SE530420C2 - A waterborne binder composition and its use - Google Patents

Description

According to the present invention, it has quite unexpectedly become possible to produce a waterborne binder composition comprising a water-dispersible polymeric binder 0011 a coalescing agent comprising glyceryl thiesters. The triesters of the coalescing agent are selected from a group consisting of tripropionin (triester of glycerol and propionic acid), tributyrin (triester of glycerol and butyric acid), tri-isobutyrin (triester of glycerol and isobutyric acid) or trivalerine (triester of glycerol and valeric acid) or combinations fl era of these. In addition to being well compatible with mixtures containing typical waterborne polymer dispersions, the triesters of the present invention improve formation properties, making them excellent as coalescing agents in waterborne paint, adhesives and sealants. As mentioned previously, the coalescing agent of the present invention is a triester unlike other ester-based coalescing agents used in waterborne binder formulations which are usually monoesters or diesters, e.g. dicarboxylic acids esterified with alcohols or diols esterified with acids.

Experiments show that the triesters of the invention are compatible with many different polymer dispersions and that they effectively lower MFFT in aqueous polymer dispersions.

The dispersion concept of the invention includes emulsions, since the fi nition of an emulsion is a dispersion of droplets of one liquid in another liquid. In addition to the aforementioned high reduction effect of MFFT, good storage stability and good dryness with polymer dispersions, the triesters in the present invention have minimal EHS effects. Despite their storage stability, the triestrams are biodegradable, ie. they cause minimal environmental or health problems. The triesters of the present invention are not classified as SOIII VOC compounds in Europe due to their high boiling point. The combination of high boiling point and high efficiency is very unusual for a coalescing agent. When used as a coalescing agent in a waterborne binder composition, the slight emollient property of the present invention tester enables the formation of a hard film with an acceptable rate of hardness development. The triestrams of the present invention are well known compounds which are commercially available, but which have never before been intended as a coalescing agent.

The coalescing agent of this invention consists of 75-100%, preferably 90-100% by weight of one or three triesters of glycerol and an acid selected from the group consisting of propionic acid, butyric acid, isobutyric acid and valeric acid. The remaining part of the coalescing agent consists of the corresponding monoesters and diesters of glycerol and the above acids. The coalescing agent of the present invention may comprise one or more known coalescing agents in addition to the triester or triesters. The known coalescing agent or agents may constitute 1-50% by weight of the total coalescing agent, preferably 1-25%. The coalescing agent constitutes 1-30% by weight of the solid polymeric material, preferably 2-20% or 2-10%.

The binder in the paint, adhesive or sealant composition of the present invention is a homo- or copolymer comprising monomer units of acrylate, methacrylate, vinyl acetate and / or units of urethane or urethane / urea. Typical binder polymers are styrene-acrylate copolymers, acrylate-methacrylate copolymers, copolymers of vinyl acetate and acrylate or methacrylate, vinyl acetate homopolymers, vinyl-displaced homopolymers and copolymers of ethylene and vinyl acetate or vinyl-versated. Thus, the same basic types of aqueous polymers can be used in aqueous paint formulations, adhesives and sealants.

In addition to the water-dispersible polymeric binder and coalescing agent, a paint composition may contain pigments, fillers and relevant additives, such as defoamers,. pigmented wetting additives and leveling aids.

The invention is further illustrated in the embodiments below. The examples are to be considered as illustrative and not restrictive in any way.

Examples 1, 2 and 3 illustrate the effect of tripropionine as a coalescing agent in a dispersion of an acrylate homopolymer. Example 4 illustrates the effect of tributyrin as a coalescing agent in a dispersion of the same kind. Example 5 illustrates an iron test which shows the effect of a commercial coalescing agent in the corresponding dispersion.

Examples 6 and 7 illustrate the effect of tripropionine as a coalescing agent in a dispersion of a styrene-acrylate copolymer. Example 8 illustrates a comparative experiment showing the effect of a commercial coalescing agent in the corresponding dispersion.

