PROCESS FOR PREPARING THE SAME

TECHNICAL FIELD

[0001] The present disclosure relates to a multilayered laminate and process for the preparation thereof, and in particular to a multilayered laminate capable of providing high gloss and also a stone-like effect to a target substrate, especially architectural materials and wood-based substrates,

BACKGROU ND

[0002] To provide a target substrate e.g., architectural materials with various characteristics, such as stain resistance, weatherability, resistance to heat and cold, resistance to water and oil, resistance to chemicals, color effects (including stone-like effects) and/or other visual effects such as high gloss, a multilayer structure consisting of two or more layers may be applied. For example, to provide a target substrate with a stone-like effect, a flexible stone-like layer can be applied to the surface of the target substrate, and a transparent rigid layer having a comparatively high modulus of elasticity is applied over the flexible stone-like layer. In such a multilayer structure, an outer layer functions as an overcoat for shielding external forces and an inner layer maintains its stone-like effect.

[0003] A topcoat finish of high gloss is usually applied in order to further improve the aesthetic property of the target substrate. The final gloss of a coating, however, depends on many parameters that can be difficult to control . For example, the properties of the coatmg solution itself, such as the resin binders used in the formulation, the formulation viscosity and the flatting pigment loading, can have an impact, on the topcoat's final gloss level, in addition, cure conditions such as curing speed, temperature, oxygen inhibition and the like, have an impact on the gloss in the final coating product.

SUMMARY

[0004] There is a need for a convenient and yet efficient process for providing a target substrate with a high gloss and a stone-like effect. To meet this need, in one

embodiment the present disclosure is directed to a multilayered laminate, including: (a) a support substrate having at least one releasable major surface; (b) a transparent overcoat formed of a first coatmg composition on the releasable major surface of the support substrate, wherein the first coating composition includes an aqueous polymer dispersion having a particle size in the range of 30 to 400 nm; (c) a stone-like topcoat system on the transparent overcoat, wherein the stone-like topcoat system includes a multicolored spot layer and a background color layer; and (d) an adhesive primer coat formed of a second coating composition on the stone-like topcoat system, wherein the second coating composition includes an aqueous polymer dispersion selected from aqueous acrylics, aqueous organic silicones and aqueous vinyl acetates, and wherein the transparent overcoat in the multilayered laminate, having been released from the support substrate, achieves a gloss of at least 85% at 60°.

[0005] In another aspect the present disclosure provides a process for the preparation of the multilayered laminate, including: (i) providing a support substrate having at least one releasable major surface; (ii) applying a first coating composition on the releasable major surface of the support substrate to form a transparent overcoat, wherein the first coating composition includes an aqueous polymer dispersion having a particle size in the range of 30 to 400 nm; (iii) by a wet on dry application process, forming a multicolored spot layer and a background color layer in turn on the transparent overcoat, thereby forming a stone-like topcoat system; (iv) by a wet on dry application process, applying a second coating composition on the stone-like topcoat system to form an adhesive primer coat, wherein the second coating composition includes an aqueous polymer dispersion selected from aqueous acrylics, aqueous organic silicones and aqueous vinyl acetates, thereby obtaining the multilayered laminate, wherein the transparent overcoat in the multilayered laminate, having been released from the support substrate, achieves a gloss of at least 85% at 60°.

[00061 In some embodiments, the multilayered laminate as disclosed herein may be provided as a separate product in the form of a solid sheet, so it is easier to handle and store than a conventional wet coating. In some embodiments the multilayered laminate as disclosed herein can be easily applied onto a target substrate by adhering it to the surface of the target substrate and then rel easing the support substrate. Some

embodiments may provide better on-site quality control than a conventional wet coating, which can provide improved product quality.

[0007] As used herein, "a", "an", "the", "at least one", and "one or more" are used interchangeably. Thus, for example, a coating composition that comprises "an" additive can be interpreted to mean that the coating composition includes "one or more" additives. [0008] Throughout the present disclosure, where compositions are described as having, including, or comprising specific components or fractions, or where processes are described as having, including, or comprising specific process steps, it is contemplated that the compositions or processes as disclosed herein may further include other components or fractions or steps, whether or not, specifically mentioned in this disclosure, as long as such components or steps do not affect the basic and novel characteristics of the invention, but it is also contemplated that the compositions or processes may consist essentially of, or consist of, the recited components or steps.

[ 0009] For the sake of brevity, only certain ranges are explicitly disclosed herein. However, ranges from any lower limit may be combined with any upper limit to recite a range not explicitly recited, as well as, ranges from any lower limit may be combined with any other lower limit to recite a range not explicitly recited, in the same way, ranges from an upper limit may be combined with any other upper limit to recite a range not explicitly recited. Additionally, within a range includes every point or mdividual value between its end points even though not explicitly recited. Thus, every point or individual value may serve as its own lower or upper limit combined with any other point or individual value or any other lower or upper limit, to recite a range not explicitly recited.

[0010] The phrase, "wet on dry application process," as used in the context of "applying a coating composition," means that an overlying coating composition is applied on an underlying coating layer which is at least surface dry (dry-to-toucb).

[0011] The term "substantially free" of volatil e organic chemicais(VOCs), as used in the context of a relcasabie paper, means that the releasable paper contains less than 1 ,000 parts per million (ppm) of VOCs. The term "essentially free" of VOCs means that the releasable paper contains less than 100 parts per million (ppm) of VOCs. The term "essen tially completely free" of VOCs means that the releasable paper con tains less than 5 parts per million (ppm) of the VOCs. The term "completely free" of VOCs means that the releasable paper contains less than 20 parts per billion (ppb) of VOCs.

[0012] The prefixes, such as first, second, third and fourth, as used in the context of a coating composition, are intended to distinguish each of coating compositions only, and are not intended to be limiting.

[0013] The terms "preferred" and "preferably" refer to embodiments of the invention that may afford certain benefits, under certain circumstances. However, other embodiments may also be preferred, under the same or other circumstances. Furthermore, the recitation of one or more preferred embodiments does not imply that other embodiments are not useful, and is not intended to exclude other embodiments from the scope of the invention.

BRIEF DESCRIPTION OF THE DRAWINGS

[0014] FIG. 1 is a photograph showing the surface of the coating syste obtained by adhering a multilayered laminate according to the present disclosure to the surface of a fiber cement board, followed by releasing the support substrate.

