GB2496644A - Coating composition for flooring - Google Patents

Abstract

The present invention provides a curable particulate coating composition for providing a non-slip surface which composition comprising a curable polymer and particles having a size range from about 60 to about 120 µm. The coating composition is in liquid or powder form. A machine for applying the coating composition is also disclosed.

Description

I

IMPROVEMENTS IN OR RELATING TO FLOORING

[00i] The present invention provides a coating composition for providing a non-slip surface suitable for use in a wet environment where users may be bare foot or shod, a flooring material having such a surface and a method for providing a flooring material with such a surface.

[002] In some areas flooring is required to be slip resistant with both shod and barefoot traffic. Examples include changing rooms, assisted shower-rooms, care homes etc. While there are products that work well with shod traffic, and those which work well with bare feet and soft-soled shoes, there are few products which work well with both. Those that do tend to be very rough, difficult to maintain and/or aesthetically unpleasing.

[003] There is therefore a need for a flooring product which works well with all shoes types as well as with bare feet, is easy to maintain and can be manufactured in a range of attractive finishes.

[004] According to the invention there is provided a curable particulate coating composition for providing a non-slip surface which composition comprising a curable polymer and particles having a size range from about 60 to about 120 jim.

[005] It has surprisingly been found that a flooring material having a coating containing particles with a size range of from about 60 to about 120 lim provides a non-slip surface suitable for all types of footwear as well as bare feet. The flooring material has uniform, consistent non-slip properties and is easy to maintain.

[006] According to the invention there is also provided a flooring material having a cured polymer coating which comprises particles having a size range from about 60 to about 120 jim.

[007] According to the invention there is further provided a method for preparing a flooring material according to the invention which method comprises the steps of: a. Applying a curable particulate coating composition to a tlooring material; and b. Curing the coating; wherein the composition comprises a curable polymer and particles having a size range from about 60 to about 120 jim.

[008] According to the invention there is also provided a machine for applying a liquid coating composition according to the invention to a floor material which machine has a reservoir of the composition, an application roller for applying the composition to the flooring material, a transfer roller for transferring the composition from the reservoir to the application roller and a radiation generator for curing the composition.

[009] In sonic embodiments, the particle size may be from about 65, for example from about 70, for example from about 75, for example from about 76 to about 115, for example to about 110, for example to about 106 jim. In some embodiments, the coating composition may only include particles which have a size of from about 60, for example from about 65, for example from about 70, for example from about 75, for example from about 76 to about 120, for example to about 115, for example to about 110, for example to about 106 jim. This is because when the coating composition includes particles having a size of less than about 60 jim, it has been found that the viscosity of the coating composition is increased which makes it harder to apply without the non-slip properties of the coating being measurably improved and the properties of the coating on the flooring material are not uniform. When the coating composition includes particles having a size of more than about 120 jim, the roughness of the surface of the flooring material is improved at the expense of the cleanability as the larger sized particles are more liable to pick up dirt, and the particles are less suited for application to the flooring material by transfer roller.

Particles having a suitable size for inclusion in the composition according to the invention may be prepared by any known separation technique, such as sieving. The particle size of a particle used in the invention may be measured using microscopic analysis or by laser diffraction.

[0010] In some embodiments, the particles are present in the coating in an amount sufficient for the surface of the flooring material to feel rough to a bare foot without the amount being so much that the surface feels uncomfortable. A skilled person would be able to determine a suitable amount of the particles to be included in the coating. For example, a suitable amount of particles is from about 50, for example from about 55 to about 100, for example to about 95 parts by weight per 100 parts by weight of thc curable polymer. An amount of particlcs of lcss than about 50 parts by weight per 100 parts by weight of the curable polymer provides a surface which is too smooth to be iion-slip for a bare foot. An amount of particles of more than about 100 parts by weight per 100 parts by weight of the curable polymer provides a surface which is too rough to be comfortable for a bare foot and the coating is too viscous to be applied uniformly to a flooring material. In a further embodiment, a suitable amount of particles is a weight percentage of from about 30%, for example from about 35% to about 49% based on the total weight of the coating.

[0011] In some embodiments, the coating composition is applied at a coverage amount of from about 10, for example from about 15, for example from about 18 to about 40, for example to about 30, for example to about 22 grams per square metre of flooring material. For example, the coverage amount may be about 20 grams per square metre of flooring material. A coverage amount of less than 10 grams per square metre was found to provide a coating which lack consistency of properties. A coverage amount of greater than 40 grams per square metre was found to provide a coating which was insufficiently flexible and which was expensive to apply. In some embodiments, the coating may have a thickness of from about 5, for example from about 9 to about 50 jim, for example to about 40, for example to about 30, for example to about 20 rim.

