Method and colorant for the coloring of rubber

Synthetic resins or natural rubbers -- part of the class 520 ser – Synthetic resins – At least one aryl ring which is part of a fused or bridged...

Reexamination Certificate

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C524S497000

Reexamination Certificate

active

06500896

ABSTRACT:

FIELD OF THE INVENTION
This invention relates to a method used in the coloring of rubber. This invention further relates to a colorant used to color rubber and colorized rubber.
BACKGROUND OF THE INVENTION
Crumb rubber, commonly manufactured from recycled tires, is used in road paving, horse tracks, floor mats, bedding for farm animals, shingles for roofing and sports turf surfaces (such as football fields, tracks, etc.) to add resilience to the surfaces and to absorb impact better than asphalt or turf. Crumb rubber is also gaining popularity as playground cover for areas where children climb or face dangers from falling. Its superior ability to cushion impacts makes it a very desirable ground surface for high-impact activities.
The use of crumb rubber has been limited due to the lack of aesthetic appeal in that most tires are black. Some methods of coloring crumb rubber have been developed, such as wetting and drying material or painting over the black, but these methods are not efficient, practical or durable. Painting over the rubber consumes a large amount of paint and commonly results in a non-durable product as the paint is rubbed off when in consistent contact with another object. Spraying the crumb rubber and allowing it to air dry also creates a wide variety of problems. The spray method produces a product with poor color uniformity and incomplete coverage. Sprayed on paints tend to demonstrate poor adhesion of the colorants to the rubber. In addition, the spray method wastes an excessive amount of paint and create problems with waste disposal when a solvent-based paint is used. Traditional methods also lack the ability to achieve vibrant colors due to the carbon black that is present in the rubber. The carbon black darkens or dirties the colorant thereby producing a color that lacks vibrancy. It would be desirable to have a method of coloring rubber which will produce a durable, vibrant product.
SUMMARY OF THE INVENTION
The present invention provides a method for coloring a rubber substrate with a latex-based colorant comprising the steps of providing a latex-based colorant that includes an elastomeric latex-based binder and a pigment system and mixing the latex-based colorant with the rubber substrate. Optionally, the latex-based colorant further comprises a surfactant system, a thickener, a defoamer, and an antioxidant. The present invention further provides a colored rubber and a latex-based colorant for coloring rubber.
DETAILED DESCRIPTION OF THE INVENTION
The present invention pertains to a colored rubber substrate, a method of coloring a rubber substrate, and a latex-based colorant for such a coloring method. The steps involved in the method include, providing the colorant, and applying the colorant to the rubber substrate. The method may further comprise the step of vulcanizing the rubber.
The latex-based colorant comprises a latex-based binder and a pigment system. The latex-based colorant preferably comprises 5-50 percent by weight elastomeric latex-based binder, 10-70 percent by weight the pigment system, and 0-85 percent by weight water. It is more preferred for the latex-based colorant to comprise 10-20 percent by weight elastomeric latex- based binder, 30-55 percent by weight the pigment system, and 25-60 percent by weight water. The latex-based binder comprises an elastomeric latex, either natural or synthetic, that forms lattices, or colloidal dispersions of polymeric material, in a water-based system. When lattices are applied on a substrate, a uniform coating of the rubber-results after the water evaporates. The elastomeric latex preferably has a solids content in the range of 25-75 percent, and it is more preferred to have an elastomeric latex with a solids content in the range of 45-65 percent. Examples of synthetic elastomeric latex are styrene butadiene rubber, nitrile rubber, butyl rubber, polychloroprene rubber, and ethylene-propylene rubber. It is preferred to use an elastomeric latex comprising a mixture of natural rubber and styrene butadiene rubber.
In addition, the latex-based colorant includes a pigment system. The pigment system comprises an opacifer and an organic pigment dispersion, preferably between a 3:1 and 2:1 ratio, respectively. Examples of suitable opacifers are zinc oxide, zinc sulfate, and barium sulfate. The preferred opacifer has a refractive index greater than 2. Such an opacifer would include titanium oxide, and more preferably a rutile grade of titanium dioxide. The opacifer provides the opacity to cover up the carbon black on the rubber and the color is achieved by using a suitable organic pigment dispersion. Use of a latex-based colorant permits application of a wide variety of colors to the rubber substrate. Examples of suitable organic pigment dispersions are phthalocyanine blues and greens, DNA orange, Diarylide yellows, Naphthol red, Lithol Rubine red, Toluidine red, Red Lake C, Carbazole violet, Barium Lithol red, Rhodamine Red, Methyl violet, and Quinacridone Magenta. Organic pigment dispersions that are water-based are preferred because they are compatible with the elastomeric latex-based binders.
Optionally, the colorant further comprises a defoamer, a surfactant system, a thickener, and an antioxidant. Any conventional defoamer that minimizes the formation of foam and bubbles during the manufacture of water-based dispersions may be employed. It is preferred to use a mixture of hydrophobic solids and polysiloxanes in polyglycol as the defoamer. One suitable example is BYK022, manufactured by BYK-Chemie USA.
The surfactant system is preferably a blend of non-ionic and ionic surfactants. Examples of non-ionic surfactants are condensation products of fatty alcohols with ethylene oxide, polyethylene glycol esters or chain fatty acids, or sobitan esters. Ionic surfactants can be either anionic or certain cationic compounds. Suitable anionic surfactants are, for example, sodium alkyl sulfate, sodium salt of polymeric polycarboxylic acid, sodium polymethacrylate, and sodium alkyl sulfate. Suitable cationic surfactants are, for example, salts of primary, secondary, or tertiary amines and quartenary salts such as cetylpyridinium bromide, hexa-decyl-ethyl morpholinium chloride and diethyl didodecyl ammonium chloride. The preferred surfactant system is a blend of sodium salt of polymeric polycarboxylic acid and a non-ionic surfactant based on modified alkylaryl polyther, preferably with an 80:20 blend, respectively.
The thickener is desired to provide an increased shelf-life and to impart a viscosity between 75 and 95 KU for the latex-based colorant. A thickener with a viscosity between 75 and 100 KU, as measured by a Stormer Viscometer, is preferred, and more preferably is between 80 and 90 KU. Suitable thickeners are gums, starches, cellulose polymers, minerals, or alginates. The preferred thickener is a hydrated aluminum magnesium silicate, commonly designated as Attagel, commercially available from Engelhard Corporation, or Min-U-Gel, comniercially available from Floridin Industries.
An antioxidant is optionally added to protect the latex film from degradation due to heat and ultraviolet light. Suitable antioxidants are, for example, N-N′Di(2-octyl)-p-phenylene diamine, diphenyl-p-phenylendedianmine, octylated diphenulamine, dioctylated diphenylarnine, styrenated phenol, or hindered phenol. The preferred antioxidant is a water based dispersion of octylated diphenylamine, commonly designated under the trade names Agerite Stalite and C-560 dispersion, commercially available from R.T. Vanderbilt Company.
The latex-based colorant is prepared by placing the components into a mixer, preferably a Cowles type mixer, and.thoroughly mixing. The mixing wets the pigments with the surfactants and ensures that all the ingredients are uniformly incorporated.
The latex-based colorant is applied to a rubber substrate to be colored, such as, for example, crumb rubber, natural rubber, ethylene-propylene rubber, butyl rubber, nitrile rubber, styrene-butadiene rubber, or polychloroprene rubber for example. The colorant and the rub

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