DETAILED DESCRIPTION

[00151 In one aspect the present disclosure is directed to a multilayered laminate, including (a) a support substrate having at least one reieasabie major surface; (b) a transparent overcoat formed of a first coating composition on the reieasabie major surface of the support substrate, wherein the first coating composition includes an aqueous polymer dispersion having a particle size in the range of 30 to 400 nm; (c) a stone-like topcoat system on the transparent overcoat, wherein the stone-like topcoat system includes a multicolored spot layer and a background color layer; and (d) an adhesive primer coat formed of a second coating composition on the stone-like topcoat system, wherein the second coating composition includes an aqueous polymer dispersion selected from aqueous acrylic dispersions, aqueous organic silicone dispersions and aqueous vinyl acetate dispersions, and wherein the transparent overcoat in the multilayered laminate, having been released from the support substrate, achieves a gloss of at least 85% at 60°.

[00161 In one embodiment, the transparent overcoat in the multilayered laminate, ha ving been released from the support substrate, achieves a gloss of at least 90% at 60°.

[0017] In another preferred embodiment, the adhesive primer in the multilayered laminate has an adhesive strength when measured by the adhesive strength

measurement method of GB/T 9779-2005, of 0.7 MPa or more.

[00^8] Support Substrate

[0019] The support substrate may include a film or sheet of any suitable material having a thickness sufficient to perform the support function. For a particular type of materials used for a support substrate, a person skilled in the art can easily determine a suitable thickness. The length or width of the support substrate is not particularly limited, in an embodiment, the support substrate can be provided in a form of coil with a certain width. [0020] In the multilayered laminate as disclosed herein, the support substrate has at least one releasable major surface, preferable two opposite releasable major surfaces. The term "major surface" as used herein means a surface that is defined by the major dimensions, i.e., the lengthwise and width wise dimensions of the substrate. The term "releasable" as used herein means that when the transparent overcoat in the multilayered laminate is released from the support, substrate, the release can be readily performed without any blocking, in particular, the releasable surface can be obtained by applying a release agent to a major surface of the support substrate. Additionally or alternatively, depending on the nature of the materials used for a support substrate, the major surface of the substrate as such is a releasable surface, making it optional to apply any release agent.

[0021] Preferably, the releasable major surface of the support substrate is smooth. The term "smooth" as used herein means that the surface has a roughness as low as desired for a particular application. In particular, the releasable major surface of the support substrate is smooth such that the transparent overcoat in the multilayered laminate, ha ving been released from the releasable major surface of the support substrate, can achieve a gloss of at least 85%, preferably 90% or even more at 60°. Thus, the support substrate as disclosed herein can perform not only the function of support, but also provide a layer, such as the transparent overcoat, previously applied on the support substrate with desired surface properties, such as gloss, after the support substrate has been removed from the multilayered laminate. Without wishing to be bound by theory, presently available evidence indicated that the layer, such as the transparent overcoat previously applied on the releasable major surface of the support substrate, can achieve the desired high gloss after release from the releasable major surface by reproducing the surface properties such as smoothness of the releasable major surface.

[0022] In an embodiment, the support substrate includes a film of a polymeric material, such as polyester, polyethylene, polypropylene, PET, or PVC, or a film of any other suitable material known in the art. In another embodiment, the support substrate includes releasable paper. In some embodiments, the releasable paper is substantially free of volatile organic chemicals(VQCs), more preferably essentially free of VOCs, even more preferably essentially completely free of VOCs, and most preferably completely free of VOCs. Examples of the support substrate include, but are not limited to, PET fi lm commercially available from Dahua Company, Hanzhou or the releasable paper commerciaily available from Pengwei Company, Shanghai, [0023] Transparent Overcoat

[00241 In the multilayered laminate as disclosed herein, the transparent overcoat is applied on the releasable major surface of the support substrate, and is formed of a first coating composition including an aqueous latex having a particle size in the range of 30 to 400 nm. According to the present disclosure, the transparent overcoat, having been rel eased from the support substrate, achieves a gloss of at least 85%, preferably 90% or even more at 60°.

[0025] As used herein, the term "an aqueous latex" refers to a stable suspension of polymeric particles in an aqueous liquid medium with the ai d of, if necessary, an emulsifier and/or a dispersion stabilizer. Unless expressly indicated otherwise, the terms "aqueous latex" and "aqueous dispersion," as used herein in the context of a polymer, can be interchangeably used. Aqueous dispersions or latexes of polymers may ^¬ be produced, for example, through an emulsion polymerization process. Suitable emulsion polymerization processes generally include the steps of dispersing and emulsifying poiymerizabie monomers into water with the aid of, as appropriate, an emulsifier and/or a dispersion stabilizer under agitation; and initiating polymerization of the monomers, e.g., by adding an initiator. According to the present disclosure, the polymeric particles can be modified by, for example, incorporating therein some organic functional groups including, but not limited thereto, carboxyl, hydroxyl, amino, isocyanate, sulphonic, or the like, whereby the aqueous latex can be obtained with desirable properties such as dispersibiiity. Therefore, the term, "aqueous latex" or "aqueous dispersion" as used herein encompasses a dispersion of unmodified polymeric particles in an aqueous medium and also a dispersion of organo-functional modified polymeric particles in an aqueous medium.

[0026] The size of the polymeric particles of the aqueous dispersion or latex may be measured in terms of the z-average particle size which is well known in the art. For example, the z-average particle size can be determined according to a dynamic light scattering method by using, for example, a Malvern Zetasizer 3000HS microscopic particle -size analyzer available from Malvern instruments, Ltd., Malvern,

Worcestershire, UK . The polymeric particles of the aqueous latex used for the first coating composition as disclosed herein have a z-average particle size of at most 400 nm, preferably less than 300 nm, more preferably less than 200 nm, and even more preferably less than 150 nm. However, the z-average particle size of the polymeric particles is preferably at least 30 nm, more preferably at least 50 nm or more, and even more preferabl at least 100 nm or more. In a preferred embodiment, the particle size of the polymeric particles is 30 to 400 nm, more preferably 100 to 150 nm. A transparent overcoat can be formed from the aqueous dispersion or latex having a suitable particle size falling within the range specified above.

[0027] The aqueous dispersion or latex used herein may include any of aqueous dispersions of organic silicones, styrene-acrylates, acrylates, organic silicones modified acrylates, vinyl acetate, vinyl acetate-aerylates, vinyl acetate-ethylene, ethylene-vinyl acetate, vinyl acetate-acrytates-ester of versatic acid (e.g., those available under the trade name VeoVa 10 from Momentive Specialty Chemicals, Inc., Columbus, OH) or any combination thereof. For the transparent overcoat, the aqueous dispersions or latexes that show excellent water resistance and weatherability are preferably used as the film forming resin.

[0028] As described above, the aqueous dispersion or latex used for the first coating composition may be prepared by any suitable emulsion polymerization process.

Al ernatively, as a particular example of an aqueous latex, any suitable commercially available product can be used, such as aqueous latex of styrene-acrylates available from BATF Industry Co., Ltd. under the trade names RS 998A, RS 968 or RS 936W.

