WO2006023064A1

WO2006023064A1 - Exterior paint formulation

Info

Publication number: WO2006023064A1
Application number: PCT/US2005/022676
Authority: WO
Inventors: Ming-Ren Tarng; Mark Minamyer; Anh Pham; Stan Brownell; Annie Pham; Anil Alexander; Deven Shah; Kim L. Nguyen; My Linh Pham; Sidney Maxey
Original assignee: Behr Process Corporation
Priority date: 2004-08-09
Filing date: 2005-06-28
Publication date: 2006-03-02
Also published as: US20060030656A1; CA2729422C; AU2005277927B2; EP2292702A1; ATE509074T1; TW200615346A; CN101309982A; EP1776425B1; EP1776425A1; CN101309982B; EP2292702B1; CA2576746A1; US8236885B2; MX2007001380A; US7642309B2; CA2729422A1; AU2005277927A1; CA2576746C; US20100137495A1; TWI333971B

Abstract

The present invention provides increased stain resistance, tannin blocking, adhesion, and various other properties. A composition in accordance with the principles of the present invention comprises at least two binders, nanoparticle pigment, and pigmentary titanium dioxide. In one embodiment, the present invention relates to a coating on a substrate wherein the coating has two binders, nanoparticle metal oxide pigment, and pigmentary titanium dioxide. Various additives may be included to formulate paint as known in the art.

Description

EXTERIORPAINT FORMULATION

FIELD OF THE INVENTION

[0001] The present invention relates to polymer resins. More particularly, the present invention relates to paints having a nanoparticle based pigment and a plurality of binders.

BACKGROUND OF THE INVENTION

[0002] Traditionally consumers have had to choose between the superior durability offered by latex paints and the superior hiding properties of oil-based paint. Conventional latex or emulsion paints require an underlying primer coat prior to their application to provide an adequate level of blocking and to prevent bleed-through, such as of tannins. In addition, many conventional latex paints require a primer coat to provide adequate adhesion and durability for specific applications. Often, even when a primer is applied, multiple coats of the prior art paints are required to prevent an alteration of color due to the presence of the primer or bleed through of dyes and pigments from the underlying substrate, hi fact, multiple applications of prior art paint will not prevent bleed-through on substrates such as cedar since the dyes and pigments, such as tannins contained in the substrates, are often water soluble and diffuse through each layer of the latex paint. [0003] Paint typically contains four essential ingredients, namely pigment, binder, liquid and additives. Any or all of these ingredients may be a single component or may comprise multiple items. Pigment provides color to paint and also makes paint opaque, and pigment is usually of mineral or organic origin although some pigments are artificially produced. Some pigments possess little or no bulk and must be fixed on a more solid, but at the same time transparent, substance or base. "Prime" pigments provide color and opacity (opaque coverage). The most common prime pigment is titanium dioxide, which is white and is used in latex and oil-based paints.

[0004] Traditionally, pigments have also added hiding properties to paint. Specialty or extender pigments may also be used and provide bulk to the paint at a low cost. The extender pigments are often chosen for their impact on properties like scrub resistance, stain resistance and chalk resistance. Alum or clay are frequently used for this purpose. These pigments are added to the paint to provide certain characteristics such as thickness, a certain level of gloss and durability. They are usually naturally occurring products which originally were in the earth and were mined and purified for use in paint. Such pigments as calcium carbonate, talc and clay are, for example, used extensively in paints.

[0005] The binder holds the pigment and also adheres it to a surface, and a binder composition may have more than one component. In latex paint, the latex resin is the binder. Most commonly in latex paint, the binder is 100% acrylic, vinyl acrylic (polyvinyl acetate), or styreneated acrylic. The pigment particles are insoluble and merely form a suspension in the i binder. The binder "binds" the pigment into a tough, continuous film and as noted above helps the paint adhere to the surface. In addition, it has been found previously that the use of 100% acrylic binder provides for maximum adhesion when wet and also provides for resistance to blistering and peeling, resistance to mildew and dirt, and alkali resistance for paint applied over fresh masonry.

