AU616735B2

AU616735B2 - Novel method for the decorating and protective coating of floor surfaces

Info

Publication number: AU616735B2
Application number: AU30842/89A
Authority: AU
Inventors: John Moore
Original assignee: METCHEM Pty Ltd
Current assignee: METCHEM Pty Ltd
Priority date: 1988-02-29
Filing date: 1989-02-28
Publication date: 1991-11-07
Anticipated expiration: 2009-02-28
Also published as: PT89876A; AU3084289A; GB2216039A; JPH0252075A; GB8904582D0

Description

AUSTRALIA

PATENTS ACT 1952 COMPLETE SPECIFICATION

(ORIGINAL)

g 6Aft FOR OFFICE USE Application Number: Lodged: Complete Specification Lodged: Accepted: Published: Priority: Related Art: o TO BE COMPLETED BY APPLICANT 0 0 00 07 D Name of Applicant: Address of Applicant: Actual Inventor: Address for Service: METCHEM PTY. LIMITED 21 Myrtle Street, Botany, New South Wales, 2019 Australia JOHN MOORE ARTHUR S. CAVE CO.

Patent Trade Mark Attorneys Level Barrack Street SYDNEY N.S.W. 2000

AUSTRALIA

Complete Specification for the invention entitled NOVEL METHOD FOR THE DECORATING AND PROTECTIVE COATING OF FLOOR SURFACES.

The following statement is a full description of this invention including the best method of performing it known to'ne:- ASC 49 i:- ;:z d

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1 0248p:mmb 2 NOVEL METHOD FOR THE DECORATING AND PROTECTIVE COATING OF FLOOR SURFACES The present invention relates to a method of decorating cork and timber floors and an improved method of protection thereof.

In the past, cork and timber floors have been protected with a clear lacquer or urethane to allow the texture of the substrate to show through while providing a wearable surface which protected the substrate. This method of floor protection, however, could not accommodate the colouring of the substrate whilst also allowing the texture to be seen.

To colour the substrate, the flooring had to be coated oo with a paint which, when applied, prevented the underlying texture of the cork or timber substrate being seen, which as ao: a result defeated the purpose of laying a naturally textured substrate.

It has therefore become necessary to provide flooring ~materials which not only provide the soft natural texture of cork and timber, but are able to aesthetically blend with o the pastel colouring of today's modern decor while ensuring 0 a long term protection of the substrate against wear.

c The present invention provides a method of decorating cork and timber floors comprising the steps of: ors lightly sanding the floor surface, colouring the sanded floor surface by evenly coating the said surface with a blend of powders, applying a sealer to the coloured surface, -applying at least one top coat to the sealed surface, whereby said colouring is visible through said top coat.

In a preferred embodiment of the invention the blend of powders, sealer and top coat are the components of a single system. The system is comprised of: the colour coat applied to a prepared cork floor; (ii) the sealer applied to lock the said colour coat j to the floor; and

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,0248p:mmb 3 (iii) the top coat a thick tough coat of the high build polyurethane which is applied to keep said sealed surface.

This system allows the natural cork to seen while also having been toned to suit the decor, and provides a colour stable, highly resistant floor covering which also provides protection and hard wearing properties.

The invention also provides a specific blend of powders for colouring the substrate comprised of: 20-80% by weight of a medium ground calcium carbonate or metal oxide, preferably zinc oxide, extender of particle size between 200-450 microns, with

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0 e S a brightness of 90 plus on Zeiss elrepho reflectometer, mixed together with 20-80% by weight of titanium dioxide pigments and up to 20% by weight of oxide pigment and optionally up to by weight of a chelating agent, the percentage weights being based on the final weight of the powder blend.

Calcium carbonate is the preferred extender for the powder blends used to colour timber substrate, while metal oxides, in particular zinc oxide, are the preferred extenders for the powder blends used to colour cork substrate. The particle size of the extender provides a carrier medium for the oo colourant to be evenly spread over a varying surface as in timber and cork.