[0029] The first coating composition includes a film-formation amount of the aqueous latex. In some embodiments, the amount of the aqueous latex i the first coating composition is about 75% to 99.5 % by weight relative to the total amount of the first coating composition. In other embodiments, the amount of the aqueous latex included in the first coating composition is at least about 80%, more preferably at least about 85%, and even more preferably about 90% by weight relative to the total amount of the first coating composition. Preferably, the amount of the aqueous latex included in the first coating composition is up to about 99%), more preferably about 98%, and even more preferably about 95% by weight relative to the total amount of the first coating composition. If additional water is further added in formulating the first coating composition, then the amount of additional water together with the water previously present in the aqueous latex shall account for the total amount of the aqueous latex.

[0030] If desired, the first coating composition can optionally include additional additives that do not adversely affect the coating composition or a resultant coating obtained therefrom. Suitable additives include, for example, those that improve the processability or manufacturability of the composition, enhance composition aesthetics, or improve a particular functional property or characteristic of the coating composition or the cured composition resulting therefrom, such as adhesion to a substrate. Additives that may be included are, for example, carriers, emulsifiers, pigments, fillers, anti- migration aids, anti-microbials, extenders, curing agents, lubricants, coalescing agents, wetting agents, biocides, plasticizers, crosslinking agents, anti foaming agents, colorants, waxes, antioxidants, anticorrosion agents, flow control agents, thixotropic agents, dispersants, adhesion promoters, UV stabilizers, scavenger agents, a thickener, a defoamer, a pH adjuster, an organic solvent, or combinations thereof. Each optional ingredient can be included in a sufficient amount to serve its intended purpose, but preferably not in such an amount to adversely affect the coating composition or a cured coating resulting therefrom. In one embodiment, the first coating composition may include a thickener, a dispersing agent, a defoamer, a pH adjuster, an organic solvent, a coalescing agent, a bactericide, a fungicide, or any combination thereof.

[0031] In various embodiments, the total amount of additives used in the coating composition may be about 0.1 to 25 %, preferably about 0.5 to about 20%, by weight relative to the total amount of the first coating composition. Preferably , the total amount of additives used may be at least about 0.5 %, more preferably at least about 1.0 %, even more preferably at least about 2.0%, and most preferably at least about 2.5%, by weight relative to the total amount of the first coating composition. Preferably, the total amount of addi tives used in the coating composition may be at most about 18 %, more preferably at most about 15%, even more preferably at most about 10%, and most preferably at most about 8.0%, by weight relative to the total amount of the first coating composition.

[0032] In an embodiment, the first coating composition may include, based on the total weight of the first coating composition, 75% to 99.9 % by weight of the aqueous polymer dispersion; and 0.1% to 25% by weight of additional additives including a thickener, a dispersing agent, a defoamer, a pH adjuster, an organic solvent, a coalescing agent, a bactericide, a fungicide, or any combination thereof.

[0033] In another embodiment, the first coating composition may include, based on the total weight of the first coating composition, 75%) to 99.9%) by weight of the aqueous styrene-acryiates polymer dispersion; and 0.1% to 25% by weight of additional additives including a thickener, a dispersing agent, a wetting agent, a defoamer, a pH adjuster, an organic solvent, a coalescing agent, a bactericide, a fungicide, or any combination thereof. [0034] In another embodiment, the first coating composition may include, based on the total weight of the first coating composition, 85% to 95% by weight of the aqueous styrene-acrylates polymer dispersion, 1.5% to 6.5%» by weight of the thickener, 0.2% to 0.6% by weight of the dispersing agent, 0.2% to 0.6% by weight of the defoamer, 0.1% to 0.3% by weight of the pH adjuster, 1.5% to 4.5% by weight of the coalescing agent, 1 .5% to 4.5% by weight of an organic solvent such as, for example, an alcohol, 0.1% to 0.3% by weight of the bactericide, and 0.1% to 0.5% by weight of the fungicide.

[0035] To form the transparent overcoat in the rnultilayered laminate, the first coating composition may be applied in a certain wet-film thickness which may suitably vary over a broad range. For example, the wet-film thickness of the transparent overcoat formed from the first coating composition may be about 30 to 150 μτη.

[0036] Stone-like Topcoat System

[0037] In the rnultilayered laminate, the stone-like topcoat system is applied on the transparent overcoat, and the stone-like topcoat system includes a multicolored spot layer and a background color layer. The term "stone-like topcoat system" as used herein means a coating system that is capable of imparting to a target substrate a color and/or texture like that of a naturally occurring stone such as, for example, marble. In the stone-like topcoat system as disclosed herein, the background color layer has a continuous background color, while the multicolored spot layer provides a color effect like colored spots or mottles in a discontinuous arrangement of dots, islands, clouds, floe (loosely clumped fine particles) or the like in contrast to the background color. The stone-like topcoat system including such a combination of a multicolored spot layer and a background color layer can provide a target substrate with a vivid stone-like effect, [0038] Multicolored Spot Layer

[0039] According to the present disclosure, the multicolored spot layer is formed from a third coating composition including color concentrate particles protected by hydrophilic clay colloid and having one or more hues.

[0040] The term "color concentrate particles protected by hydrophilic clay colloid" as used herein means a color concentrate that achieves the color effect of the multicolored spot layer in a particulate form . The surface of such a color concentrate particl e is covered b hy drophilic clay col loid, and can be stably dispersed instead of dissolved in the third coating composition. In the third coating composition according to the present disclosure may include color concentrate particles having one hue or a mixture of color concentrate particles with two or more different hues. In particular, the color concentrate particles having white, black, gray, red, yellow, blue, or green hues, or combination thereof, may be included, in one embodiment, the amount of the color concentrate particles protected by hydrophiiic clay colloid in the third coating composition is about. 14.5% to about 45 wt%, preferably from about 20% to about 30 wt%, based on the total weight of the third coating composition.

[0041] The color concentrate particles protected by hydrophiiic clay colloid can be prepared by any suitable mixing or granulating process. In particular, the process for the preparation of the color concentrate particles routinely includes the steps of fully mixing a protective hydrophiiic clay with deionized water to form a hydrophiiic clay colloid, adding to the hydrophiiic clay colloid a colored late paint and mixing the mixture until homogeneous, allowing the thus-formed mixture to pass through a perforated plate selected according to the particle size as desired, thereby forming the color concentrate particles protected by hydrophiiic clay colloid with the desired particle size. The protective hydrophiiic clay, deionized water and the colored latex paint are present in a mass ratio of 1 :5-15:5-15.

