RU2789291C1 - Structuring additive for bitumen-concrete mixes - Google Patents

Abstract

FIELD: road construction.

SUBSTANCE: invention relates to road-building materials, namely additives for bitumen-concrete mixes, which are used in the construction, operation, reconstruction and overhaul of transport infrastructure facilities in all climatic zones. The additive is made in the form of granules with a length of 3-25 mm and consists of binder and non-calcined petroleum coke with a particle size of less than 2 mm in an amount of up to 100 wt. %, and particle size less than 0.063 mm in an amount of at least 55 wt. %, in the amount of 70 to 90% in the composition of granules.

EFFECT: possibility of replacing bitumen binder with a structuring additive in the production of bitumen-concrete mixes while simultaneously improving a number of characteristics of bitumen concrete: the coefficient of water resistance, resistance to rutting and strength, as well as reducing the cost of manufacturing bitumen-concrete mixture.

1 cl, 2 tbl, 7 ex

Description

The invention relates to road building materials, namely to additives for asphalt mixtures, which are used in the construction, operation, reconstruction and overhaul of transport infrastructure facilities in all climatic zones.

Know the use of various additives for asphalt mixtures.

Known invention according to the patent of the Russian Federation No. 2754902 "Petroleum coke for asphalt mix", selected as a prototype, IPC C04B 26/26, C08L 95/00, C08K 3/04, publ. 09/08/2021. This patent describes petroleum coke intended for use in asphalt mixes, which consists of coke powder mechanically activated at a temperature of 30–70 °C with a particle size of 1–5 µm.

Based on the description of patent No. 2754902, it can be concluded that the claimed technical solution provides physical and mechanical characteristics when the content of coke powder in the asphalt concrete mixture is 8% of the total mass, while the particle sizes are in the range from 1 to 5 microns. The indicators indicated in the description confirm the increase in the main characteristics of the asphalt concrete mixture when using coke powder in comparison with the analogue. Thus, the advantages of the known technical solution are:

1. Significant improvement in physical and mechanical properties: the values of ultimate strength at 20 °C improved from 4.3 MPa to 4.6 MPa, and at 50 °C - from 1.5 MPa to 1.7 MPa.

2. Improvement of the water saturation index: when using coke powder, the water saturation index was 1.5%, which is much higher than the analogous indicator equal to 3.6%.

At the same time, the disadvantage of the known technical solution is the impractical value of fineness, not only from a technological, but also from an economic point of view, since the production of particles with a size of 1–5 microns during the grinding of petroleum coke on an industrial scale requires a complex technological process, as well as significant capital and operational costs. In addition, the measurement and control of such a particle size requires the use of complex expensive equipment, which is not equipped with construction laboratories of organizations involved in the production and quality control of asphalt concrete mixtures.

Known patent of the Russian Federation for the invention No. 05/31/2021, IPC C04B26 / 26, C08L95 / 00, selected as a prototype. Known modifier for asphalt mix is a granule consisting of mechanically activated petroleum coke with a dispersion of 10 to 15 microns in the amount of 70 wt. % and a mixture of oil road bitumen with polyethylene oxidized wax in the amount of 30 wt. %, with a mass ratio of wax : bitumen = 1 : 30, respectively.

Specified in the description of patent No. 2748791 indicators confirm the improvement of the main characteristics of the asphalt mixture when using the modifier compared to the analog in question. Thus, the advantages of the known technical solution are:

- reduction of water saturation from 2.74 to 1.5;

- increase in the water resistance of the asphalt concrete mixture from 0.93 to 0.97 with the requirement of GOST not less than 0.85;

- increase in the compressive strength of asphalt concrete at 50 °C from 1.15 to 1.25 with the GOST requirement of at least 1.0;

- increase in crack resistance at 0 °C from 3.8 to 4.5.

At the same time, the disadvantage of the known modifier is the impractical value of the dispersion of petroleum coke, not only from a technological, but also from an economic point of view, as well as the limited use of binders, in particular, the use of bitumen with oxidized polyethylene wax in the amount of 30 wt. % at a mass ratio of wax: bitumen = 1: 30.

