RU2713025C1 - Composition of organomineral material for making asphalt concrete pavement - Google Patents

Abstract

FIELD: construction.

SUBSTANCE: invention relates to the field of road-building mixtures and can be used to create modern asphalt concrete materials for road construction. Composition of organomineral material includes following components: crushed stone 20–60 %, mineral powder 4–12 %, basalt fiber 0.07–0.6 %, organic binder 4–12 %, sand – the rest. Basalt fiber has density of 54–240 tex and cutting length of 12–18 mm, and organic binder is a composite of two types of bitumen oil road viscous, in % of total amount of binder in mixture: bitumen of one of grades: BND 90/130, BND 60/90, BND 40/60 – 85–95 % together with bitumen of one of the following grades: BND 200/300, BND 130/200 – 5–15 %.

EFFECT: obtaining a mixture for asphalt coatings with high shear resistance, water resistance, crack resistance and ultimate strength to create a strong asphalt concrete coating.

1 cl, 4 tbl

Description

 The invention relates to the field of road-building mixtures and can be used to create modern asphalt materials for the construction of roads.

 Asphalt mixtures, depending on the viscosity of the bitumen used and the temperature when laying the pavement on the road, are divided into hot and cold. Of interest for the patented solution are cold mixtures prepared using oil road bitumen and stacked with a temperature of at least + 5 ° C, since they are cheaper than other mixtures and are used in a wide range of climatic and geographical latitudes almost all year round, with the exception of 2-3 adverse seasonal months depending on the region of use.

 Important constituent parts of any asphalt mixture are: the composition of the group of fillers, which usually contains crushed stone, sand, mineral powder (RU No. 2560364, RU No. 2351561, RU No. 2310621, RU No. 215616, RU No. 2182136, RU No. 2156227, copyright certificate SU No. 707945) and the composition of the binder group.

Among the groups of binders in the compositions for the production of asphalt concrete coatings are known binders, represented by one type of bitumen: see GOSTs, as well as binders from the above-mentioned patent documents - (RU No. 2310621, RU No. 2182136, RU No. 2351703, copyright certificate SU No. 261236) and etc.

Compound binders in asphalt mixtures are also known, which include liquid or viscous bitumens with various modifying additives - motor oil (patents: RU No. 2623748, RU No. 2625353), oil sludge (patent RU No. 2535325), stabilized binder containing, along with epoxy resin polyethylenepolyamine, divinylsterol thermoplastic and tall oil (patent RU No. 2647740). Such additives are introduced into bitumen to adjust not only its properties, but also the future pavement, namely, expanding the temperature range of the performance of asphalt concrete pavement, reducing brittleness, and increasing cracking or rutting resistance.

The disadvantages of the above mixtures is not just the increasing number of components, but also the need to use special equipment to connect them, taking into account the complex properties of some of them. As a result, an increase in labor costs entails the addition of the cost of the produced mixture.

Of particular interest are the compositions of mixtures for coatings with fibrous fillers, which make it possible to obtain reinforced asphalt concrete that is resistant to the formation of plastic deformations, as a result of which the durability of the road surfaces increases.

Known: the composition of the asphalt mixture (patent RU No. 2632839), which contains as a stabilizing additive mineral fiber having a capillary structure, and as an organic binder - bitumen and rubber powder; and also - the composition of the mixture for the preparation of asphalt concrete coating (patent RU No. 2156227), which includes stone materials, mineral powder, bitumen and reinforcing filler, which are used as basalt fibers with a length of 2-40 mm, a diameter of 150-200 microns in an amount of 0, 8-1.1% by weight of mineral materials. Also known is the composition of the asphalt mix (patent CN 107986724), which contains, in parts by weight: crushed stone - 55-95, binder - 75-105, continuous basalt fiber - 15-25 and mineral powder - 6-10.

The disadvantage of the above mixtures is the lack of a uniform distribution of long basalt fibers in the asphalt mixture. It turns out, as it turned out in the practice of the Applicant, including the tangling of long strands of basalt fibers (with the length of the cut with dimensions — see the upper part of the range ≈ 20 mm and above) in RU patent No. 2156227, which leads to the formation of clods in the mixture and further deterioration of the properties of the resulting asphalt concrete pavement, despite the expected improvement in parameters.

The closest analogue of the claimed invention is the composition of the asphalt mixture (patent RU No. 2345966), which contains crushed stone, bitumen (4.5 ÷ 6% by weight of crushed stone), solar oil (25 ÷ 30% by weight of bitumen), organic fatty acid (8 ÷ 16% by weight of bitumen), polyethylene polyamine (5 ÷ 12% by weight of bitumen), polyisocyanate (3 ÷ 7% by weight of bitumen) and basalt microfiber (3 ÷ 5% by weight of bitumen).