[0042] The protective hydrophiiic clays particularly useful in the preparation of the color concentrate particles can be swelled instead of completely dissolved b water, so as to form a colloid. The term "protective hydrophiiic clay" as used herein refers to those hydrous silicate minerals that are characterized by the tendency to swell by absorbing water between adjacent crystal layers, and to split into charged fragments capable of forming colloidal sols. These clays may include, but are not limited to, montmorillonites, montmorillonoids, or smectites.

[0043] In an embodiment, the hydrophiiic clay includes an example of the synthetic smectite, a hydrous sodium lithium magnesium silicate having a layered structure, mainly including Si0 ₂ , MgO, Li ₂ 0, and Na ₂ 0. The crystal structure units of the clay are platelets with a thickness in the nanometer range, and can form a stable colloid when mixing with and absorbing water. An suitable example is a hydrous sodium lithium magnesium silicate having a layered structure available under the trade designation Laponite RD from Rockwood Additives, Ltd., Widnes, Cheshire, UK, or Southern Clay Products, Inc., Gonzales, TX. In another embodiment, organically modified clays are used to reduce the re-aggregation of clays in the colloid, and a suitable example is an organically modified bentonite available from Wangge Company, Shanghai. China, under the trade designation GTS. [0044] The col ored latex paint is another essentia] component for the preparation of the color concentrate particles, and it provides the color concentrate particles with a desired color. The colored latex paint is wrapped and enveloped by the colloid formed from the protective hydrophilic clay, thereby forming the color concentrate particles that can be stably dispersed. In an embodiment, the colored latex paint includes a base latex paint, a colorant, arid optionally hydrophilic clay. In particular, the colored latex paint includes, relative to the total weight of the colored latex paint, 90% to 99% by weight of a base latex paint, 0.4% to 5% by weight of hydrophilic clay; and 0.01% to 8% by weight of a colorant for the multicolored spot layer.

[0045] A wide variety of base latex paints may be used, and in some example embodiments the base latex paint may be prepared from aqueous latex and additional additives by any suitable process well known to a person skilled in the art. The aqueous latex used therein may be the same or similar as, but may be different from, the aqueous latex for the first coating composition as described above. The aqueous latex includes any of aqueous dispersions of organic silicones, styrene-acrylates, acrylates, organic silicones modified acrylates, vinyl acetate, vinyl acetate-acrylates, vinyl acetate- ethylene, ethylene-vinyi acetate, vinyl acetate-acrylates-ester of versatic acid (e.g., that available under the trade name VeoVa 10), or any combination thereof. In an embodiment, the base latex paint includes, relative to the total weight of the base latex paint, 60% to 95% by weight of the aqueous latex. Preferably, the amount of the aqueous latex in the base latex paint is at least about 65% by weight, more preferably at least about 70% by weight, even more preferably at least about 75% by weight, relative to the total weight of the base latex paint. Preferably, the amount of the aqueous latex in the base latex paint is at most about 9.5% by weight, more preferably at most about 92% by weight, even more preferably at most about 90% by weight relative to the total weight of the base latex paint. Additionally, if additional water is further added in formulating the base latex paint, then the amount of the additional water together with the water previously present in the aqueous latex shall account for the total weight of the base latex paint.

[0046] Optionally, additional additives can be added to the aqueous latex to provide desired properties. In one non-limiting embodiment, the base latex paint includes, as the additional additives, a filler, a thickener, a dispersing aid, a defoamer, a pH adjuster, an organic solvent (such as an alcohol), a coalescing agent, a bactericide, a fungicide, or any combination thereof. The suitable amount of each of the additives can be readily determined by a person skilled in the art, and the total amount of additives used may in some embodiments be about 5% to 40% by weight relative to the total amount of the base latex paint,

[0047] A pigment or dye may be used to color the base latex paint, so as to form the colored latex paint. The pigment or dye is often incorporated in the form of color concentrate (also referred to as "colorant"). The term "color concentrate" or "colorant" as used therein means the color concentrate obtained by adding one or more pigments or dyes into a vehicle or medium. In an embodiment of the invention, the colorant is water- based, and preferably has a low level of VOCs. The colorant may include one or more pigments or dyes, and more preferably one or more pigments may be included to reduce costs.

[0048] The compositions of 10 kinds of color concentrate (colorant) commonly used are given in the table below.

[0049] As a specific example of the color concentrate, any suitable product

commercially available can be used, such as the color concentrate available under the trade name 8800N from Color Corporation of America.

1 _^ [0050] In the colored latex paint according to the present disclosure, the kind and amount of the color concentrate used may be adjusted according to the desired hue and color. In an embodiment, the amount of the color concentrate used in the colored latex paint is in the range of from 0.01 % to 10% by weight relative to the total weight of the colored latex paint,

[0051] Additionally, if desired, the hydrophilic clay may be optional ly added to the base latex paint. In an embodiment, the amount of the hydrophilic clay used in the colored latex paint is about Q,5%> to 4% by weight relative to the total weight of the colored latex paint.

[0052] According to the present disclosure, the colored latex paint may be prepared by any suitable process. For example, the colored latex paint may be prepared by charging the base latex paint, the colorant for the multicolored spot layer and optionally, the hydrophilic clay into a vessel, and mixing the mixture well until homogeneous.

[0053] In addition to the color concentrate particles, the third coating composition further includes an aqueous latex. The aqueous latex used therein may be the same or similar as, but may be different from, the aqueous latex for the first coating composition as described above. Preferably, the aqueous latex for the third coating composition is the same or similar as the aqueous latex for the first coating composition, in order to obtain good adhesion between the coating layers,

[0054] in an embodiment, the aqueous latex for the third coating composition includes any of aqueous dispersions of organic silicones, styrene-aerylat.es, acrylates, organic si licone modified acrylates, vinyl acetate, vinyl acetate-acrylates, vinyl acetate-ethyiene, emylene-vinyl acetate, vinyl aeetate-acryiates-ester of versatic acid (e.g. those available under the trade name VeoVa 10), or any combination thereof.

[0055] As stated above for the transparent overcoat, the aqueous latex for the third coating composition may be produced by an emulsion polymerization process, or may be purchased commercially. As a non-limiting example, suitable aqueous aeryiate latexes may be obtained from BATF Industry Co., Ltd. under the trade designation 2709, [0056] The third coating composition includes a film- forming amount of the aqueous latex. Preferably, the amount of the aqueous latex used in the third coating composition is about 45% to 85%>, preferably about 50% to 65%), by weight relative to the total amount of the third coating composition. If additional water is further added in formulating the third coatmg composi tion, then the amount of additional water together with the water previously present in the aqueous latex shall account for the total, amount of the aqueous l atex.

