RU2812126C1 - Method for manufacturing substrate for safety coatings - Google Patents

Abstract

FIELD: construction.

SUBSTANCE: invention relates to a method for manufacturing a substrate intended for laying under safety coatings, in particular those made on the basis of ethylene-propylene rubber (EPDM) granules, vulcanized thermoplastic elastomer granules, granules of worn tires and rubber products. A method for manufacturing a substrate for safety coatings involves preparing a mixture of a layer of material by mixing a binder, polyurethane glue, granulated ethylene vinyl acetate (EVA) with a fraction size from 1 mm to 50 mm and rubber granules with a fraction size from 1 mm to 8 mm, with the quantity per 1 square meter and a layer thickness of 10 mm being:

- polyurethane glue from 1.1 kg to 1.5 kg;

- EVA from 0.1 kg to 0.9 kg;

- rubber granules from 1.2 kg to 5.4 kg,

Afterwards, the resulting mixture is laid out on the prepared surface, levelled, and kept until cured to form a single monolithic layer of material.

EFFECT: increased wear resistance while simultaneously improving the shock absorption of the backing layer.

7 cl

Description

The invention relates to the field of construction, in particular to a method for manufacturing a substrate intended for laying under safety coatings, in particular, made on the basis of ethylene-propylene rubber granules (EPDM), vulcanized thermoplastic elastomer granules, granules of worn tires and technical rubber products on various surfaces. areas located both indoors and outdoors, for example, for children’s play, sports, park areas, recreation areas, etc., and can be used as a base for a covering on which the user can fall after a fall, including a fall from equipment, areas where climbing, braking and stopping are carried out - slides, ramps, tunnels, elements of geoplastics and artificial relief. The substrate can be used as a shock-absorbing base for subsequent layers of coatings.

The closest in technical essence to the proposed invention is a method for producing a coating for sports games, which includes preparing a mixture of a substrate layer for laying under the coatings for sports games; to prepare the mixture of the substrate layer, polyurethane polymer and rubber crumbs with a particle size of 0.5-8.0 are mixed mm with a mixture ratio of 8-15 parts by weight of crumb rubber particles and 2-5 parts by weight of cross-linking polyurethane elastomer. Crumb rubber has a size of 0.5-5.0 mm (see source: SU 1828477 A3, published 07/15/1993).

The disadvantages of the known method are the insufficient reliability of the coating obtained by the claimed method, since such a coating has low shock-absorbing properties and is environmentally friendly, low strength; over time, with intensive use, such a coating applied to such a substrate begins to crumble due to the destruction of the substrate itself.

The problem solved by the claimed invention is to create a method for producing a substrate that can be used as a shock-absorbing base for subsequent layers of coatings, having high shock-absorbing properties and at the same time wear resistance.

The technical result achieved by the claimed invention is the creation of a method for manufacturing a substrate, which is a monolithic structure, providing improved shock-absorbing properties, due to the joint mixing of two types of granules - EVA and rubber in the stated ranges of quantities and fractional sizes, allowing simultaneous manifestation of both elastic and hard properties of the substrate layer, resulting in increased wear resistance with simultaneous improvement in shock absorption, also the technical result is to improve the environmental situation due to the recycling of waste from large-scale production of thermoplastics - ethylene vinyl acetate (EVA).

The claimed technical result is achieved due to the fact that the method of manufacturing a substrate for safety coatings includes preparing a mixture of a layer of material by mixing a binder - polyurethane glue, granulated ethylene vinyl acetate (EVA) with a fraction size from 1 mm to 50 mm and rubber granules with a fraction size from 1 mm to 8 mm, while the quantity per 1 square meter and a layer thickness of 10 mm is:

- polyurethane glue from 1.1 kg to 1.5 kg;

- EVA from 0.1 kg to 0.9 kg;

- rubber granules from 1.2 kg to 5.4 kg,

Afterwards, the resulting mixture is laid out on the prepared surface, leveled, and kept until cured to form a single monolithic layer of material.

In a particular embodiment, a diphenylmethane diisocyanate (MDI) prepolymer and/or an aliphatic isocyanate prepolymer is used as the base of the polyurethane adhesive.

In particular, rubber granules are obtained by processing worn tires and rubber products (RTI).

In a particular implementation, granulated ethylene vinyl acetate (EVA) is obtained from raw materials to be recycled.