[0006] Liquids carry the pigment and binders, and this liquid is the part of the paint or coatings product which evaporates. The role of the fluid is to keep the paint in a fluid form for ease of application. Once applied to the surface it evaporates leaving a uniform film which then dries to form a protective coating. The liquid used is primarily determined by the solubility of the binder. In oil-based and alkyd paints, the liquid is typically a paint thinner, and in latex paints, the liquid is typically water. Traditionally, top quality paints have less liquid and more solids (i.e. pigment & binders) as measured by percent solid.

[0007] Additives are ingredients used at low levels to provide key properties, such as but not limited to: mildew resistance, better flow and leveling, and splatter resistance. Common additives used in conventional paint formulations include rheology modifiers, surfactants, defoamers, coalescents, and biocides. Other numerous additives are well-known in the art and may be utilized as required to formulate a paint having the desired properties. [0008] Various techniques are known in the art for producing paints having various types of sheens, i.e. "shine" or gloss. For example, by incrementally increasing pigment levels and/or by using larger pigment particles, various gloss levels can be achieved including, but not limited to flat, satin, and semi-gloss. Pigment volume concentration (PVC) is often associated with the paint finish, although various finishes may have overlapping ranges of PVC. PVC is the unit volume of pigments as a percentage of the volume of pigments plus the volume of the binder. PVC represents the relationship between durability of the coating and the amount of pigment. [0009] Thus, there is a need for a paint composition and method of making the same to replace the traditional role of a primer and topcoat system and which is capable of providing a coating having improved properties such as, tannin blocking, hiding power, stain removal, and corrosion resistance.

SUMMARY OF THE INVENTION

[0010] The present invention relates generally to a binder composition and a paint system with superior tannin blocking, stain removal, corrosion resistance, adhesion, and various other improved properties. The present invention preferably includes a two binder system with an inorganic nano-particle pigment and with a pigmentary titanium dioxide. In one embodiment, a paint composition in accordance with the principles of the present invention further includes additives for formulating paint. In another embodiment, the present invention relates to a coating on a substrate that provides improved coverage through the use of at least two binders, an inorganic nano-particle pigment and a pigmentary titanium dioxide.

BRIEF DESCRIPTION OF THE DRAWINGS

[0011] FIG. 1 depicts a multi-axis property graph of the test results of paint of the present invention having a satin sheen and white base, as compared to commercially available exterior satin in a white base;

[0012] FIG. 2 depicts a multi-axis property graph of the test results of flat white base paint in accordance with the principles of the present invention, as compared to a commercially available exterior flat paint in a white base;

[0013] FIG. 3 illustrates a multi-axis property graph of the test results for semi-gloss white base paint of the present invention versus a commercially- available, exterior semi-gloss paint in a white base; [0014] FIG. 4 illustrates a multi-axis property graph for a flat white base paint of the present invention versus a second commercially available exterior flat paint in a white base; and [0015] FIG. 5 illustrates a multi-axis property graph for a satin white base paint of the present invention versus a second commercially-available, exterior satin paint in a white base.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS

[0016] The present invention is directed in part to a polymer composition within a paint system which replaces the traditional role of a primer and a topcoat with improved properties such as tannin blocking, stain removal, adhesion, and corrosion resistance, hi one embodiment, the present invention relates to a composition having a first binder, a second binder, inorganic nanoparticle pigments, and in some cases a third binder. This composition can be used in a conventional paint formulation as known in the art.

[0017] Binders for use in the present invention include those prepared by conventionally known methods. Suitable binders include, but are not limited to, 100% acrylic resins and styreneated, acrylic resins as manufactured. Preferably, the first binder is a 100% acrylic resin designed to be used as a primer vehicle, and the second binder is a 100% acrylic resin designed ■ to be used in top coating applications.