[0057] The third coating composition may optionally include additional additives for similar reasons as the first coating composition. In a preferred embodiment, the third coating composition may include a thickener, a dispersing agent, a defoamer, a pH adjuster, an organic solvent such as an alcohol, a coalescing agent, a bactericide, a fungicide, or any combination thereof. The suitable amount of each of the additives used may be about 0.1% to 10%, preferably about 4.5% to about 10%, by weight relative to the total amount of the third coating composition.

[0058] In an embodiment, the third coating composition may include, based on the total weight of the third coating composition, 45%) to 85% by weight of the aqueous polymer dispersion; 14.5% to 45% by weight of the color concentrate particles protected by a hydrophiiic clay col loid; and 0.1 % to 10% by weight of additional additives includinga thickener, a dispersing agent, a defoamer, a pH adjuster, an organic solvent, a coalescing agent, a bactericide, a fungicide, or any combination thereof.

[0059] In one example embodiment, the third coating composition may include, based on the total weight of the third coating composition, 45% to 85% by weight of the aqueous dispersion of acrylates; 14.5% to 45% by weight of the color concentrate particles protected by a hydrophiiic clay colloid; and 0.1 % to 10 % b weight of additional additives including a thickener, a dispersing agent, a defoamer, a pH adjuster, an organic solvent, a coalescing agent, a bactericide, a fungicide, or any combination thereof.

[0060] In one embodiment, the third coating composition may include, based on the total weight of the third coating composition, 50% to 65% by weight of the aqueous acrylate dispersion; 20% to 30% by weight of the color concentrate particles protected by hydrophiiic clay colloid; 0.8% to 3% by weight of the thickener, 0.2% to 1 % by weight of the dispersing agent, 0.2% to 0.6 % by weight of the defoamer, 0.1 to 0.3 % by weight of the pH adjuster, 2% to 3% by weight of the coalescing agent, 1% to 2% b weight of the organic solvent such as an alcohol, 0.1% to 0.3% by weight of the bactericide, arid 0.1% to 0.5 % by weight of the fungicide.

[0061] To form the multicolored spot layer of the stone-like topcoat system, the third coating composition is applied at an adequate wet film thickness, which can vary in a wide range and can be readily selected by a person skilled in the art. For example, the wet film thickness of the multicolored spot layer formed of the third coating composition may be ranging from about 30 to about 150 μτη.

[0062] Background Color Layer

[0063] According to the present disclosure, the background color layer is formed from a fourth coating composition including mineral powders in the form of discrete particles. As used herein, the term "mineral powders in the form of discrete particles" means the powders of naturally occurring and/or synthetic stones or minerals having a desired particle size, which can be produced by using any conventional process, such as comminuting, grinding, or the like. As an example of such mineral powders, any commercially available powders of naturally occurring stone such as marble, quartzite, dolomite and the like, for example, marble powders from Yunfu, Guangdong, China, or any suitable filler such as powders of ratile titanium dioxide, heavy calcium carbonate, calcined kaolin, or the like can be used. According to the present disclosure, the mineral powders in the form of discrete particles are present in an amount of about 10% to about 85 % by weigh t related to the total weight of the fourth coating composition.

[0064] In an embodiment, the powders of naturally occurring stone, such as marble, are used as the mineral powders in the form of discrete particles in an amount of about 60% to 75% by weight relative to the total weight of the fourth coating composition, incorporation of a relatively large amount of naturally occurring stone powders in the fourth coating composition as pigment enables the fourth coating composition to achieve a vivid stone-like effect, and significantly reduces the cost of the product. As an example of naturally occurring stone powders, the marble pow ^r ders available from Yunfu, Guangdong can be used.

[00651 In another embodiment, a powder filler is used as the mineral powder in the form of discrete particles in an amount of about 35% to 70% by weight relative to the total weight of the fourth coating composition. Since powder fillers can in some cases result in a lower strength as compared with the naturally occurring stone powders, preferably an adequate amount of silane coupling agent is incorporated into the fourth coating composition to improve the strength of the coating. As an example of suitable powder fillers, the rutile titanium dioxide powder available from Dupont, Wilmington, DE, under the trade name of 706, the heavy calcium carbonate powder available from Jiaoling Guangfu under the trade name of Gf-1 17, the calcined kaolin powder available from Jinyang Shanxi under the trade name of Br-95, or any combination thereof, may be used. [0066] To impart a desired color to the background color layer, optionally a color concentrate or colorant may be incorporated in the fourth coating composition. The colorant used herein may have the same or similar composition as that of the colorant mentioned with respect to the aforesaid colored latex paint, which is also obtainable by loading the pigment or dye known in the art in a suitable vehicle or medium. The colorant used in the background color layer may have the same or different color, preferably a different color, compared with the colorant used in the multicolored spot layer. In an example embodiment, the colorant is present in the fourth coating composition in an amount of 0.01% to 10% by weight relative to the total weight of the fourth coating composition. As a specific example of the colorant, any suitable commercially available product can be used, such as the colorant available under the trade names 88QQN, 88I3N, 8814 , 8821 from Color Corporation of America.

[0067] The fourth coating composition according to the present disclosure further includes an aqueous latex. The aqueous latex used therein may be the same or similar as, but may be different from, the aqueous latex for the first coating composition as described above. In an embodiment, the aqueous latex for the fourth coating composition includes any aqueous dispersion of organic silicones, styrene-acr lates, acrylates, organic silicones modified acrylates, vinyl acetate, vinyl acetate-acrylates, vinyl acetate-ethylene, ethylene- vinyl acetate, vinyl acetate-acrylates-ester of versatic acid (e.g. VeoVa 10), or any combination thereof.

[0068] As stated above with respect to the transparent overcoat, the aqueous latex for the fourth coating composition may be produced through suitable emulsion

polymerization processes, or may be purchased commercially. Suitable products commercially available products include, but are not limited to, aqueous acrylate latexes available under the trade designation 706T from BATF Industry Co., Ltd., or an aqueous latex of vinyl acetate-ethylene such as those available under the trade designation Celvol.it 1602 from Celanese Corporation, USA.

[0069] The fourth coating composition includes a film-forming amount of the aqueous latex, in various embodiments, the amount of the aqueous latex used in the fourth coating composition may be from about 14.5% to 80% by weight relative to the total weight of the fourth coating composition, or about 14.5%! to 40%, or about 22% to 35% by weight relative to the total weight of the fourth coating composition. In another embodiment, the amount of the aqueous latex used in the fourth coating composition is about 40% to 80%, or about 50% to 70%, by weight relative to the total weight of the fourth coating composition. If additional water is further added in formul ating the fourth coating composition, then the amount of additional water together with the water previously present in the aqueous latex shall account for the total amount of the aqueous latex.