Solved technical problem is an unreasonable value of dispersion of petroleum coke, since obtaining such a value is difficult to achieve not only from the point of view of technology, but also not justified from an economic point of view, in addition, there are difficulties in using binders, in particular, bitumen with oxidized polyethylene wax in the amount of 30 wt . %, subject to the mass ratio of wax : bitumen = 1 : 30.

In addition, not only road bitumen, but also construction, insulating, roofing and other purposes are indicated as oil bitumen used to obtain a modifier - the use of an additive for an asphalt concrete mixture, in which the use of other types of bitumen as a binder, in addition to road bitumen, can lead to increased stiffness of asphalt concrete and, as a result, to a decrease in crack resistance. It should also be noted that this invention does not indicate the optimal amount of modifier introduced into asphalt concrete, with which an increase in the main characteristics of the asphalt concrete mixture is achieved.

Technical result the proposed technical solution is the possibility of replacing the bituminous binder with a structuring additive in the production of asphalt concrete mixtures while improving a number of asphalt concrete characteristics: water resistance coefficient, resistance to rutting and strength, as well as reducing the cost of manufacturing an asphalt concrete mixture.

The specified technical result is achieved through the use of a structuring additive for asphalt concrete mixtures, made in the form of granules 3–25 mm long, consisting of a binder and non-calcined petroleum coke with a particle size of less than 2 mm in an amount of up to 100 wt. % and the content of particles with a size of less than 0.063 mm in an amount of not less than 55 wt. % with a content of 70 to 90% in the composition of the granules.

The composition of the granules can also include special fillers - binders and additives, for example, viscous petroleum bitumen (BND), binders in the form of bitumen modified with organic additives and / or polymer-bitumen road binder based on various polymers, and more.

The use of a structurant in the form of granules with a length
3 - 25 mm for asphalt mixtures allows:

- save up to 10% of the required bituminous binder in the composition of the asphalt concrete mixture;

- increase the coefficient of water resistance, including the coefficient of long-term water resistance, in some cases improve the resistance to the formation of plastic deformations up to 100%, have a positive effect on the strength characteristics of asphalt concrete.

The following are specific examples of the implementation of the claimed technical solution.

The applicant obtained the claimed structuring additive in the form of 3-25 mm long granules for asphalt mixtures consisting of a binder and non-calcined petroleum coke with a content of particles smaller than 2 mm up to 100 wt. % and the content of particles smaller than 0.063 mm is not less than 55 wt. % in an amount of 70 to 90% in the composition of the granules.

Also, some granules include special binders and additives.

Example 1. Structuring additive in the form of granules 3-25 mm long for asphalt mixtures, consisting of uncalcined petroleum coke with a content of particles smaller than 2 mm up to 100 wt. % and the content of particles smaller than 0.063 mm is not less than 55 wt. % in an amount of 75% in the composition of granules and a binder in the form of bitumen oil road viscous BND.

Example 2. Structuring additive in the form of granules 3-25 mm long for asphalt mixtures, consisting of uncalcined petroleum coke with a content of particles smaller than 2 mm up to 100 wt. % and the content of particles smaller than 0.063 mm is not less than 55 wt. % in an amount of 75% in the composition of granules and a binder in the form of bitumen modified with organic additives and / or polymer-bitumen road binder based on various polymers.

Example 3. Structuring additive in the form of granules 3-25 mm long for asphalt mixtures, consisting of uncalcined petroleum coke with a content of particles smaller than 2 mm up to 100 wt. % and the content of particles smaller than 0.063 mm is not less than 55 wt. % in an amount of 80 to 90% in the composition of granules and a binder in the form of a wax-like mixture of saturated hydrocarbons, as well as fat-like substances of natural or synthetic origin.

Example 4 Structuring additive in the form of granules 3-25 mm long for asphalt mixtures, consisting of uncalcined petroleum coke with a content of particles smaller than 2 mm up to 100 wt. % and the content of particles smaller than 0.063 mm is not less than 55 wt. % in an amount of 80 to 90% in the composition of granules and binders in the form of a mixture of hydrocarbon resins, an ethylene polymer with a predominant structure, a repeating component and / or a wax-like and / or wax-like mixture of saturated hydrocarbons, as well as fat-like substances of natural or synthetic origin.

