RU2373254C2 - Composition for reinforcement of ground - Google Patents

Abstract

FIELD: mining.

SUBSTANCE: composition contains a binding agent including aqueous dispersion of polymers solidificated out of doors with the water presence. The composition includes fibre selected from the group of fibres in the sections of not less than 3 mm whereto the glass fibre, basaltic fibre, polymer fibre, carbon fibre, quartz fibre, basaltic scale, cellulose fibres are included.

EFFECT: invention improves the mechanic solidity and bearing capacity of the soil.

5 cl

Description

FIELD OF THE INVENTION

The invention relates to the field of creation and application of materials for strengthening soils of different nature in order to increase their mechanical strength and bearing capacity, as well as withstanding mechanical destruction, thermocyclic destruction, wind and rain erosion, other types of degradation of organized soil structures, for example roads, roadside curbs, runways and airfields, agricultural currents, construction sites, storage areas, underground and semi-underground structures, yards, more expensive to, paths, other areas organized on the ground for economic and other activities, as well as uniform and structural products for the arrangement of these soil structures and other organized structures on the ground - yard, house, garden and paving slabs, curbs, various curbstones, other shaped structures made directly from reinforced soil instead of traditionally made from cement-sand and other well-known building materials and mixtures, as well as house slopes and other These are elements of arranging the local area, earthen shelters, including temporary and seasonal.

The invention can also be used to create paints, primers, mastics, other coatings for dry and wet surfaces with increased thermocyclic crack resistance, as well as adhesives for bonding dry and wet surfaces, including under pressure with a controlled thickness of the adhesive layer. State of the art

Curable polyacrylate polymers containing organosilane monomers capable of radical polymerization and containing hydrolyzable groups bonded to a silicon atom are known, which are well known and used, for example, as adhesion promoters for polymers and primers for coatings. However, after curing, these known polyacrylate organosilicon compositions usually become rigid and often brittle materials, not suitable for joint seals that require elastic properties. Examples of such compositions are proposed in US patent No. 3453136, 3951893, 4026826 and 4093673.

Known US patent No. 3453230, which describes acrylate organosilicon compositions, which are claimed as "potential industrial sealants, coatings and molding materials ...". The disadvantage of this invention is that the sealant containing acrylate organosilicon copolymers is not applicable as a highly mobile sealant due to weak cohesion and extensibility.

The closest in technical essence (prototype) is the RF patent for the invention No. 2144045 "Acrylic copolymer, moisture-curing sealing composition". The disadvantage of the composition described in the said patent is its insufficient levels of elongation, elasticity and adhesion, tensile strength, crack resistance, and durability.

SUMMARY OF THE INVENTION

The objective of the invention is the creation of a composite composition for strengthening the soil in order to increase its mechanical strength and bearing capacity, as well as withstanding mechanical destruction, thermocyclic destruction, wind and rain erosion, other types of degradation of organized soil coatings, structures and shaped structures and products without moving large masses materials using to the maximum degree of local soil.

The essence of the invention is the proposal of a composite composition for strengthening the soil and the creation on its basis of reinforced coatings, structures and products capable of carrying design loads for a long time in various environmental conditions, including high and low temperatures, rain, snow, ice, ice and other operating conditions.

Disclosure of invention

The specified technical result is achieved in that the composition for strengthening the soil consists of a binder and fiber. To these two required components of the proposed composition, optional components can be added in the form of known functional additives for various purposes, as well as sand as an additional optional soil additive.

As a binder, aqueous dispersions of polymers are used, for example, acrylic, styrene acrylic, butadiene, methyl and butyl acrylic components, isocyanates, vinyl acetate homo and copolymers and mixtures thereof, as well as other known aqueous dispersible polymers in the presence of water in the presence of water.

As fiber, fibers are used in lengths of at least 3 mm, for example glass fiber, basalt fiber, polymer fiber, carbon fiber, quartz fiber, basalt scales, materials containing cellulose fibers, for example, straw cross-section, flooring.

Optional components useful in this invention include known functional additives for various purposes, for example, white and colored pigments, anti-corrosion additives, surfactants, hardeners, emulsifiers, auxiliary functional monomers, buffers and neutralizing agents, preservatives and mixtures thereof, as well as other known functional additives in various combinations in order to give the proposed composite composition and products based on it additional useful properties.

The implementation of the invention

The proposed composition for strengthening the soil is predominantly two-component, that is, the mixing of the required components of the composition — the binder and the fiber — takes place in the process of strengthening the soil. Up to this point, these components of the composition are stored separately from each other in different packages. Nevertheless, they also allow the joint storage of these two components in one package. Optional components in the form of known functional additives are added to the binder, usually before packaging the binder in a container and stored in one container.

The optimal amount of binder added to the soil is from 1 to 20 kg of aqueous polymer suspension per 1 cubic meter. meter of reinforced soil. The optimal amount of fiber added to the soil is from 0.5 to 10 kg of fiber per 1 cubic meter. meter of reinforced soil. The amount of binder and fiber to be added depends on the purpose of further use of the reinforced soil.