[0070] The fourth coating composition may optionally include additional additives for the similar reasons as the first coating composition. In one embodiment, the fourth coating composition may include a thickener, a dispersing agent, a defoamer, a pH adjuster, an organic solvent such as an alcohol, a coalescing agent, a bactericide, a fungicide, or any combination thereof, in various embodiments, the total amount of additives used in the fourth coating composition may be about 0.1 % to 10%, or about 4.5% to about 10% by weigh t, relati ve to the total amount of the fourth coating composition,

[0071] In various embodiments, the fourth coating composition, based on the total weight of the fourth coating composition, includes 14.5% to 80% by weight of the aqueous polymer dispersion; 10% to 85% by weight of the mineral powders in the form of discrete particles; 0% to 10% by weight of the colorant for the background color layer; and 0.1% to 10% by weight of additional additives including a thickener, a dispersing agent, a defoamer, a pH adjuster, an organic solvent, a coalescing agent, an optional silane coupling agent, a bactericide, a fungicide, or any combination thereof.

[0072] in one embodiment, the fourth coating composition, based on the total weight of the fourth coating composition, includes 14.5% to 40% by weight of the aqueous polymer dispersion; 50% to 85%> by weight of the mineral powders in the form of discrete particles; and 0.1% to 10% by weight of additional additives including a thickener, a dispersing agent, a defoamer, a pH adjuster, an organic solvent, a coalescing agent, a bactericide, a fungicide, or any combination thereof.

[0073] According to a specific non-limiting embodiment, the (burin coating composition includes, based on the total weight of the fourth coating composition, 14.5% to 40% by weight of the aqueous dispersion of acrylates; 50% to 85% by weigh t of the naturally occurring stone powders in the form of discrete panicles; and 0.1% to 10% by weight of additional additives selected from a thickener, a dispersing agent, a defoamer, a pH adjuster, an organic solvent, a coalescing agent, a bactericide, a fungicide, or any combination thereof.

[Θ074| According to a specific non- limiting embodiment, the fourth coating composition, based on the total weight of the fourth coating composition, includes 2.2% to 35% by weigh t of the aqueous acrylate dispersion; 60% to 75% by weight of the naturally occurring stone powders in the form of discrete particles; 0,8% to 3% by weight of the thickener; 0.2% to 1% by weight of the dispersing agent; 0.2% to 0,6% by weight of the defoamer; 0.1% to 0.3% by weight of the pH adjuster; 2% to 3% by weight of the coalescing agent; 1% to 2% by weight of the organic solvent; 0.1% to 0.3% by weight of the bactericide; and 0.1% to 0.5% by weight of the fungicide.

[0075] According to another embodiment, the fourth coating composition, based on the total weight of the fourth coating composition, includes 14.5% to 80% by weight of the aqueous polymer dispersion; 10% to 85% by weight of the mineral powders in the form of discrete particles; 0.01 % to 10% by weight of the colorant for the background color layer; and 0.1 % to 10% by weight of additional additives including a thickener, a dispersing agent, a defoamer, a pH adjuster, an organic solvent, a coalescing agent, a siia e coupling agent, a bactericide, a fungicide, or any combination thereof.

[0076] In another non-limiting embodiment, the fourth coating composition, based on the total weight of the fourth coating composition, includes 14.5% to 80% by weight of the aqueous dispersion of a vinyl acetate-ethyiene copolymer; 10% to 70 % by weight of a filler in the form of discrete particles; 0.01% to 10% by weight of the colorant for the background color layer; and 0.1% to 10% by weight of additional additives including a thickener, a dispersing agent, a defoamer, a pH adjuster, an organic solvent, a coalescing agent, a siiane coupling agent, a bactericide, a fungicide, or any combination thereof.

[0077] According to another non-limiting embodiment, the fourth coating composition, based on the total weight of the fourth coating composition, includes 50% to 70% by weight of the aqueous dispersion of the vinyl acetate-ethyiene copolymer; 35% to 70% by weight of the filler; 0, 1% to 2% by weight of the colorant for the background color layer; 0,5% to 2,5% b weight of the siiane coupling agent; 0.4% to 1% by weight of the thickener; 0.2%) to 0.6%) by weight of the dispersing agent; 0.2% to 0.6% by weight of the defoamer; 0.1% to 0.3% by weight of the pH adjuster; 0% to 1% by weight of the coalescing agent 0% to 1 % by weight of the organic solvent; 0.1% to 0.3% by weight of the bactericide; and 0.1% to 0.3% by weight of the fungicide.

[0078] To form the background color layer of the stone-like topcoat system, the fourth coating composition is applied at an adequate wet film thickness, which can vary in a wide range and can be readily selected by a person skilled in the art. For example, the wet film thickness of the background color layer formed of the fourth coating composition may be from about 30 to about 120 μηι.

[0079] Adhesive Primer Coat

[0080] In the multilayered laminate, the adhesive primer coat is applied on the stonelike topcoat system and is formed of a second coating composition including an aqueous polymer dispersion selected from the aqueous dispersions of acrylics, organic silicones, and vinyl acetates. The adhesive primer coat in the multilayered laminate has an adhesive strength of 0.7 MPa or more as measured by adhesive strength measurement method GB/T 9779-2005.

[0081] In the adhesive primer coat, the aqueous polymer dispersion can serve as a binder to provide adhesion to a target substrate such as an architectural material. The aqueous polymer dispersion may be selected from aqueous dispersions of acrylics, organic silicones, vinyl acetates, or the like. In some embodiments, an aqueous dispersion of a vinyl acetate-ethylene copolymer can be used, and the adhesive primer coat this includes the aqueous dispersion of a vinyl acetate-ethylene copolymer as a binder to provide adhesion to a target substrate such as architectural materials. As described above, the aqueous dispersion of vinyl acetate-ethylene copolymer may be a dispersion of vinyl acetate-ethylene copolymer particles in an aqueous medium with the aid of, if necessary, an emulsifier and/or a dispersion stabilizer. Additional co- monomers can be also used, if appropriate, in preparing the aqueous dispersion of vinyl acetate-ethylene copolymer.

[0082] Preferably, the amount of the aqueous polymer dispersion included in the second coating composition is about 40% to 85%, preferably about 60% to 80%, by weight relative to the total amount of the second coating composition. Also, if additional water is further added in formulating the second coating composition, then the amount of additional water together with, the water previously present in the aqueous polymer dispersion shall account for the total amount of the aqueous polymer dispersion.