Examples 9, 10 and 11 illustrate the effect of tripropionine as a coalescing agent in a dispersion of a styrene-acrylate copolymer. Example 12 illustrates the effect of tributyrin as a coalescing agent in a dispersion of the same kind. Example 13 illustrates an ironing test showing the effect of a commercial coalescing agent in the corresponding dispersion. Examples 14 and 15 illustrate the effect of tripropionine as a coalescing agent in a dispersion of a vinyl acetate / vinyl-translated copolymer. Example 16 illustrates a comparative experiment showing the effect of a commercial coalescing agent in the corresponding dispersion.

Examples 17 and 18 illustrate the effect of tripropionine as a coalescing agent in a dispersion of a styrene-acrylate copolymer. Example 19 illustrates the effect of tributyrin as a coalescing agent in a dispersion of the same kind. Example 20 illustrates a comparative experiment showing the effect of a commercial coalescing agent in the corresponding dispersion.

Examples 21, 22 and 23 illustrate the coalescence ability of tripropionin in a color formulation containing a dispersion of a styrene-acrylate copolymer as a binder. Example 24 illustrates an iron compound test showing the effect of a commercial coalescing agent in the corresponding color formulation. Results are shown in Figure I.

Example 1100 g of a dispersion of an acrylate homopolymer, Finndisp A2002 (Forcit), having a solids polymer content of 45% by weight and an MFFT of 54 ° C were mixed with 4.5 g of tripropionin to give a mixture containing 10% coalescing agent (the addition of coalescing agent is calculated on solid polymeric material). The mixture was stirred with a propeller stirrer for 15 minutes and allowed to stand overnight before testing. MF FT was measured at 19 ° C.

Example 2 The procedure of Example 1 was repeated except that the amount of tripropionin added was 6.75 g (15%). MFF T was measured at 15 ° C.

Example 3 The procedure of Example 1 was repeated except that the amount of tripropionin added was 9.0 g (20%). MFFT was reached at 4 ° C.

Example 4 The procedure of Examples 1, 2 and 3 was repeated except that tributyrin was added to the dispersion of the acrylate homopolymer instead of tripropionin. MFFT was measured at 24 ° C, ° C and 0 ° C, respectively. 530 420 Example 5 The procedure of Examples 1, 2 and 3 was repeated except that a commercial coalescing agent, 2,2,4-trimethylpentanediol monoisobutyrate (NX795), was added instead of tripropionin. MFFT was measured at 25 ° C, 14 ° C and 0 ° C, respectively.

Example 6 - 100 g of a dispersion of a styrene-acrylate copolymer, Finndisp A10 (Forcit), with a solids polymer content of 50% by weight and an MFFT of 18 ° C was mixed with 1.00 g of tripropionin to obtain a mixture containing 2% coalescing agent. The mixture was recharged using a propeller stirrer for 15 minutes and allowed to stand overnight before testing.

MFFT was measured at 9 ° C.

Example 7 The procedure of Example 6 was repeated except that the amount of tripropionin added was 2.50 g (5%). MF F T was measured at 1 ° C.

Example 8 The procedure of Examples 6 and 7 was repeated except that the commercial coalescing agent NX795 was added instead of tripropioriine. MFF T was measured at 8 ° C and 0 ° C, respectively.

Example 9 100 g of a dispersion of a styrene-acrylate copolymer, Pliotec 7104E (Eliokem), with a solids polymer content of 45% by weight and an MFFT of 60 ° C were mixed with 4.50 g of tripropionin to obtain a mixture containing % coalescing agent. The mixture was stirred using a propellerone stirrer for 15 minutes and allowed to stand overnight before testing.

MFFT was measured at 3 l ° C.

Example 10 g The procedure of Example 9 was repeated except that the amount of tripropionin added was 6.75 g (15%). MFFT was measured at 12 ° C. 530 420 Example 11 The procedure of Example 9 was repeated except that the amount of tripropionin added was 9.0 g (20%). MF FT was measured at 0 ° C.