Fiber fiber is an essential component of the inventive composition for strengthening the soil. Fiber fibers have high tensile strength, often exceeding the strength of steel, a density close to the density of binders and soil, which contributes to the uniform distribution of fiber in the binder during stirring, soil particles during packing (compaction) form close to dense packaging, while the fiber , more or less evenly distributed in the volume of soil, each of its segments is adjacent to several hundreds and thousands of particles of soil, while a separate segment of fiber is around astitsy soil inevitably becomes slightly deformed and corrugated shape, following the curvature of the surface of the soil particles and increasing the area of contact of each fiberglass with soil particles. In this case, in comparison with the adhesion force of a straight segment of a fiber with a soil particle, the effect of enhancing the cohesion of the soil and the fiber is significantly increased. In this case, the binder plays the role of glue, which binds soil particles and fiber fibers into a monolithic reinforced structure, and due to the close proximity to the dense packing of soil particles, the required binder consumption is negligible. After curing the binder, the fiber becomes the distributed reinforcement that takes up almost all the tensile loads of the soil, including shock, redistributing the latter between the filler particles associated with them, thereby increasing the impact strength of the material. Thus, the increased impact strength of the soil allows you to redistribute impact loads even from vehicles or aircraft moving at high speed during take-off and landing and maintain the shape of the pavement unchanged, avoiding the appearance of a rut with the operating time, which is found even on heavy asphalt pavement.

Another positive effect is that an accidental crack that has arisen in the reinforced soil is contracted by fibers crossing the crack, which play the role of “squeezing” condensate from the crack and prevent the thermocyclic development of cracks.

Promising for agricultural purposes is the use of straw fiber and flooring as fiber, which contain cellulose fibers and are practical fibers for many applications, although lignin and other organic components are a nutrient medium for soil microorganisms that decompose them, due to which the service life of straw-reinforced soils is limited . At the same time, the use of polymer binders significantly slows down this process, and "straw currents" have a chance of service for several years without major repairs. In addition, the repair of such currents will consist of mixing local soil with the same straw section and a small amount of binder and sealing potholes and cracks. To increase the service life of straw fiber, it is possible to pre-impregnate it with the same composition of the aqueous dispersion of the binder as the soil.

The addition of fiber to reinforced with well-known water-soluble polymer binder soils increases the strength and durability of soils, the service life of soil coatings, structures and shaped products based on reinforced soils.

Strengthening the soil using the composition according to the invention is carried out by preliminary loosening the soil to a depth of 5 to 30 cm and breaking up large lumps of soil, and the greater the thickness of the soil to be strengthened, the greater the load can withstand the strengthened soil. Then fiber is introduced into the loosened soil, the loosened soil is mixed in order to evenly distribute the fiber in the soil volume, at the same time, the soil is moistened, the amount of water in which depends on the natural and optimal soil moisture. After that, a polymer binder in the form of an aqueous polymer suspension is added (sprayed) to the moistened, loosened mixture of soil and fiber, mixed, leveled, and rolled (compacted) the resulting mixture. Reinforced soil can be used after 2 hours. Reinforced soil reaches maximum hardness within 1-5 days, depending on ambient temperature and humidity. In order to reduce the consumption of a binder, sand can be used as an optional additive mainly to clay soil.

Road construction according to the invention does not require moving large masses of materials. For example, in the traditional construction of 1 square. from 0.1 to 1 ton of various materials — gravel, crushed stone, sand, asphalt, cement, and other materials — it is required to drive a meter of road, and according to the invention, practically equal quality and quantity of pavement is achieved by strengthening local soil with several kilograms of fiber and a binder.

In the construction of soil structures, such as yards, paths, paths, house slopes, other lightly loaded sections of the fortified soil surface, operations are performed with known tools and devices, for example, a hoe, rake, bucket, watering can, hand sprayer, as well as other manual, electrical and mechanical tools and devices.

Structural and shaped products based on reinforced soil are obtained by filling a mold with a mixture of soil, water, fiber, and a binder. Such products can be, for example, tiles of various shapes with a thickness of 2 cm or more, molded, for example, in plastic reusable molds in a known manner. Forms can be reused within a few hours, without waiting for a complete set of strength products, which allows one or a team of several road builders or on their own site to build yards and paths, having several dozen forms.

Industrial applicability

The low cost and low consumption of components of the composite composition for strengthening the soil reduce procurement and transportation costs, reduce labor costs, and quickly and efficiently organize structures for various purposes from reinforced soil - from garden paths on a summer cottage to platforms for agricultural machinery, currents, runways, roads for automobile transport, etc.

Claims (5)

1. A composite composition for strengthening the soil, containing a binder, including aqueous dispersions of polymers that are cured in air in the presence of water, characterized in that the composition for strengthening the soil includes a fiber selected from the group of fibers in segments of at least 3 mm long, which include glass fiber, basalt fiber, polymer fiber, carbon fiber, quartz fiber, basalt scales, cellulose fibers. 2. The composition for strengthening the soil according to claim 1, characterized in that the amount of binder added to the soil is from 1 to 20 kg of an aqueous polymer suspension per 1 m ^{3 of} soil to be strengthened. 3. The composition for strengthening the soil according to claim 1, characterized in that the amount of fiber added to the soil is from 0.5 to 10 kg of fiber per 1 m ^{3 of} reinforced soil. 4. The composition for strengthening the soil according to claim 1, characterized in that the composition further comprises functional additives: white and colored pigments and / or anti-corrosion additives, and / or surfactants, and / or hardeners, and / or emulsifiers and / or auxiliary functional monomers and / or buffering agents and / or neutralizing agents and / or preservatives, as well as mixtures thereof in any combination. 5. The composition for strengthening the soil according to claim 1, characterized in that the composition further comprises sand.