In a particular implementation, the prepared surface is primed.

In particular, the primer is a diphenylmethane diisocyanate (MDI) prepolymer or a mixture of a polyurethane binder based on a diphenylmethane diisocyanate (MDI) prepolymer.

In a particular implementation, a layer of material is laid out with a thickness of 10 mm.

A method for manufacturing a substrate intended for laying under safety coatings includes preparing a mixture of a layer of material. To obtain a layer of substrate material, mix the binder polyurethane adhesive, granulated ethylene vinyl acetate (EVA) with fraction sizes from 1 mm to 50 mm and rubber granules with fraction sizes from 1 mm to 8 mm, with an amount per 1 square meter and a layer thickness of 10 mm is:

- polyurethane glue from 1.1 kg to 1.5 kg; -EVA from 0.1 kg to 0.9 kg;

- rubber granules from 1.2 kg to 5.4 kg,

Afterwards, the resulting mixture is laid out on the prepared surface, leveled, and kept until cured to form a single monolithic layer of material. The layer of substrate material obtained in this way performs a shock-absorbing function and is wear-resistant and injury-proof.

Granulated ethylene vinyl acetate is obtained by processing (grinding, crushing) raw materials to be recycled into fractional granules. Rubber granules are obtained by processing worn tires and rubber products (RTI). Polyurethane adhesive (binder) is based on the prepolymer diphenylmethane diisocyanate (MDI).

Based on the tests carried out, it was established that the amount of polyurethane glue per 1 ^m2 with a layer thickness of 10 mm is from 1.1 kg to 1.5 kg, ensures uniform coverage of EVA granules in an amount from 0.1 kg to 0. 9 kg with fraction sizes from 1 mm to 50 mm and with rubber granules in quantities from 1.2 kg to 5.4 kg with fraction sizes from 1 mm to 8 mm for binding action. The hardened binder creates a dense monolithic mass without a lack or excess of polyurethane binder and ensures uniform distribution of both rubber and EVA granules over the surface for gluing them to each other.

When the content of polyurethane adhesive is below 1.1 kg per 1 m ² area with a layer thickness of 10 mm of the coating made by the claimed method, rubber granules and EVA granules in the mass do not have the required amount of binder to ensure bonds between the two types of granules. The hardened mass can collapse (crumple) without ensuring the density, reliability and safety of the coating applied on top of the substrate, and its shock-absorbing properties are also reduced due to the destruction of the lower layer - the substrate.

When the content of polyurethane glue is more than 1.5 kg, an excess of polyurethane binder appears, which may not be evenly distributed throughout the mass. An excess of polyurethane binder leads to the formation of local areas with a pronounced hardened structure. There may be bumps and swelling in the mass. The presence of excessive binder in the mass leads to a lack of safety and shock-absorbing characteristics of both the substrate layer itself and the safety coating applied on top as a whole.

Based on the tests carried out, it was established that the amount of EVA granules per 1 m ² area of the substrate manufactured by the claimed method, with a layer thickness of 10 mm, is from 0.1 kg to 0.9 kg with fraction sizes from 1 mm to 50 mm and with rubber granules in quantities from 1.2 kg to 5.4 kg with fraction sizes from 1 mm to 8 mm ensures close contact of granules of two types with each other's edges, creating a monolithic mass, and also ensures optimal shock-absorbing properties of the resulting substrate, as well as coating applied on top of it, due to the joint use of two types of granules in one layer of the substrate - EVA and rubber in the indicated ranges, allowing the simultaneous manifestation of both elastic and rigid properties of the lower layer, resulting in increased wear resistance with simultaneous improvement in shock absorption.

When the amount of rubber granules is higher than 0.9 kg, the hardened mass may be less dense, not providing reliability and sufficient shock absorption.

When the number of EVA granules is below 0.1 kg, it will significantly reduce the shock-absorbing properties of the substrate made by the claimed method, as well as the coating applied on top of it; an excess of the required polyurethane binder also appears, which may not be evenly distributed throughout the mass. An excess of polyurethane binder leads to the formation of local areas with a pronounced hardened structure. There may be bumps and swelling in the mass. The presence of excessive binder in the mass leads to a lack of safety and shock-absorbing characteristics.