[0083] As described above, the aqueous dispersion of a vinyl acetate-ethylene copolymer used for the second coating composition may be prepared by any suitable emulsion polymerization process, or may be purchased commercially . As a non-limiting example of a commercially avai lable aqueous polymer dispersions, the aqueous dispersion of a vinyl acetate-ethylene copolymer available under the trade designation Vinnapas 402 from Wacker Chemie AG, Germany, or Celvolit .1602 or 1608 from Celanese Corporation, USA may be used. [0084] The second coaling composition may further include one or more fillers. As used herein, the term "filler" is intended to refer to any coating volume extender, either organic or inorganic, in the form of e.g., particles or powders. There is no particular limitation on the shape of particles, and the filler may have any suitable shape. The particle size of the filler may vary over a broad range, e.g., from about 10 nanometers to about 50 micrometers. In addition to functions as a coating volume extender, in some embodiments the fillers may impart one or more desired properties to the composition and/or coating resulting from the composition. For example, some fillers may impart color to the composition and hence the coating resulting from the composition, and in this case such fillers may be also referred to as a "pigment." Some fillers may improve chemical and/or physical properties, in particular mechanical properties of the coating resulting from the composition, and in this case they may also be referred to as an "enforcing additive."

[0085] Suitable illustrative additional fillers include kaolin, titanium oxide, calcium carbonate, talc, barium sulfate, magnesium aluminum silicate, silica, or any

combination thereof. In one embodiment, the additional filler may include titanium oxide, kaolin, calcium carbonate, or any combination thereof. The total amount of filler used may vary over a broad range, for example, from about 10% to about 58% by weight, or about 33% to about 58 % b weight relative to the total amount of the second coating composition.

[0086] The second coating composition may further include a siiane coupling agent to, for example, enhance the mechanical strength of the coating. An example of the si iane coupling agent is WD60 commercially available from Wuda Organosilicon, Hubei, A suitable amount of the siiane coupling agent may be from about 0.5% to 2.5% by weight relative to the total amount of the second coating composition.

[0087] The second coating composition may optionally include additional additives for the similar reasons as the first coating composition. In various embodiments, the second coating composition may include a thickener, a dispersing agent, a defoamer, a pH adjuster, an organic solvent such as an alcohol, a coalescing agent, a bactericide, a fungicide, or any combination thereof. The suitable amount of each of the additives can be readily determined by a person skilled in the art. In some embodiments, the total amount of additives used may be about 0.1% to 10%, or about 4.5% to about 10% by weight, relative to the total amount of the second coating composition. [0088] In an embodiment, the second coating composition may include, based on the total weight of the second coating composition, 45% to 85% by weigh t of the aqueous polymer dispersion; 10% to 58 % by weight of the filler; 0.5%) to 2.5%) by weight of the silane coupling agent; and 0.1 % to 10% by weight of additional additives including a thickener, a dispersing agent, a defoamer, a pH adjuster, an organic solvent, a coalescing agent, a bactericide, a fungicide, or any combination thereof.

[0089 ] in one embodiment, the second coating composition may include, based on the total weight of the second coating composition, 45% to 85% by weight of the aqueous dispersion of a vinyl acetate-ethylene copolymer; 10% to 58% by weight of the filler; 0.5% to 2.5% by weight of the silane coupling agent; and 0.1% to 10% by weight of additional additives selected from a thickener, a dispersing agent, a defoamer, a pH adjuster, an organic solvent, a coalescing agent, a bactericide, a fungicide, or any combination thereof.

[0090] In another non-limiting embodiment, the second coating composition may include, based on the total weight of the second coating composition, 60% to 80% by weight of the aqueous dispersion of a vinyl acetate-ethylene copolymer, 33% to 58%) by weight of the filler, 0.5% to 2.5% by weight of the silane coupling agent, 0.4% to 1% by weight of the thickener, 0.2% to 0.6% by weight of the dispersing agent, 0.2%) to 0.6% by weight of the defoamer, 0.1% to 0.3% by weight of the pH adjuster, 0% to 1% by weight of the coalescing agent, 0% to 1% by weight of the organic solvent, 0.1% to 0.3% by weight of the bactericide, and 0.1% to 0.3% by weight of the fungicide.

[0091] Each of the coating compositions as disclosed herein can be prepared by any suitable compounding process known to a person skilled in the art. For example, the coating compositions can be prepared by feeding all the ingredients into a vessel, then agitating the mixture until homogeneous. Alternatively, the coating compositions can be prepared by feeding and mixing a part of the ingredients, then feeding the other ingredients and agitating until homogeneous.

[0092] In a second aspect, the present disclosure provides a process for the preparation of multilayered laminate, including: (i) providing a support substrate having at least one releasable major surface; (if) applying a first coating composition on the releasable major surface of the support substrate to form a transparent overcoat, wherein the first coating composition includes an aqueous polymer dispersion having a particle size in the range of 30 to 400 nm; (iii) by a wet on dry application process, forming a multicolored spot layer and a background color layer in turn on the transparent overcoat, thereby forming a stone-like topcoat system; (iv) by a wet on dry application process, applying a second coating composition on the stone-like topcoat system to form an adhesive primer coat, wherein the second coating composition includes an aqueous polymer dispersion selected from aqueous dispersions of acrylics, organic silicones, and vinyl acetates, thereby obtaining the multiiayered laminate, and wherein the transparent overcoat in the multiiayered laminate, having been released from the support substrate, achieves a gloss of at least 85% at 60°.

[0093] In the process as disclosed herein, each of the coating compositions can be applied by any conventional application process known to a person skilled in the art. The coating compositions may be applied by dip, spin, spray, curtain, brush, or roller coating, or any other suitable application process. In some embodiments, a wet on dry- application process is used. Conveniently, the aqueous liquid medium including water and any co-solvent can be removed by drying in the ambient conditions or under heating, whereby the coating and/or coating system is formed.

[0094J in a third aspect, the present disclosure provides a process for coating a target substrate, including: (i) attaching the multiiayered laminate according to the present invention via the adhesive primer coat to the surface of the target substrate; and (ii) releasing the support substrate from the multiiayered laminate, thereby obtaining a gloss of at least 85% at 60°.

[0095] in one embodiment, the target substrate includes architectural materials or wood-based substrates, in particular, the architectural materials may include concrete, plaster board, lime-sand brick, aerated concrete, lightweight and multilayer plate, fiber cement board or any combination thereof. The wood-based substrates include natural wood substrates, synthetic wood-based substrates, or any combination thereof

[0096] According to the process for coating a target substrate as disclosed herein, the multiiayered laminate can be attached to the target substrate by any suitable method. In an embodiment, the multiiayered laminate is attached to the target substrate by mechanically laminating. The multiiayered laminate which is in the form of coil can be laminated with the target substrate by an in-line laminating process. To promote adhesion of the multiiayered laminate to the target substrate, one can take any suitable measure kno wn in the art to treat the surface of the target substrate, such as cleaning, sanding, or the like. To further promote adhesion of the multiiayered laminate to the target substrate, one can also apply any chemical adhesive known in the art to adhere the multiiayered laminate to the target substrate. In one embodiment, the adhesive primer coat of the multilayered laminate itself can provide the sufficient adhesive strength to securely adhere the multilayered laminate to the target substrate. To protect the adhesive primer coat from being contaminated, a protective film can be applied on the primer coat, in some embodiments, the strengt of adhesion of the protecti ve film to the primer coat can prevents the premature release of the protective film from the primer coat during transportation and storage, but the release strength of the protective film from the primer coat is not excessive.