[0012] To obtain a composition according to the invention which is optiniised for cost of application, ease of applicability, and uniformity of properties such as non-slip and ease of maintenance, a combination of factors need to be balanced. These factors include the particle size, the amount of particles and the amount of coating applied per square metre of flooring material. For example, it will be appreciated that if' the particles have a broad particle size range such that percentage of the particles having the defined particle size range is less than 80% by weight (for example less than 85% by weight, e.g. less than 90% by weight) of the total weight of particles, a greater amount of particles will be required to have an equivalent non-slip effect. This will make the coating composition more difficult to apply. Also, the particles having a size less than 60 m or greater than 120 jim will give rise to the problems discussed above.

[0013] In sonic embodiments, the coating composition may be a liquid coating composition or a powder coating composition. Where thc coating composition is a liquid composition, the composition may optionally be a water-based composition. A suitable water-based composition is a composition which is thermally curable (e.g. water-based polyurethane) or curable by thermal and UV radiation (e.g. water-based UV curable polyurethane). Alternatively, the coating composition may be a liv curable liquid composition (e.g. a polyacrylate or urethane acrylate). Where the coating composition is a powder composition, the composition may be a PVDF based composition.

[0014] In some embodiments, the particles may be smooth particles. A smooth particle is a particle which has no angular protrusion or indentation, for example a particle which has no protrusion or indentation having an outward facing angle of about 90° or less. In some embodiments, the particles may be one or more of a smooth sphere, bead and grain. The advantage of using a smooth particle in the composition or flooring material according to the invention is that the cured coating is easier to clean as the coating lacks any angular surface in which a cleaning material (for example the fibres of a mop) may be caught.

[0015] In some embodiments, the particles used in the composition or flooring material according to the invention may be one or more of the following types of particle: a glass particle, a polymeric particle (for example Nylon (Trademark)), a ceramic particle (e.g. porcelain) and an aluminium oxide particle.

[0016] In some embodiments, the coating may include one or more layers. Where the coating has two or more layers such that the coating has an upper coating layer providing the non slip surface and one or more lower coating layers, at least the upper coating layer contains particles.

[0017] In sonic embodiments, the flooring material used in the invention comprises one or more base layers comprising a polymeric material. Examples of suitable polymeric material include plasticised PVC, rubber, linoleum, plasticised acrylic, and/or a polyolefin. Optionally, the one or more base layers may contain one or more types of slip resistant and/or wear resistant particles such as aluminium oxide, silicon carbide, quartz or glass. Optionally, the one or more base layers may include one or more types of decorative elements such as a coloured chip, fleck and/or flake for example of a coloured polymeric material and/or a printed design layer. The flooring material may optionally be embossed.

In some embodiments, the method of the invention may include the following steps before steps (a) and (b): (i) providing a substrate; (ii) applying a base layer comprising a polymeric material to the substrate; (iii) curing the base layer to provide a floor covering; wherein optionally the base layer contains one or more types of slip resistant, wear resistant and/or decorative particles. The method of the invention optionally includes a final step of removing the flooring material from the substrate where the substrate does not form part of the flooring material and is only used to support the flooring material during its manufacture.

[00th] The invention will now be described with reference to the following Figures of the accompanying drawings which are not intended to limit the scope of the invention in which: Figure 1 shows a schematic cross-section of a first embodiment of a flooring material according to the invention; Figure 2 shows a schematic cross-section of a second embodiment of a flooring material according to the invention; Figure 3 shows a schematic cross-section of a machine according to the invention applying a coating composition according to the invention to a pre-laid flooring material to prepare a third embodiment of a flooring material according to the invention; and Figure 4 shows a schematic diagram of a production line for preparing a fourth embodiment of a flooring material according to the invention.

[0019] The first embodiment of a flooring material 101 illustrated in Figure 1 includes a substrate 103 which is a cellulose/polyester support reinforced with a 32 tex glass crennette. The substrate 103 is approximately 0.15mm in thickness. On top of the substrate 103 there is a PVC plastisol undercoat 5 which is approximately 1mm thick.

On top of the undercoat 105 there is a layer 107 of PVC plastisol which is about 0.8mm thick. On top of layer 107, there is a coaling 115 which contains particles 113 which provide a non-slip surface for all shoe types and for bare feet too.