Example 12 The procedure of Examples 9, 10 and 11 was repeated except that tributyrin instead of tripropionine was added to the dispersion of a styrene-acrylate copolymer, MFF T measured at 24 ° C, 12 ° C and 0 ° C, respectively.

Example 13 The procedure of Examples 9, 10 and 11 was repeated except that the commercial coalescing agent NX7 95 was added instead of tripropionin. MFFT was measured at 31 ° C, 17 ° C and 7 ° C, respectively.

Example 14 1 () Og of a dispersion of a vinyl acetate / vinyl versatate copolymer, Rhodopas AV-439 (Rhodia Iberlatex), having a solids polymer content of 55% by weight and an MFFT of 14 ° C was mixed with 1, 10g tripropionin to obtain a mixture containing 2% coalescing agent. The mixture was stirred using a propeller stirrer for 15 minutes and allowed to stand overnight before testing. MFFT was measured at 9 ° C.

Example 15 The procedure of Example 14 was repeated except that the amount of tripropionin added was 2.75 g (5%). MFFT was measured at 3 ° C.

Example 16 The procedure of Examples 14 and 15 was repeated except that the commercial coalescing agent NX795 was added instead of tripropionin. MFFT was measured at 7 ° C and 4 ° C, respectively.

Example 17 100 g of a dispersion of a styrene-acrylate copolymer, Acronal 290 D (BASF), having a solids polymer content of 50% by weight and an MFF T of 20 ° C were mixed with 1.00 g of tripropionin to obtain a mixture containing 2% coalescing agent. The mixture was stirred with a propeller stirrer for 15 minutes and allowed to stand overnight before testing.

MFFT was measured at 13 ° C.

Example 18 The procedure of Example 17 was repeated except that the amount of tripropionin added was 2 suction (m). MFFT is requested: in 3 ° C.

Example 19 The procedure of Examples 17 and 18 was repeated except that tributyrin was added to the dispersion of the styrene-acrylate copolymer instead of tripropionin. MFFT measured S 'at 10 ° C and 4 ° C, respectively.

Example 20 The procedure of Examples 17 and 18 was repeated except that the commercial coalescing agent NX795 was added instead of tripropionin. MFFT was measured at 13 ° C and 5 ° C, respectively.

Example 21 A glossy white color was prepared in a conventional manner to test the function of tripropionin as a coalescing agent in a color formulation. First, 37.23 parts by weight of water, 36.74 parts by weight of propylene glycol, 5.11 parts by weight of a pigment wetting agent, Orotan 1124 (Rohm & Haas) and 3.77 parts by weight of a defoamer, Byk 024 (Byk Chemie) were mixed in a cylindrical grinding vessel equipped with a shredder (powerful mechanical stirrer). with a typical rake mixture blade). The disintegrator was started and 253.65 parts by weight of the pigment, Ti-Pure R900 (DuPont) was added gradually at such a rate that the additives were continuously mixed. When all the pigment was added, the decomposer was run at high speed for about 15 minutes. The mixing speed was then lowered and 620.44 parts by weight of a dispersion of a styrene-acrylate copolymer, Pliotec 7104E (Eliokem) was added gradually, then first 39.78 parts by weight of a thickener, Acrysol R-2020 (Rohm & Haas) and then 3.28 parts by weight of ammonia were added. The paint was finally mixed at a moderate stirring speed for 30 minutes to ensure total homogenization.

The coalescing agent to be tested was then mixed into the dye mixture, after which the amount of water was adjusted to obtain a solids content of 46% by weight. To obtain 10% 530,420 in 8 coalescing agents of the solid polymer material, 2.58 g of tripropionin 0011 6.12% Water was added to the dye mixture. 100 g of sample of the dye mixture was then used to test the coalescing aid effect.

MFFT was measured at 24 ° C.