The disadvantage of the closest analogue is the multicomponent binder and the resulting difficulty in ensuring their harmonious combination in the overall composition of the asphalt mix. It is worth noting that basalt fiber has not yet been widely used in asphalt mixes in the Russian Federation, despite the current guidelines on the technology of reinforcing asphalt concrete coatings with basalt fiber additives for the construction and repair of roads (Approved by the decree of Rosavtodor No. OS-12-r of 11.01.2002 ) The experience of the widespread production of mixtures with additives of basalt fiber in commercially available mixers of asphalt plants in the Russian Federation is also lacking, including for the above reasons.

The objective of the invention is to obtain the composition of a cold mixture with increased shear resistance, water resistance, crack resistance and tensile strength to create a durable asphalt coating without increasing the complexity of the mixture.

The essence of the claimed invention is characterized in that the composition of the organomineral material for the manufacture of asphalt concrete coating includes hot - heated to a temperature of 140-180 ° C, crushed stone, sand, mineral powder, an organic binder with a temperature of 110-160 ° C and basalt fiber,%:

crushed stone 20-60 mineral powder 4-12 organic binder 4-12 basalt fiber with a density of 54-240 tex and a cut length of 12-18 mm 0.07-0.6 sand rest

while organic binder is a compound of two types of bitumen

viscous oil, in% of the total amount of binder in the mixture:

one of the brands: BND 90/130, BND 60/90, BND 40/60 together with 85-95 bitumen of one of the brands: BND 200/300, BND 130/200 5-15

The technical result of the claimed invention.

Distinctive features of the proposed mixture with this composition is the use of a hot binder in the form of a pair of viscous oil road bitumen: one of the grades: BND 90/130, BND 60/90, BND 40/60, heated to temperatures of 140-160 ° C, with one of grades BND 200/300, BND 130/200, heated to temperatures of 110-140 ° С, with different penetration, in combination with the use of basalt fiber with a density of 54-240 tex and a cut length of 12-18 mm as reinforcing material. The combination of any of the pairs of hot bitumen identified and compiled by the Applicant presented above with a basalt fiber of the indicated type of density and cutting is not known. A set of all components of the inventive asphalt mixture, including with crushed stone, sand, mineral powder and composite binder and basalt fiber described above, among those described in the literature and used in industry, in the claimed concentration ranges was also not previously used .

It is these differences of the claimed mixture that provide a solution to the problem posed in the invention.

A detailed presentation of the results was carried out using tables 1.1, 1.2, 1.3 and 2, where in table 1.1 is the shear resistance index for the coefficient of internal friction in MPa, table 1.2 is the shear resistance to adhesion during shear at a temperature of 50 ° C in MPa, 1.2 is the indicator tensile strength at compression at a temperature of 50 ° C, in table 2 - physical and mechanical properties of fiber-containing asphalt concrete with the addition of basalt fiber.

An experiment conducted by the Applicant to select the optimal amounts of bitumen contained in a binder and compared with existing binder compositions showed the advantages of the inventive binder in an asphalt mix. Any of the obtained pairs empirically identified by the Applicant of bitumen grades: BND 90/130, BND 60/90, BND 40/60 with one of the brands BND 200/300, BND 130/200 with a different penetration, as it turned out, optimally solve the wetting problem and the formation of a bitumen film on the surface of mineral elements and fibers in the volume of a fiber-containing asphalt mix. As a result, the problem of the formation of lumps in the mixture is eliminated, which was a stable marriage when using not optimally selected fiber lengths of fibers and ordinary fibers unprepared by special treatment, for example, without fluffing the fibers.

The choice of reinforcing basalt fiber was carried out along the way to find the optimum density and size of the fibers, which do not form lumps of threads, but are evenly distributed over the layers of the asphalt concrete mixture.

According to the results of studies of composite asphalt mixtures made using basalt fiber, we can conclude that with an increase in the density of basalt fiber to 240 tex, with an increase in length to 18 mm and compatibility of the fiber with other components, its distribution is more uniform and uniform between mineral components mixtures with an increase in tensile strength and shear stability (table 1.1, 1.2, 1.3).