[0020] As an alternative to the embodiment depicted in Figure 1, the undercoat 5 and S layer 7 may be provided as a single layer, glass beads and/or coloured PVC chips may be provided in layer 7, and/or further particulate material may be included such as aluminium oxide grits. As further alternative to the embodiment depicted in Figure 1, the flooring material 101 may omit a substrate.

[0021] The second embodiment of a flooring material 201 illustrated in Figure 2 includes a substrate 203, a PVC plastisol undercoat 205. On top of the undercoat layer 205, there is a design layer 217 which comprises a layer of water-based ink applied by gravure printing. On top of the design layer is a layer 207 of PVC plastisol. On top of the PVC plastisol layer 207, there is a coating 215. Embedded in and proud of the coating 215 are particles 213.

[0022] As an alternative to the embodiment depicted in Figure 2, the undercoat 205 and layer 207 may be provided as a single layer, glass beads and/or coloured PVC chips may be provided in layer 207 and/or furthcr particulate matcrial may be included such as aluminium oxide grits.

[0023] A machine 320 according to the invention is illustrated in Figure 3. The machine 320 is shown preparing a third embodiment of a flooring material 301 according to the invention by applying a coating composition 315 to a pre-laid floor covering 305. The machine 320 has a housing 322 and two pairs of optionally powered wheels 324. Housing 322 has a reservoir of the composition according to the invention (not shown), an application roller 326 for applying the composition to the flooring material, a transfer roller (not shown) for transferring the composition from the reservoir to the application roller and a radiation generator 328 for curing the composition. The radiation generator 328 may be a heater for generating thermal radiation for curing a thermally curable coating composition or niay be a UV radiation generator for curing a UV curable coating composition or the radiation generator 328 may include both a heater and a (iv radiation generator for curing a coating composition requiring thermal and IJV radiation for curing. The wheels 324 arc optionally operatively connectable to the application roller 326, transfer roller (not shown) and the radiation generator 328. Therefore, when the machine 320 is placed on a pre-laid floor covering 305 in an operative mode, movement of the wheels 324 causes movement of tile transfer roller (not shown) and application roller (326) such that coating 315 is applied to floor covering 305. The radiation generator 328 is then operated to cure coating 315 to obtain flooring material 301 according to the invention.

[0024] A production line 450 is schematically illustrated in Figure 4. The production line 450 has a roll 455 of substrate 460, a polymeric material hopper 465, an oven 475. rollers 485 for applying the coating composition according to the invention and radiation generator 495. To operate the production line, substrate 460 is unrolled from roil 455 and fed under hopper 465 which applies a layer of polymeric material to the substrate to form a coated substrate 470. Substrate 460 is optionally preeoatcd with one or more base layers of polymeric material and/or a design layer. Coated substrate 470 is cured in oven 475 and is optionally embossed to form a floor covering 480. A coating composition is applied to the cured floor covering 480 by rollers 485 to form a coated floor covering 490. The coating is cured by radiation generator 495 to form a fourth embodiment of a flooring material 497 according to the invention.

[0025] The invention is further illustrated with reference to the following examples which are not intended to limit the scope of the invention claimed.

PREPARATIVE EXAMPLE I

[0026] Plastisols having the formulations given in Table 1 were produced as described below.

TABLE 1

Plastisol Formulations A. B. Weight/kg Weight/kg PVC polymer 15 20 PVC polymer 5 -Di-isodecyl phthalate 6.5 6.5 Calcium magnesium carbonate -5 Blend of aliphatic hydrocarbons with a neutral wetting and -0.4 dispersing_component _______________ _______________ Liquid barium zinc preparation containing organic barium 0.3 0.4 compounds ___________ A solution of 10,10' oxybisphenoxyarsine in epoxidised soya -0.2 bean oil Black pigment provided as a dispersion of carbon black in a -0.02 plasticiser [0027] In each case, the ingredients were weighed in to a 50 litre steel vessel and mixed by a trifoil shaft mixer at 100 rpm for 4 minutes and a dissolver shaft at 1800 rpm for 2 minutes. Aluminium oxide particles (from Washington Mills) size P40 (FEPA Standard 42-GB-1984 measurement) were weighed into plastisol B (10% w/w) and mixed.

PREPARATIVE EXAMPLE 2 [0028] Coating compositions according to the invention was prepared as follows.

[0029] Glass spheres having a particle size of from about 75 to about 106 im were obtained by sieving.