[0018] Pigments for use in the present invention may comprise any suitable pigments known in the art. In one embodiment, the pigments of the present invention are titanium oxide or zinc oxide but other suitable pigments include nepheline syenite, bentonite, and calcium carbonate. Preferably, the primary pigment is titanium dioxide, such as commercially available pigments. [0019] Metal oxide nanoparticle materials for use in a preferred embodiment of the invention have an average particle size of about 20-150 nanometers, although some embodiments can employ average sizes outside this range. In one preferred embodiment, the nanoparticle material is a zinc oxide material having an average particle size of about 60 nm. [0020] A paint can be prepared in accordance with the principles of the present invention according to a number of known manufacturing methods. Generally, such methods involve the preparation of a binder or a multiple binder system, mixing of the additional ingredients, dispersing of the pigments, and adjusting the density and viscosity to desired levels. A variety of additives and diluents which are well known in the art can be mixed with the binders of the present invention to achieve certain properties in the paint or the coating. The additives may include, but are not limited to, surfactants, defoamers, rheology modifiers, coalescents, biocides, mildewcides, surfactants, and other additives well known in the art.

[0021] In one embodiment, a paint in accordance with the principles of the present invention is manufactured to a VOC (Volatile Organic Compounds) of 150 gr/L, including a 37% solid by volume, a 51 % solid by weight, a 34 PVC, and a 1.5 pigment/binder ratio. [0022] The PVC of paint in accordance with the principles of a preferred form of the present invention may vary between 4-55 by weight. In one embodiment of the present invention the paint is a "semi-gloss paint", which has a relatively low PVC. In another embodiment of the present invention, the paint is a "satin paint", which has a relatively high PVC. In another embodiment of the present invention, the paint is a "flat paint", which has a relatively high PVC compared to satin paint.

[0023] Table 1 lists the general ranges of the main ingredients of a paint in accordance with the principles of a preferred embodiment. The total amount of polymer (i.e., binder) is preferably between about 30-60 gallons per 100 gallons. The total amount of pigment, excluding the TiO₂, is preferably between about 15 and about 150 pounds per 100 gallons. The TiO₂ content is preferably between 0 pounds per gallon and about 360 pounds per 100 gallons. The preservatives comprise between about 5 and about 8 pounds per 100 gallons. Additional additives comprise approximately 50 and approximately 200 pounds per 100' gallons. Water comprises between about 50 and about 200 pounds per 100 gallons. The paint further includes additional solvent, aside from the water content of between about 30 and about 45 pounds per 100 gallons.

Table 1 - Ingredients Range

Category Pounds/100 Gallons

Minimum Maximum

Additive 50.00 200.00

Polymer (resin) 450.00 635.00

Pigment 15.00 150.0

Titanium Dioxide 0.00 360.00

Preservative 5.0 8.0

Water 50.00 200.00

Solvent 0.00 45.00

Total 600 1598

Minimum Maximum

Volume % Solids 25 40

Weight % Solids 30 55

PVC 4 55

[0024] The preferred formulation process consists of two conventional steps: the grind and the letdown. During the grind, the solvent (water), dispersant, defoamer, zinc oxide, ethylene glycol, amino alcohol, nepheline syenite, attapulgite clay are mixed together. During the letdown, the binder, the mildewcide, the rheology modifier, and the biocide, are added to the grind product. [0025] The following non-limiting examples illustrate main components of the paint formulations and the paint formulations themselves. Table 2 provides the material ranges for the components of the paint formulations of Examples 1-4.