Based on the tests of the substrate manufactured by the claimed method and intended for laying under safety coatings, it was revealed that when the size of the EVA granule fractions is less than 1 mm, the specified layer of the substrate and all safety coating applied to the substrate will exhibit insufficient damping and shock-absorbing properties.

And when the size of the EVA granule fractions is more than 50 mm, the substrate layer and all the safety coating applied to the substrate will also exhibit insufficient damping and shock-absorbing properties, due to the insufficient density of the substrate layer.

The number of rubber granules - from 1.2 kg to 5.4 kg ensures close contact of the edges with each other, creating a monolithic mass.

If the quantity of rubber granules is higher than 5.4 kg, the hardened mass may collapse (crumple), not providing reliability and sufficient shock absorption.

When the amount of rubber granules is below 1.2 kg, an excess of the required polyurethane binder appears, which may be unevenly distributed throughout the mass. An excess of polyurethane binder leads to the formation of local areas with a pronounced hardened structure. There may be bumps and swelling in the mass. The presence of excessive binder in the mass leads to a lack of safety and shock-absorbing characteristics.

To ensure maximum damping properties, shock absorption and wear resistance of the layer of substrate material made by the stated method, the fractional composition of two types of granules should be: EVA - fraction size from 1 mm to 50 mm and rubber granules, fraction size from 1 mm to 8 mm. Based on the tests carried out, it was revealed that when the size of the rubber granule fractions is less than 1 mm, the specified backing layer will exhibit insufficient damping and shock-absorbing properties.

If the size of the rubber granule fractions is greater than 8 mm, the specified layer of material will also exhibit insufficient damping and shock-absorbing properties due to the insufficient density of the layer.

The substrate can be laid on various surfaces in areas located both indoors and outdoors, it can be used on a solid base (asphalt, concrete) and on a compacted base made of crushed stone (screenings), as well as in various forms and shapes -sets.

The primer ensures adhesion to a solid base (asphalt, concrete). In the case of laying a layer of base material on a base of compacted crushed stone (screening), applying a primer to the crushed stone (screening) is not necessary.

As the base of the primer layer, a prepolymer of diphenylmethane diisocyanate (MDI) or a mixture of polyurethane binder based on a prepolymer of diphenylmethane diisocyanate (MDI) is used in an amount of 0.5 to 1.5 kg per 1 m ² , depending on the porosity of the base.

Turpentine or white spirit or solvent or gasoline are used as a solvent.

Granulated ethylene vinyl acetate (designation EVA or EVA) can be used from the manufacturer RUBBER DUST PRODUCTION LLC, obtained from raw materials to be recycled or analogues. EVA material has a high level of environmental safety.

Rubber granules obtained by processing worn tires and rubber goods into rubber crumbs (fractional granules) can be used from manufacturers - RUBBER DUST PRODUCTION LLC, Gambit LLC, Oris Prom LLC, Dmitrovsky Rubber Rubber Plant LLC or analogues.

The polyurethane adhesive (a binder based on diphenylmethane diisocyanate prepolymer) can be used, for example, POLYPLAST 1004, manufactured by Huntsman NMG JSC; GAMBIT-M, manufactured by Gambit LLC; WANNATE 6112, manufactured by Yantai Wanhua Polyurethanes Co.; VORAMER MR 1045, 1177, manufacturer "DOW"; Glue ISOLAN-77, manufactured by DAU Izolan LLC or analogues.

As a polyurethane adhesive (the base binder is an aliphatic isocyanate prepolymer), for example, POLYPLAST 101, manufactured by Huntsman NMG JSC or analogs can be used.

Primer (Primer) in the case of hard bases/surfaces (asphalt, concrete) is used, for example, - Universal primer “Primer Gambit”, manufactured by Gambit LLC, Primer 1101 manufactured by JSC “Hantsman NMG”.

To make a substrate in a mixer, for example, using a barrel mixer for mixing granular materials or an analogue, to prepare the mixture, mix a binder - polyurethane glue in an amount from 1.1 kg to 1.5 kg with granulated ethylene vinyl acetate (EVA) in an amount from 0 .1 kg to 0.9 kg with fraction sizes from 1 mm to 50 mm and rubber granules in quantities from 1.2 kg to 5.4 kg with fraction sizes from 1 mm to 8 mm, the components are mixed until smooth.