 During the tests of the claimed technical result by examples, the composition of the asphalt mixture was prepared, in which the following materials were used:

 - crushed granite of the Potapovsky quarry of the Rostov region and limestone crushed stone of the Zhigulevsky quarry of the Samara region, fractions from 5 mm to 10 mm, st. 10 mm to 15 mm, st. 15 mm to 20 mm, corresponding to the requirements of GOST 9128-2013, GOST 31015-2002;

 - limestone mineral powder of the Ozinsky plant of the Saratov region, corresponding to the requirements of GOST R 52129-2003;

 - river sand produced by OJSC “Saratov River Transport Enterprise” that meets the requirements of GOST 8735-88, GOST 8736 - 2014, GOST 9128;

 - bitumen of the Saratov refinery related to viscous oil road bitumen grades BND 90/130, BND 60/90, BND 40/60, BND 200/300, BND 130/200, meeting the requirements of GOST 22245-90;

- basalt fiber manufactured by Izhbazalt LLC with a density of 54-240 tex and a cut length of 12-18 mm, having an average chemical composition (% by weight): SiO ₂ (47.5-55.0); TiO ₂ (1.36-2.0); Al ₂ O ₃ (14.0-20.0); Fe ₂ O ₃ + FeO (5.38-13.5); MnO (0.25-0.5); MgO (3.0-8.5); CaO (7-11.0); Na ₂ O (2.7-7.5); K ₂ O (2.5-7.5); P ₂ O ₅ (not more than 0.5); SO ₃ (not more than 0.5); other breeds (no more than 5). Basalt fiber is resistant to alkali, withstands temperature extremes from -260 ° C to 600 ° C and does not absorb water.

The composition of the asphalt mixture of the components in the example included:

crushed stone - 41.7%;

mineral powder - 4.74%;

 viscous bitumen BND 60/90 - 4.6%;

viscous bitumen BND 130/200 - 0.51%;

sand - 48.05%;

basalt fiber - 0.4%.

Table 2 shows the comparative characteristics of the compositions:

- without the addition of fiber;

- with the addition of basalt fiber and just one type of bitumen grade BND 60/90;

- with the addition of basalt fiber with an optimal cutting length of 15 mm and a density of 240 tex and a binder, consisting of a pair of bitumen grades BND 60/90 and BND 130/200 of different penetration.

table 2

Name of indicator Units rev. Actual physical and mechanical properties The initial mixture without fiber Mix with basalt fiber with one type of bitumen A mixture of basalt fiber with a pair of selected bitumen Water saturation of samples % 3,1 3,1 3 The compressive strength at a temperature of 20 ° C MPa 2.9 4,5 5 Tensile strength at compression at a temperature of 50 ° C MPa 1,5 2.7 3 Tensile strength at compression at a temperature of 0 ° C MPa 9.1 11.2 12 The compressive strength of water-saturated samples MPa 2.6 4 4.8 Water resistance coefficient 0.9 0.88 0.96 Shear resistance by internal friction coefficient - 0.83 0.91 0.95 Shear adhesion at shear at a temperature of 50 ° C MPa 0.4 0.59 0.74 Crack resistance MPa 4.6 5.7 6.4

 From table 2 it can be seen that the crack resistance index of asphalt concrete increases by an average of 12%, shear adhesion at shear at a temperature of 50 ° C increases by 25%, shear resistance by internal friction coefficient increases by 4%, water resistance coefficient increases by 9%, tensile strength by Compression at 50 ° C is increased by 11% compared with fiber-containing asphalt mixtures using one type of bitumen.

 For the processing of fiber, we used the FSBEI HE Saratov State Technical University named after VOLGODORTRANS developed at the Volga Educational and Research Center Gagarina Yu.A. ” a prototype installation for the production of composite fiber-containing asphalt mixes, which allows you to prepare fibrous materials (basalt, polyacrylonitrile and other types of fiber) to introduce them into the composition of asphalt mixes with the aim of reinforcing, increasing the physico-mechanical properties and durability of road surfaces. The installation includes a device for fluffing (splitting) of fiber and a device for blowing it into the mixer of an asphalt concrete plant.

Claims (5)

The composition of the organomineral material for the manufacture of asphalt concrete pavement, characterized in that it includes crushed stone heated to a temperature of 140-180 ° C, sand, mineral powder, an organic binder with a temperature of 110-160 ° C and basalt fiber,%: crushed stone 20-60 mineral powder 4-12 organic binder 4-12 basalt fiber with a density of 54-240 tex and cutting length 12-18 mm 0.07-0.6 sand rest, while organic binder is a compound of two types of bitumen viscous oil, in% of the total amount of binder in the mixture: one of the brands: BND 90/130, BND 60/90, BND 40/60 together with 85-95 bitumen of one of the brands: BND 200/300, BND 130/200 5-15