Table 2 - Raw Material Ranges

Example 1 - Semi-Gloss Finish

[0026] Example 1 was formulated using the basic components of Table 2, with the following specific components: Table 3

Example 2 - Satin Finish

[0027] Example 2 was formulated using the basic components of Table 2, with the following specific components: Table 4

Example 3 - Flat Finish

[0028] Example 3 was formulated using the basic components of Table 2, with the following specific components: Table 5

Example 4 - Flat Finish

[0029] Example 4 was formulated using the basic components of Table 2, with the following specific components: Table 6

Adhesion Tests

[0030] Various adhesion tests were performed to determine the adhesion properties of a paint in accordance with the principles of the present invention on different substances. The results of the tests compare a paint of the present invention to a typical, commercially-available paint and primer system sold for exterior use, and these tests are presented in Table 7.

Table 7 - Adhesion Test Results Rated by ASTM D3359

*The control Acrylic Exterior Primer and Control Acrylic Exterior Topcoat tested were at least comparable to those readily available on the commercial market. [0031] In addition, a battery of tests were performed to evaluate the overall performance of a paint in accordance with the principles of the present invention at various sheens as compared to paints currently available in the marketplace. As shown in the results in Tables 8 and 9, the paint prepared in accordance with the principles of the present invention outperformed all of the other paints in the respective category.

Table 8 - Flat Sheen Benchmarking Composite Scores

**The Commercial Acrylic Flat paint tested was at least comparable to those readily available on the commercial market.

[0032] As seen in Table 9, the satin sheen of the present invention exhibits improved leveling, roller foam, contrast, and dry adhesion.

Table 9- Satin Sheen Benchmarking Composite Scores

***The Commercial Acrylic Satin Exterior and Commercial Silicone Acrylic Exterior Satin tested were at least comparable to those readily available on the commercial market.

[0033] As illustrated in FIGS. 1, 2, 3, 4, and 5, paint prepared in accordance with the principles of the present invention exhibits improvements in adhesion, tannin blocking, stain removal, hiding power, and corrosion resistance. FIG. 1 depicts a multi-axis property graph of the test results of paint of the present invention having a satin sheen and white base, as compared to commercially-available, exterior satin in a white base. Adhesion, yellowing, stain removal, hiding power, scrub resistance, corrosion, and tannin blocking were measured. FIG. 2 depicts a multi-axis property graph of the test results of flat white base paint in accordance with the principles of the present invention, as compared to a commercially available exterior flat paint in a white base. FIG. 3 illustrates a multi-axis property graph of the test results for semi-gloss white base paint of the present invention versus a commercially available exterior semi-gloss paint in a white base. All properties were improved in formulations in accordance with the principles of the present invention with the exception of scrub resistance and yellowing, which showed a reduction. FIG. 4 illustrates a multi-axis property graph for a flat white base paint of the present invention versus a second commercially-available, exterior flat paint in a white base. AU properties were improved in formulations in accordance with the principles of the present invention. FIG. 5 illustrates a multi-axis property graph for a satin white base paint of the present invention verses a second commercially-available, exterior satin paint in a white base. AU properties were improved in formulations in accordance with the principles of the present invention.

[0034] While several embodiments have been shown and described in this application, it is understood that changes and modifications can be made to the invention without departing from the invention's broader aspects.

Claims

WHAT IS CLAIMED IS:

1. A paint composition comprising: a first acrylic primer binder of about 450 pounds per 100 gallons to about 630 pounds per 100 gallons; a second acrylic topcoat binder of about 50 pounds per 100 gallons to about 95 pounds per 100 gallons; and a nanoparticle-sized metal oxide pigment of about 2 pounds per 100 gallons to about 20 pounds per 100 gallons, wherein the paint composition has a PVC of about 4 to about 55 and a pigment binder ratio of about 0.10 to about 3.0.

2. The composition of claim 1, wherein the nanoparticle metal oxide pigment comprises zinc oxide.

3. The composition of claim 1, wherein the nanoparticle metal oxide pigment comprises particles having an average particle size of less than about 100 nanometers.

4. The composition of claim 3, wherein the nanoparticle metal oxide pigment comprises particles having an average particle size of between about 30 nanometers and about 65 nanometers.