The resulting mixture is laid out on a solid, prepared base/surface, for example, asphalt, concrete, treated with a primer (Primer). The mass is leveled and compacted manually using polyurethane rollers, floats, trowels, and trowels to the required thickness and kept until completely cured.

The substrate obtained by the claimed method consists of a monolithic layer that performs a shock-absorbing function and is wear-resistant, injury-proof and is a binder - polyurethane glue in an amount of 1.1 kg to 1.5 kg with granulated ethylene vinyl acetate (EVA) in an amount of 0.1 kg up to 0.9 kg with fraction sizes from 1 mm to 50 mm and rubber granules in quantities from 1.2 kg. Up to 5.4 kg with fraction sizes from 1 mm to 8 mm.

The following example is provided to provide those skilled in the art with a complete disclosure of the invention and is intended only as an example and not as a limitation of the invention.

Example.

A method for manufacturing a substrate for laying under safety coatings involves mixing a binder - polyurethane glue in an amount per 1 m ² area of the resulting layer of material with a layer thickness of 10 mm, from 1.1 kg to 1.5 kg with granulated ethylene vinyl acetate (EVA) in an amount from 0.1 kg to 0.9 kg with fraction sizes from 1 mm to 50 mm and with rubber granules in quantities from 1.2 kg to 5.4 kg with fraction sizes from 1 mm to 8 mm, after which the resulting mixture is spread on the prepared the surface is leveled, kept until cured to form a single monolithic layer of material..

The substrate can be laid on various surfaces in areas located both indoors and outdoors, it can be used on a solid base (asphalt, concrete) and on a compacted base made of crushed stone (screenings), as well as in various forms and shapes -sets.

The primer ensures adhesion to a solid base (asphalt, concrete). In the case of laying a base layer on a base of compacted crushed stone (screening), applying a layer of primer to the crushed stone (screening) is not necessary.

As a primer base, a diphenylmethane diisocyanate (MDI) prepolymer or a mixture of a polyurethane binder based on a diphenylmethane diisocyanate (MDI) prepolymer is used in an amount of 0.5 to 1.5 kg per 1 m ² , depending on the porosity of the base.

Turpentine or white spirit or solvent or gasoline were used as a solvent.

To obtain a substrate with an area of 1 m ² and a thickness of 10 mm.

Example 1

Example 2

Example 3

Example 4

Example 5

Tests were carried out on samples of the substrate manufactured by the claimed method and intended for laying under safety coatings, as a result of which an unexpected synergistic effect was noted due to a certain amount in accordance with the declared ranges of component ratios, as well as ranges of sizes of selected fractions, which led to increased reliability, safety of the substrate, as well as increasing its shock-absorbing properties with simultaneous wear resistance, due to the joint use of two types of granules in one layer of the substrate - EVA and rubber in the specified ranges, allowing simultaneous manifestation of both elastic and rigid properties of the lower layer.

Claims (11)

1. A method for manufacturing a substrate for safety coatings, including preparing a mixture of a layer of material, characterized in that to prepare a mixture of a layer of material, a binder is mixed - polyurethane glue, granulated ethylene vinyl acetate (EVA) with a fraction size from 1 mm to 50 mm and rubber granules with a size fractions from 1 mm to 8 mm, while the amount per 1 square meter and a layer thickness of 10 mm is: - polyurethane glue from 1.1 kg to 1.5 kg; - EVA from 0.1 kg to 0.9 kg; - rubber granules from 1.2 kg to 5.4 kg, Afterwards, the resulting mixture is laid out on the prepared surface, leveled, and kept until cured to form a single monolithic layer of material. 2. The method according to claim 1, characterized in that a diphenylmethane diisocyanate (MDI) prepolymer and/or an aliphatic isocyanate prepolymer is used as the base of the polyurethane adhesive. 3. The method according to claim 1, characterized in that rubber granules are obtained by processing worn tires and rubber products (RTI). 4. The method according to claim 1, characterized in that granulated ethylene vinyl acetate (EVA) is obtained from raw materials to be recycled. 5. The method according to claim 1, characterized in that the prepared surface is primed. 6. The method according to claim 5, characterized in that the primer is a diphenylmethane diisocyanate (MDI) prepolymer or a mixture of a polyurethane binder based on a diphenylmethane diisocyanate (MDI) prepolymer. 7. Method according to claim 1, characterized in that a layer of material is laid out with a thickness of 10 mm or more.