscosifiers, are ubiquitous in surfactant containing personal care cleansing formulations. Rheological properties (e.g., viscosity and flow characteristics, foamability, spreadability, and the like), aesthetic properties (e.g., clarity, sensory effects, and the like), mildness (dermal and ocular irritation mitigation), and the ability to suspend and stabilize soluble and insoluble components within a surfactant based formulation are often modified by the addition of a thickener.
[0003] Often, thickeners are introduced into surfactant formulations in solid form and mixed under conditions effective to dissolve the thickener into the liquid surfactant composition in order to effect a viscosity enhancement. Frequently, the mixing must be conducted at elevated temperatures (hot processing) in order to promote the dissolution of the solid thickener and obtain the desired viscosity improvement. Additionally, solid thickeners (e.g., carbomer powders) are known to resist "wet-out" upon contact with the surface of an aqueous based system. Consequently, carbomers are supplied as finely divided powders and/or must be sifted to reduce particle size which aids in dissolution by increasing the relative surface area of the particle. During processing, carbomer powders can become electrostatically charged as they are transferred in and out of containers and tend to adhere to oppositely charged surfaces including airborne dust,


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necessitating specialized dust extraction equipment. This means that preparation of aqueous dispersions is messy and time-consuming unless special precautions and expensive equipment is employed. Formulators of compositions containing thickened surfactant constituents desire the ability to formulate their products at ambient temperatures (cold processing). Accordingly, formulators desire thickeners which can be introduced to the liquid surfactant compositions in liquid form rather than as a solid. This provides the formulator with a greater degree of precision in introducing the thickener to the liquid surfactant composition, allows the ability to formulate products at ambient temperatures (cold processing), and better facilitates a...