Example 5. Structuring additive in the form of granules 3-25 mm long for asphalt concrete mixtures, consisting of uncalcined petroleum coke with a content of particles smaller than 2 mm up to 100 wt. % and the content of particles smaller than 0.063 mm is not less than 55 wt. % in an amount of 80 to 90% in the composition of granules and binders in the form of a mixture of materials obtained by vulcanization of natural and / or synthetic rubber, various petroleum oil fractions, including the use of vegetable oils and fats.

Example 6. Structuring additive in the form of granules 3-25 mm long for asphalt concrete mixtures, consisting of uncalcined petroleum coke with a content of particles smaller than 2 mm up to 100 wt. % and the content of particles smaller than 0.063 mm is not less than 55 wt. % in an amount of 60 to 86% in the composition of granules and binders in the form of a mixture of secondary and / or primary cellulose from 10 to 30%, ethylene polymer in an amount of 3 to 12% and hydrocarbon resin from 1 to 7%.

Example 7. Structuring additive in the form of granules 3-25 mm long for asphalt mixtures, consisting of uncalcined petroleum coke with a content of particles smaller than 2 mm up to 100 wt. % and the content of particles smaller than 0.063 mm is not less than 55 wt. % in an amount of 60 to 86% in the composition of granules and binders in the form of a mixture of secondary and / or primary cellulose from 10 to 30%, an ethylene polymer in an amount of 3 to 12% and a plasticizing component from 1 to 7%.

The inventive structuring additive was also tested both in the compositions of the hot dense fine-grained asphalt concrete mix type B, grade I according to GOST 9128, and in the composition of the A16Vn asphalt concrete mixture according to GOST R 58406.2.

The results of the tests carried out on the use of a structurant in the form of granules are presented in Tables 1 and 2.

It was found that the use of the proposed structuring additive for asphalt concrete mixtures in the composition of A16Vn asphalt concrete significantly increased its resistance to plastic deformation (reduction of the average rut depth by 10-50%), increased the water resistance coefficient, including the coefficient of long-term water resistance. At the same time, all other properties of A16Vn asphalt concrete did not change significantly. The studies conducted in the composition of fine-grained dense asphalt concrete type B grade I showed an increase in resistance to plastic deformation (reduction of the average rut depth by 25-41%), an increase in compressive strength at a temperature of 20°C and 50°C up to 70%, an increase in the coefficient of water resistance, while the rest of the properties did not change significantly

Thus, the tests carried out confirmed that the use of a structurant additive consisting of non-calcined petroleum coke with a content of particles smaller than 2 mm - 100 wt. % and the content of particles smaller than 0.063 mm is not less than 55 wt. % and various binders, as part of asphalt concrete allows:

- replace with this additive up to 10% of the bituminous binder used;

- increase the resistance of asphalt concrete to plastic deformations at elevated temperatures of its operation;

- increase the water resistance of asphalt concrete, including long-term, that is, corrosion resistance;

- increase strength indicators;

- increase the durability and preservation of the operational properties of the road surface.

Thus, the claimed technical result was achieved, namely, the improvement of a number of characteristics of asphalt concrete: the coefficient of water resistance, resistance to rutting, strength, and others, as well as reducing the cost of manufacturing an asphalt concrete mixture using a structuring additive in the form of 3-25 mm long granules for asphalt concrete mixtures , consisting of a binder and non-calcined petroleum coke with a content of particles smaller than 2 mm to 100 wt. % and the content of particles smaller than 0.063 mm is not less than 55 wt. % in an amount of 70 to 90% in the composition of the granules, while the granules may include special binders and additives. At the same time, the use of a structuring additive does not change the temperature-time intervals for the preparation and laying of asphalt concrete mixtures and does not require the use of additional special equipment.

Structuring additive for asphalt mixes

Table 1

Structuring additive for asphalt mixes

table 2

Claims (1)

Structuring additive for asphalt concrete mixtures, made in the form of granules 3-25 mm long, consisting of a binder and non-calcined petroleum coke with a content of particles less than 2 mm in an amount of up to 100 wt.% and a content of particles less than 0.063 mm in an amount of at least 55 wt .% with a content of 70 to 90% in the composition of the granules.