[0030] A UV curable mixture containing from 20 to 30 parts by weight of oxybis(methyl-2,l-ethanediyl) diacrylatc, from 10 to less than 20 parts by weight of2-phenoxyethyl acrylate, from 10 to less than 20 parts by weight of acrylate resin, from 2.5 to S parts by weight of (l-methyl-1,2-ethanediyl)bis[oxy(nethyl-2,1-ethanediyl)] diacrylate, from 1 to S parts by weight of benzophenone and from 1 to S parts by weight of 1 -6,hexancdioldiacrylate was prepared. The glass spheres were added to the UV curable mixture at a rate of 60 parts by weight of the glass spheres to 100 parts by weight of the UV curable mixture to obtain coating composition C. Coating composition D was prepared by adding 80 parts by weight of the glass spheres to 100 parts by weight of the UV curable mixture.

EXAMPLES 3 AND 4

[0031] In these Examples, the preparation of a flooring material as depicted in Figure I is described. The method of this Example is illustrated in Figure 4.

[0032] Plastisol B was spread coated onto a substrate to a thickness of Imni by knife over roller. The substrate was a 2 m width cellulose/polyester support reinforced with a glass crennette moving at a rate of 7 metres/minute. The systeni was then passed into a convection oven where it was exposed to 160°C for 2 minutes. The system was then passed through a series of cooling rollers before it was over coated with plastisol A to a total thickness of 2mm by knife over bed.

[0033] The system was then passed in to a convection oven where it was exposed to 190°C for 3 minutes before being embossed and cooled. In Example 3, coating composition C was applied by roller to the cured system at coverage rate of 20 grams per square metre. In Example 4, coating composition D was applied by roller to the cured system at coverage rate of 20 grams per square metre. The coated systems were cured using UV radiation to produce flooring materials according to the first embodiment of the invention.

[0034] Comparative visual tests showed that the appearance of the floor covering prepared was not impaired by the addition of the anti-slip material. The product of Example 3 showed good slip resistance with all shoes types and bare-feet, achieving a rating of Rl0 shod (D1N51130) and Class B bare-foot (D1N51097) with a pendulum test value of 50-60 using slider 96 (BS7976). The product of Example 4 achieved Rl 1 shod, Class C bare foot and a pendulum test result of 65. The products of Examples 3 and 4 were not excessively rough to the touch, have improved stain resistance over standard PVC products and in corridor trials were not been found to retain any more dirt than a typical RiO product with a PU finish.

EXAMPLES SAND 6

[0035] In these Examples, the preparation of flooring materials as depicted in Figure 2 is described.

[0036] Plastisol B was spread coated onto a substrate to a thickness of 1mm by knife over roller. The substrate was a 2 m width cellulose/polyester support reinforced with a glass crennette moving at a rate of 7 metres/minute. The system was then passed over a gel drum to partially cure and flatten the layer of plastisol.

[0037] A wood print PVC film having a thickness of 0.1mm was then laminated onto the system by the application of pressure to the hot surface of the gelled PVC.

[0038] Plastisol A was spread coated on the system to a thickness of 2mm by knife over roller. The system was then passed in to a convection oven where it was exposed to 190°C for 2 minutes before being embossed. In Example 5, coating composition C was applied by roller to the cured system at coverage rate of 20 grams per square metre. In Example 6, coating composition D WUS applied by roller to the cured system at coverage rate of 20 grams per square metre. The coated systems were cured using UV radiation to produce flooring materials according to the second embodiment of the invention.

[0039] Comparative visual tests showed that the appearance of the floor covering prepared was not impaired by the addition of the anti-slip material. The product of Example 5 showed good slip resistance with all shoes types and bare-feet, achieving a rating of RIO shod (DINS1 130) and Class B bare-foot (D1N51097) with a pendulum test value of 50-60 using slider 96 (BS7976). The product of Examplc 6 achieved Ri 1 shod, Class C bare foot, and a pendulum test result of 65. The products were not excessively rough to the touch, have improved stain resistance over standard PVC products and in corridor trials were not been found to retain any more dirt than a typical RIO product with a PU finish.

EXAMPLE 7

[0040] In this Example, the preparation of a flooring material as depicted in Figure 3 is described.

[0041] Coating composition C was applied by roller to a pre-laid floor covering at coverage rate of 20 grams per square metre using the machine according to the invention. The coated floor covering was cured using UV radiation to produce a flooring material according to the third embodiment of the invention.

[0042] Comparative visual tests showed that the appearance of the floor covering prepared was not impaired by the addition of the anti-slip material. The product showed good slip resistance with all shoes types and bare-feet, achieving a rating of RiO shod (DINSI 130) and Class B bare-foot (DIN5 1097) with a pendulum test value of 50-60 using slider 96 (BS7976).