Example 22 The procedure of Example 21 was repeated except that the amount of tripropionine was added to the dye mixture was 3.87 g and 4.83 g, respectively, to obtain 15% coalescing agent of the solid polymeric material. The hardness of the film was measured with the Koenig hardness test, a test based on an oscillating pendulum where the energy is absorbed by the elasticity of the film. Koenig hardness' is determined by the time in seconds it takes to reduce the oscillation of the pendulum. Higher Value On Koenig hardness indicates a harder surface. The hardness results are shown in Figure 1. MFFT was measured at 12 ° C.

Example 23 The procedure of Example 21 was repeated except that the amount of tripropionin and water added to the dye mixture was 5.16 g and 3.54 g, respectively, to obtain 20% coalescing agent of the solid polymeric material. MFFT was measured at 1 ° C.

Example 24 The procedure of Examples 21, 22, 23 was repeated except that the commercial coalescing agent NX795 was added instead of tripropionin. The Koenig hardness of the film was measured for the dye mixture with 15% coalescing agent, the hardness results are shown in Figure 1.

MF FT was measured at 30 ° C, 16 ° C and 8 ° C, respectively.

According to the results of the Koenig hardness test, Figure 1, the hardness of the dyes in Examples 22 and 24 is approximately equal. The test was performed at 23 (+ - 1) ° C and 50 (+ - 5)% residual moisture (RH) -

Claims (6)

530 420 PATENT CLAIMS A waterborne binder composition comprising a water-dispersible polymeric binder and a coalescing agent, characterized in that the coalescing agent comprises triesters selected from a group consisting of tripropionin (triester of glycerol and propionic acid), tributyrin (triester of glycerol and butyrobutyric acid), triisoric acid (triester of glycerol and isobutyric acid) or trivalerine (triester of glycerol and valeric acid) or combinations of two or more of these. A binder composition according to claim 1, characterized in that the coalescing agent consists of 75-100% by weight of the triester of glycerol and propionic acid, preferably 90-100% by weight, and that the remaining part of the coalescing agent consists of the monoester and the diester of glycerol and propionic acid. A binder composition according to claim 1, characterized in that the coalescing agent consists of 75-100% by weight of the triester of glycerol and butyric acid fi, fFfCffädCSViS 90400% by weight, and that the remaining part of the coalescing agent consists of the monoester and diester of glycerol and butyric acid. A binder composition according to claim 1, characterized in that the coalescing agent consists of 75-100% by weight of the triester of glycerol and isobutyric acid, preferably Swiss 90-100% by weight, and that the remaining part of the coalescing agent consists of the monoester and the diester of glycerol and isobutyric acid. A binder composition according to claim 1, characterized in that the coalescing agent consists of 75-100% by weight of the triester of glycerol and valeric acid, preferably 90-100% by weight, and that the remaining part of the coalescing agent consists of the monoester and the diester of glycerol and valeric acid. A binder composition according to claim 1, characterized in that the coalescing agent comprises one or more known coalescing agents in addition to the triester or triesters. An adhesive composition according to claim 6, characterized in that the known coalescing agent or agents constitute 1-50% by weight of the total coalescing agent, preferably 1-25%. A binder composition according to any one of claims 1-7, characterized in that the coalescing agent content constitutes 1-30% by weight of the solid polymeric material, preferably 2-20%. A binder composition according to claim 8, characterized in that the coalescing agent content constitutes 2-10% by weight of the solid polymeric material. An adhesive composition according to any one of claims 1 to 9, characterized in that the adhesive is a homo- or copolymer comprising monomer units of acrylate, methacrylate, vinyl acetate and / or units of urethane or urethane / urea. A binder composition according to claim 10, characterized in that the binder is a styrene-acrylate copolymer, an acrylate-methacrylate copolymer, a copolymer of vinyl acetate and acrylate or methacrylate, a vinyl acetate homopolymer, a vinyl-converted homopolymer, a copolymer of ethylene and vinyl ethylene and vinyl versatate or an acrylate-urethane hybrid. An adhesive composition according to any one of the preceding claims, characterized in that the composition contains pigments, fillers and additives. Use of the adhesive composition according to any one of claims 1-2 in a waterborne paint, adhesive or sealant.