[0097] The present disclosure is more particularly described in the following examples that are intended as illustrations only. Unless otherwise noted, all parts, percentages, and ratios reported in the following examples are on a weight basis.

1 098! EXAMPLES

[0099] Measurement Method

[0100] The adhesive strength is measured according to GB/T 9779-2005.

[0101] Gloss is measured according to GB/T 1743-1989.

[0102] Exam l 1. Transparent Overcoat

[0103] The ingredients and amounts thereof used for formulating the first coating composition to form the transparent overcoat are shown in Table 1 below.

Table 1

[0104] The first coating composition to be used for forming the transparent overcoat was prepared as follows. The ingredients including RS-936W, HEC 250HBR, TT-935, P30, L 1513, Amp-95, CMIT/MIT; BIT, DCOIT, lauryi alcohol ester, propylene glycol, and deionized water were fed into an agitated vessel in order in an amount as respectively specified in Table 1, and agitated until homogeneous.

[01 S] Stone-like Topcoat System

[0106] Example 2. Multicolored Spot Layer

[ 0107] The ingredients and amounts thereof used for formulating the third coating composition to form the multicolored spot layer are shown in Table 2 below. Table 2

[01081 The third coating composition to be used for forming the multicolored spot layer was prepared as follows. The ingredients including the aqueous latex 2709, the color concentrate particles, HEC 250HBR, TT-935, P30, L1513, Amp-95, CM1T/MIT; BIT, DCOIT, lauryi alcohol ester, propylene glycol, and deionized water were fed into an agitated vessel in order in an amount as respectively specified in Table 2, and agitated until homogeneous.

[0109] Production of Color Concentrate Particles Protected by Hydrophilic Clay Colloid

[01101 4 to 8 parts by mass of the protective hydrophilic clay GTS available from Wangge Company, Shanghai, were mixed into 45 to 58 parts by mass of deionized water to form colloid. The ingredients as specified in Table 3 below were mixed in a separate vessel to form the colored latex paint. Then 45 to 58 parts by mass of the colored latex paint were mixed into the thus-formed colloid. The thus-formed mixture was palletized through a perforated plate, thereby forming the color concentrate particles protected by hydrophilic clay colloid.

Table 3

[0112] The mgredients and amounts thereof used for formulating the fourth coating composition to form the background color layer 1 are shown in Table 4 below. Table 4

[0113] The fourth coating composition to be used for forming the background color layer 1 was prepared as follows. The ingredients including 706T, Marble powder, HEC 250HBR, TT-935, P30, L1513, Amp-95, CMIT/MIT; BIT, DCOIT, lauryl alcohol ester, propylene glycol, and deionized water were fed into an agitated vessel in order in an amount as respectively specified in Table 4, and agitated until homogeneous.

[0114] Example 4. Background Color Layer 2

[0115] The ingredients and amounts thereof used for formulating the fourth coating composition to form the background color layer 2 are shown in Table 5 below. Table 5

[0116] The fourth coating composition to be used for forming the background color layer 2 was prepared as follows. The ingredients including Celvoiit 1608, R-706, Gf- 117, Br-95, WD6G, HEC 250HBR, TT-935, P30, L1513, Amp-95, CMIT/MIT; BIT, DCOIT, lauryl alcohol ester, propylene glycol, color concentrate, and deionized water were fed into an agitated vessel in order in an amount as respectively specified in Table 5, and agitated until homogeneous.

[0117] Example 5. Adhesive Primer Coat [0118] The ingredients and amounts thereof used for formulating the second coating composition to form the adhesive primer coat are shown in Table 6 below.

Table 6

[0119] The second coating composition to be used for forming the adhesive primer coat was prepared as follows. The ingredients including Celvoiit 1608, R-706, Gf-117, Br- 95, WD60, HEC 250HBR, TT-935, P30, 1,1513, Amp-95, CMIT/MIT; BIT, DCOIT, iauryl alcohol ester, propylene glycol, and deionized water were fed into an agitated vessel in order in an amount as respectively specified in Table 6, and agitated until homogeneous. [0120] Example 6. Muitilayered Laminate

[01211 The first coating composition as prepared in Example 1 was sprayed onto a piece of PET film (about 60-120 cmX about 60 to 120 cm) with a wet film thickness in the range of 30 to 150 itm to form the transparent overcoat. After drying for 2 hours in ambient conditions to surface dry the transparent overcoat, the third coating

composition as prepared in Example 2 was sprayed onto the transparent overcoat with a wet film thickness in the range of 30 to 1 0 μη to form the multicolored spot layer. Then after drying in ambient conditions to surface dry the multicolored spot layer, the fourth coating composition as prepared in Example 3 or 4 was sprayed onto the multicolored spot layer with a wet film thickness in the range of 30 to 120 μ,ηι to form the background color layer. After drying in the ambient conditions to surface dry the background color layer, the second coating composition as prepared in example 5 was sprayed onto the background color layer with a wet film thickness in the range of 30 to 120 μτη to form the adhesive primer coat. The multiiavered laminate was obtained after drying in the ambient conditions for further 24 hours.

[0122] In the thus obtained muitilayered laminate, the adhesive primer coat had an adhesive strength of 0.8 MPa as measured by adhesive strength measurement method of GB/T 9779-2005 by using an article formed by mixing silicate cement, sands, and water in a ratio of 1 : 1 : 0.5 in weight as a test substrate. Moreover, the transparent overcoat having been released from the PET film substrate, showed a gloss of at least 86% at 60° as measured according to GB/T 1743-1989.

[0123] Additionally, the muitilayered laminate as obtained above with the background color layer 2 was attached to the target substrate made of a fiber cement board, and it was visually observed that the coating system obtained after removing the PET film from the muitilayered laminate exhibited a real marble-like effect, as shown in FIG. 1.

[0124] Thus, the muitilayered laminate according to the present disclosure achieved the real stone-like effect and also had high gloss.

[0125] While the invention has been described with respect to a number of

embodiments and examples, those skilled in the art, having benefit of this disclosure, will appreciate that other embodiments can be devised which do not depart from the scope and spirit of the invention as disclosed herein.