*4*4 raaa The addition of a chelating agent to the powder blend prevents the effect of decolourization of the floor coating caused by the leaching of substances from the substrate, such as the browning effect experienced with processed cork which results from leaching of tannin. The chelating agent is optionally added to the powder blends for use on either timber or cork surfaces. An example of a suitable chelating agent is '0 ethylene diamine tetraacetic acid (EDTA).

addiion aaIn addition, the invention provides a sealer which locks the powder within the pores of the surface of the substrate and also provides a chemically suitable surface for the application thereto of the top coat. The sealer is comprised of a white water-based emulsion consisting of a mixture of thermoplastic acrylic emulsion together with a urethane emulsion, said mixture having a film-forming temperature of between 10-40°C, a specific gravity of between 0.9 to 1.10, preferably 1.036, and -4- 1092E Aj a pH value of 6.5 to 8.0; together with a solvent borne acrylic resin, an emulsifier, a coalescing solvent, a defoamer, a hydrocarbon solvent and a small amount of a primary amine.

The addition of the urethane emulsion to the thermoplastic acrylic emulsion enhances the bonding of the floor coating to the surface of the substrate. The solvent borne acrylic resin provides the sealer with flexibility as well as promoting the cross-linking between the sealer surface and the top coat applied thereto. The emulsifier enables the ii0, acrylic resin to become incorporated in to the said water-based i acrylic emulsion. The hydrocarbon solvent is an organic aromatic solvent. It provides stability of the final emulsion a a e aa9 and allows drying of the sealer. The primary amine acts as a thickener of the final emulsion and to accelerate the cross-linking between the sealer surface and the top coat applied thereto.

The sealer, in being water-basec, educes the toxicology of a major part of the said system and also provides a fast, practical, ready to use system for a trades person.

The invention further provides a top coat which cross-links with the surface of the sealer and provides a high density, strong wearing, durable surface. The top coat is comprised of urethane resin consisting of 20 80 by weight 1 of a polyisocyanate produced by the polymerization of toluene diisocyanate with trimethylol propane in the presence of a polyether polyol, in admixture with 0.5 2.5 by weight of I copolyacrylate and 1 2 by weight of a monofunctional isocyanate having an NCO content of approximately 20%, up to 5 -092E 1092E 2% by weight of one or more UV absorbers, and 13.5 78.5 by weight of hydrocarbon solvent blend having a mixed aniline point range 10 18 0 C, wherein the percentage weights are based on the final weight of top coat. The added copolyacrylate acts as a levelling agent. The added monofunctional isocyanate has the characteristic of readily reacting with water and other compounds with reactive hydrogen atoms and offers stability to one part formulations. This top coat therefore offers the desirable features of urethane resin and the added higher solids provide increased 'build' on the floor for protection.

.o UV absorbers which can be used in accordance with the invention 0 0 S can be selected from UV absorbers of the go hydroxyphenylbenzotriazole class, such as TINUVIN 292 or ao 0o TINUVIN 1130® In a preferred embodiment the urethane resin is prepared by thoroughly mixing together: 80 based on final weight, of a polyisocyanate having molecular weight between 2,000 to 50,000 and produced by the polymerization of toluene diisocyanate with trimethylol propane in the presence of a polyether polyol; 0.5 2.5 based on final weight, of acrylate copolymerisate; 1 2 based on final weight, of p-toluene-sulfonyl isocyanate; 0 3 based on final weight, of ethyl acetate (Low Hydroxyl Grade); 12.5 78.5 by weight of hydrocarbon solvent blend having a mixed aniline point range 10 18 0

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6 1092E In accordance with the invention, the top coat applied to the surface of the sealed substrate can be chosen to provide either a matt, a satin or a gloss finish as desired.

A matt finish can be obtained by applying the required number of coats, preferably two, of a matt finish coat, and lightly sanding in between coats.

A satin coat can be obtained by applying the top coat as described above, followed by sanding and a coating of a matt finish coat, optionally in admixture with the above described i0 top coat to obtain the degree of gloss required.

A high gloss finish is obtained with the application of one or more coatings of the above described top coat.

4 4 It is possible to recoat the coloured and sealed substrate, where the top coat has not worn through, in the normal manner.