Claims (1)

1. <claim-text>CLAIMS1. A curable particulate coating composition for providing a non-slip surface which composition comprising a curable polymer and particles having a size range from about 60 to about 120 jim.</claim-text> <claim-text>2. A composition as defined in claim I wherein the particle size is from about 65, preferably from about 70, preferably from about 75, preferably from about 76 to about 115, preferably to about 110, preferably to about 106 jim.</claim-text> <claim-text>3. A composition as defined in claim 1 or claim 2 wherein the composition only includes particles which have a size of from about 60, preferably from about 65, preferably from about 70, preferably from about 75, preferably from about 76 to about 120, preferably to about 115, preferably to about 110, preferably to about 106 jim.</claim-text> <claim-text>4. A composition as defined in any one of the preceding claims which comprises from about 50, preferably from about 55 to about 100, preferably to about 95 parts by weight of particles per 100 parts by weight of the curable polymer.</claim-text> <claim-text>5. A composition as defined in any one of claims 1 to 4 wherein the amount of particles is a weight percentage of from about 30%, preferably from about 35% to about 49°% based on the total weight of the composition.</claim-text> <claim-text>6. A composition as defined in any one of the preceding claims wherein the composition is a liquid coating composition or a powder coating composition; preferably the composition is a liquid composition.</claim-text> <claim-text>7. A composition as defined in any one of the preceding claims wherein the particles are smooth particles.</claim-text> <claim-text>8. A composition as defined in any one of the preceding claims wherein the particles arc one or more of the following types of particle: a glass particle, a polymeric particle, a ceramic particle and an aluminium oxide particle.</claim-text> <claim-text>9. A flooring material having a cured polymer coating which coating comprises particles having a size range from about 60 to about 120 jim.</claim-text> <claim-text>10. A flooring material as defined in claim 9 wherein the coating is formed from a composition as defined in any one of claims I to 8.</claim-text> <claim-text>11. A flooring material as defined in claim 9 or claim 10 wherein the coating has a thickness of from about 5, preferably from about 9 to about 50 jim, preferably to about 40, preferably to about 30, preferably to about 20 jim.</claim-text> <claim-text>12. A flooring material as defined in any one of claims 9 to II wherein the coating has one or more layers.</claim-text> <claim-text>13. A flooring inatcrial as defined in any one of claims 9 to 12 wherein the flooring material comprises one or more base layers comprising a polymeric material; preferably the one or more base layers contain one or more types of slip resistant, wear resistant arid/or decorative particles.</claim-text> <claim-text>14. A method for preparing a flooring material which method comprises the steps of: a. Applying a composition to a floor covering; and b. Curing the coating; wherein the composition comprises a curable polymer and particles having a size range from about 60 to about 120 jim.</claim-text> <claim-text>15. A method as defined in claim 14 wherein the composition is as defined in any one of claims 1 to 8.</claim-text> <claim-text>16. A method as defined in claim 14 or claim IS wherein steps (a) and (b) follow the following steps for preparing the floor covering: (i) providing a substrate; (ii) applying a base layer comprising a polymeric material to the substrate; (iii) curing the base layer to provide a floor covering; wherein optionally the base layer contains one or more types of slip resistant, wear resistant and/or decorative particles.</claim-text> <claim-text>17. A method as define in any one of claims 14 to 16 wherein step (a) comprises applying the composition at a coverage amount of from about 10, preferably from about 15, preferably from about 18 to about 40, preferably to about 30, preferably to about 22 grams per square metre of flooring material.</claim-text> <claim-text>18. A machine for applying a liquid coating composition according to the invention to a floor material which machine has a reservoir of the composition as S defined in any one of claims I to 8, an application roller for applying the composition to the flooring material, a transfer roller for transferring the composition from the reservoir to the application roller and a radiation generator for curing the composition.</claim-text> <claim-text>19. A curable non-slip coating composition substantially as hereinbefore des c i'i bed.</claim-text> <claim-text>20. A flooring material substantially as hereinbeforc described and/or as illustrated in the Figures of the accompanying drawings.</claim-text> <claim-text>21. A method for preparing a flooring material substantially as hereinbefore described and/or as illustrated in Figures 3 or 4 of the accompanying drawings.</claim-text> <claim-text>22. A machine substantially as hereinbefore described and/or as illustrated in Figure 3 of the accompanying drawings.</claim-text>