5. The composition of claim 1, wherein the first acrylic primer binder consists essentially of acrylic.

6. The composition of claim 1, wherein the second acrylic topcoat binder consists essentially of acrylic.

7. The composition of claim 1, wherein the first acrylic primer binder comprises self- crosslinking polymer.

8. The composition of claim 1, wherein the first acrylic binder comprises a 100% acrylic binder intended for use as a primer vehicle.

9. The composition of claim 1, wherein the ratio of the first primer binder to the second topcoat binder is about 80:20.

10. The composition of claim 1 further comprising a third binder.

11. The composition of claim 1 , wherein the ratio of the first binder to the second binder is about 80:20.

12. A process for producing a paint composition comprising the steps of: dispersing a pigmentary-sized pigment in a solvent to form a dispersion; mixing the dispersion with grind additives; adding a first acrylic primer binder and a second topcoat acrylic binder to the dispersion; and adding letdown additives to the dispersion, wherein the resulting composition includes a PVC of about 4 to about 55 and a percentage of solid by weight of between about 30 and about 55.

13. The process of claim 12, wherein the nanoparticle metal oxide pigment comprises zinc oxide.

14. The process of claim 12, wherein the nanoparticle metal oxide pigment comprises particles having an average particle size of less than 100 nanometers.

15. The process of claim 12, wherein the nanoparticle metal oxide pigment comprises particles having an average particle size of between about 30 nanometers and about 65 nanometers.

16. The process of claim 12, wherein the step of adding the first acrylic primer binder includes adding a 100% acrylic binder.

17. The composition of claim 10, wherein the step of adding the second topcoat acrylic binder includes adding a 100% acrylic binder.

18. The composition of claim 10, wherein the first acrylic primer binder comprises a self- crosslmking polymer.

19. The composition of claim 10, wherein the first acrylic binder comprises a 100% acrylic binder.

20. The composition of claim 1, wherein the ratio of the first binder to the second binder is about 80:20.

21. A coated substrate comprising: a substrate; and a coating on the substrate having: a first binder and a second binder; a pigmentary-sized pigment; and a nanoparticle-sized pigment.

22. The coated substrate of claim 21, wherein the nanoparticle metal oxide pigment comprises zinc oxide.

23. The coated substrate of claim 21, wherein the nanoparticle metal oxide pigment comprises particles having an average particle size of less than 100 nanometers.

24. The coated substrate of claim 21 , wherein the nanoparticle metal oxide pigment comprises particles having an average particle size of between about 30 nanometers and about 65 nanometers.

25. The coated substrate of claim 21 , wherein the first acrylic primer binder is 100% acrylic.

26. The coated substrate of claim 21, wherein the second acrylic topcoat binder is 100% acrylic.

27. The coated substrate of claim 21, wherein the first acrylic binder comprises a self- crosslinking polymer.

28. The coated substrate of claim 21, wherein the first acrylic binder comprises a 100% acrylic binder intended for use as a primer vehicle.

29. The coated substrate of claim 21, wherein the ratio of the first binder to the second binder is about 80:20.

30. The coated substrate of claim 21 further comprising a third binder.

31. A paint comprising: a first binder comprised of 100% acrylic primer binder; a second binder; and a nanoscale metal oxide.

32. The paint of claim 31, wherein the nanoscale metal oxide pigment comprises zinc oxide.

33. The paint of claim 31 , wherein the nanoscale metal oxide pigment comprises particles having an average particle size of less than 100 nanometers.

34. The paint of claim 33, wherein the nanoparticle metal oxide pigment comprises particles having an average particle size of between about 30 nanometers and about 65 nanometers.

35. The paint of claim 29, wherein at least one of the first acrylic binder and second acrylic binder is 100% acrylic.

36. The paint of claim 29, wherein the first acrylic binder comprises a self-crosslinking polymer.

37. The paint of claim 29, wherein the ratio of the first binder to the second binder is about 80:20.