However, where the top coat has worn through it is essential to completely sand back to the surface of the substrate and reapply the colouring, sealer and top coat as herein described. This ensures colour match and an even end result.

The following examples serve to illustrate the present invention and it is not intended that the invention be limited to these examples. Commercially available ingredients are given by their registered trade name. Unless otherwise stated percentage values are percentage weights based on final weight of the composition.

The following are examples of blends of powders suitable for coating timber and cork surfaces.

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EXAMPLE 1 BLUE COATING BY WEIGHT COMPONENT TIMBER CORK Clay filler, mesh size 200-600 Blue Oxide Ultramine 7 7 Glass filler 5 Metal Oxide 21 EDTA 8 8 Zinc Oxide 19 EXAMPLE 2 GREEN COATING BY WEIGHT COMPONENT TIMBER CORK Clay filler, mesh size 200-600 Green Oxide 7 7 Glass filler Metal Oxide 21 21 .s EDTA 8 8 Zinc Oxide 19 64 EXAMPLE 3 GREY COATING "o BY WEIGHT COMPONENT TIMBER CORK Clay filler, mesh size 200-600 41 Black Oxide 1.30 1.30 Blue Oxide Ultramine 0.70 0.76 Glass filler Metal Oxide 21 EDTA 8 8 Zinc Oxide 23 69.94 EXAMPLE 4 PINK COATING BY WEIGHT COMPONENT TIMBER CORK Clay filler, mesh size 200-600 42 Red Oxide 5 8 Glass filler 5 Metal Oxide 21 EDTA 8 8 Zinc Oxide 19 64 EXAMPLE 5 WHITE COATING BY WEIGHT COMPONENT TIMBER CORK Clay filler, mesh size 200-600 Glass filler 5 Metal Oxide 28 EDTA 8 8 Zinc Oxide 19 72 -8 1092E L The following examples illustrate a method of preparation of a sealer in accordance with the invention.

EXAMPLE 6 A Hydrocarbon Solvent, Aniline Point 10 0 C 15.00 Ester-Alcohol 4.00 Acrylic Polymer Solution 10.00 Dimethylethylamine 0.50 B JQP Water 33.25 0, Defoamer, containing mineral oil, waxes, 0.25 o 0 hydroxylsilica and dispersant a o, Sorbitol monolaurate 1.50 Polyoxyethylene 20, sorbitane monolaurate 0.50 Aqueous acrylic emulsion 35.00 o o Separately mix together the components of A and B until 0 0O each is homogenously mixed. Very slowly add A to B with o 0 constant stirring. Check viscosity while mixing A to B. When mixing is complete sieve final mixture through fine strainer to remove visible particulate matter.

Final product has a viscosity between 150 to 400 cps and a o 1 0 specific gravity between 0.9 to 1.10.

EXAMPLE 7 A Hydrocarbon Solvent, Aniline Point 10 0 C 15.00 Ester Alcohol 4.00 Acrylic Polymer Solution 10.00 Dimethylethylamine 0.50 W I -9- 1092E 4'4 B Water 33.25 Antifoam 0.25 Emulsifying Agent 1.50 Wetting Agent 0.50 Acrylic Emulsion 35.00 The components are mixed in accordance with Example 6.

The final product has a viscosity between 150 to 400 cps and specific gravity between 0.9 to 1.10.

EXAMPLE 8 A Hydrocarbon Solvent, Aniline Point 10 0 C 12.00 Ester Alcohol 4.00 Acrylic Polymer Solution 8.00 Dimethylethylacetate 0.40 Emulsifying Agent B Water 25.20 Emulsifying Agent 0.80 Thermoplastic Water-borne Acrylic Polymer 28.00 Water-borne Polyurethane 20.00 The components are mixed in accordance with Example 6.

The following examples illustrate a method of preparation of a top coating in accordance with the invention.

EXAMPLE 9 Thoroughly mix together 95.45% of a polyisocyanate having a molecular weight between 2,000 and 50,000 and produced by the polymerization of toluene diisocyanate with trimethylol propane in the presence of a polyether polyol; 0.95% acrylate copolymerisate; 10 1092E 1.20% p-toluene-sulfonyl isocyanate; 2.40% ethyl acetate (Low Hydroxyl Grade).

Final product has a viscosity between 38 to 40 Ford cup secs and a specific gravity between 0.95 to 1.05.

EXAMPLE The components below are thoroughly mixed together to give a final product having a viscosity and specific gravity as in Example 9.

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1 1 COMPONENT «lb Urethane-based finish (product of 47.725 q0 described reaction) Screened Unithane® 47.725 Paint levelling additive 0.95 Monofunctional Isocyanate 1.20 oEthyl Acetate (Low Hydroxyl Grade) 2.40 EXAMPLE 11 SThe components below are thoroughly mixed together to give a final product having a viscosity and specific gravity as in Example 9.

COMPONENT Urethane-based finish (product of 47.00 described reaction) Screened Unithane® 47.00 Paint levelling additive 0.38 Monofunctional Isocyanate 0.94 Ethyl Acetate (Low Hydroxyl Grade) 3.10 Hydroxyphenylbenzotriazole class 1.58 U.V. absorbers 11 1092E

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Claims

1. A method of decorating cork and timber floors comprising the steps of: lightly sanding the floor surface, colouring the sanded floor surface by evenly coating the said surface with a blend of powders, applying a sealer to the coloured surface, applying at least one top coat to the sealed surface, whereby said colouring is visible through said top coat.

2. A method according to claim 1, wherein the blend of powders is comprised of:

20-80% by weight of a medium ground calcium carbonate or metal oxide, extender of particle size between 200-450 0 microns, with a brightness of 90 plus on Zeiss electro reflectometer, mixed together with 20-80% by weight of 0 titanium dioxide pigments and up to 20% by weight of another oxide pigment and optionally up to 20% by weight of a chelating agent, the percentage weights being based on the final weight of the powder blend. 3. A method according to claim 2, wherein the metal oxide Sextender is zinc oxide. 4. A method according to claim 2, wherein the chelating 0 agent is ethylene diamine tetraacetic acid. 5. A method according to any one of claims 1 to 4, wherein the sealer comprises: a white water-based emulsion consisting of a mixture of thermoplastic acrylic emulsion and a urethane emulsion, said mixture having a film-forming temperature of between 10°-40 0 C, a specific gravity of between 0.9 to 1.10, and a pH value of 6.5 to 8.0; together with a solvent borne acrylic resin, an emulsifier, a coalescing solvent, a defoamer, a hydrocarbon solvent and a small amount of a primary amine. 6. A method according to any one of claims 1 to 5, wherein the top coat comprises a urethane resin consisting of 20-80% by weight of a polyisocyanate produced by the polymerization of toluene diisocyanate with trimethylol propane in the INA 0 NTI is S0248p:mmb 13 presence of a polymer polyol, in admixture with 0.5-2.5% by weight of copolyacrylate and 1-2% by weight of a monofunctional isocyanate having an NCO content of approximately 20%, up to 2% by weight of one or more UV absorbers, and 13-5-78.5% by weight of hydrocarbon solvent blend having a mixed aniline point range 10-18°C, wherein the percentage weights are based on the final weight of top coat. 7. A method according to claim 6, wherein the UV absorber is selected from UV absorbers of the hydroxyphenylbenzo- triazole class. S 8. A method according to claim 6, wherein said urethane S resin is prepared by thoroughly mixing together: 20-80%, based on final weight, of a polyisocyanate 'o ~having a molecular weight between 2,000 to 50,000 and S produced by the polymerization of toluene diisocyanate with trimethylol propane in the presence of a polyether polyol; based on final weight, of acrylate S copolymerizate; based on final weight, of p-toluene-sulfonyl S1 isocyanate; based on final weight, of ethyl acetate (Low Hydroxyl Grade); and 12.5-78.5% by weight of hydrocarbon solvent blend S° having a mixed aniline point range 10-18°C. 9. A method according to claim 1, substantially as hereinbefore described with reference to any one of the foregoing examples thereof. DATED this 9th day of August, 1991. METCHEM PTY. LIMITED By Its Patent Attorneys ARTHUR S. CAVE CO. A A i ,A t