RU2754709C2 - Polymer-bitumen binder and method for its preparation - Google Patents

Abstract

FIELD: construction.SUBSTANCE: invention relates to materials used in road, airfield and civil construction, namely to a polymer-bitumen binder for road and airfield pavement, which can be used for the production of organic-mineral mixtures, in particular asphalt concrete. Polymer-bitumen binder contains bitumen, a polymer of thermoplastic elastomer class - a block copolymer of butadiene and styrene (CBS) in an amount of 3.15-3.5 wt.%, a plasticizer, as which Uniplast is used in an amount of 1.5 wt.%, and a fine-disperse additive, as which shungite is used in an amount of 3-5 wt.%, where bitumen is the rest.EFFECT: increase in the homogeneity of the binder structure, improvement of its adhesion to mineral materials, cohesion, increase in the softening temperature, extensibility at 25 and 0°C and elasticity, which ultimately improves physical and mechanical properties of polymer asphalt concrete such as compressive strength at 20 and 50°C, shear adhesion, crack resistance at low temperatures.1 cl, 2 dwg, 5 tbl

Description

The invention relates to materials used in road, airfield and civil engineering, namely to polymer-bitumen binders for road surfaces, and methods for their production, can be used for the production of polymer asphalt concrete, as well as other organic-mineral mixtures.

A binder for paving is known from the prior art, obtained by mixing 85-98 wt.% Bitumen, 15-2 wt.% Branched or linear styrene block copolymer at 200 ° C-250 ° C for 15-40 minutes (EP No. 0458386 , CL C08L 95/00, 1972).

It is also known a binder for road surfaces, obtained by introducing into bitumen at a temperature of 80-200 ° C and continuous stirring of divinylstyrene block copolymers of the SBS type, taken in an amount of 0.1-10% of the mass of bitumen in the form of a 5-25% solution in light solvents (SU, AS No. 272881, publ. 0306.1970).

These binders have a sufficiently high strength, elasticity, however, in the case when there is no solvent in the binder, good alignment of the polymer with the bitumen is not observed, i.e. the structure of the binder is inhomogeneous, despite the fact that the process of its production was carried out at a temperature of 200-250 ° C. The inhomogeneous structure of the binder causes cracks in the road surface at temperatures below minus 10 ° C.

Also known is a technical solution according to RF patent No. 2038360, class. C08L 95/00, according to which, a binder for paving containing bitumen, block copolymers of alkadiene and styrene and industrial oil in the following quantitative ratio, wt%: bitumen 44.4-98.0; block copolymers of alkadiene and styrene 0.1-22.3; industrial oil 1.9-33.3. Moreover, before being introduced into bitumen, the copolymer is mixed at 80-160 ° C with industrial oil, after which the resulting mixture is introduced with stirring at 110-160 ° C into bitumen. The disadvantage of the described technical solution is the impossibility of achieving. complete homogeneity of such a binder, since the affinity of industrial oil, consisting mainly of naphthenic hydrocarbons, to block copolymers of alkadiene and styrene is low. The binder has relatively low tensile and elasticity values, as well as poor adhesion.

The closest solution in terms of the technical essence and the achieved effect is a polymer-bitumen binder (RF patent No. 2496812, IPC С08L95 / 00, publ. 27.10.2013) containing bitumen and a polymer component consisting of industrial oil nanomodified with single-walled carbon nanotubes (SWCNT) without purification from impurities of carbon and metal nanoparticles, and polymer. As a polymer component in this binder, thermoplastic elastomer is used - DST-30R-01. The ratio of the components is as follows, wt%: DST-30R-01 - 1.1-3.4; industrial oil - 2.2-9.4; SWCNT - 0.001-0.03; bitumen - the rest. The method of obtaining the described binder includes introducing a polymer component into the bitumen with stirring. Moreover, before the introduction into the bitumen, the polymer component is prepared by mixing SWCNTs with industrial oil at a temperature of 100-120 ° C and the subsequent introduction of the polymer, after which the resulting mixture is introduced into the bitumen with stirring at 120-160 ° C. The disadvantage of the known solution is the use of industrial oil, which, according to the results of recent studies, has an adverse effect on the intensity of aging of the binder (significantly accelerates aging) [Polyakova, V.I. Features of obtaining and using polymer-bitumen binders in road construction / V.I. Polyakova, S.V. Polyakova // Roads and bridges. - 2013. -No. 1 (29). - P. 277-298], therefore it is not recommended to use it as a plasticizer in the composition of a polymer-bitumen binder, as well as the use of a finely dispersed additive from expensive components. In addition, SWCNTs are used without purification from impurities, therefore, they have an inhomogeneous composition, which is difficult to obtain stable results.

The challenge facing the proposed invention is to obtain a polymer-bitumen binder for road surfaces, with a reduced amount of polymer, while maintaining and improving its physical and mechanical properties.

The problem is solved by introducing into the composition of the polymer-bitumen binder (heated to a temperature of 160 ° C) a finely dispersed filler - shungite, and as a plasticizer - Uniplast.

The technical result of the application of the proposed invention is to increase the homogeneity of the binder structure, improve its adhesion to mineral materials, cohesion, increase the softening temperature, extensibility at 25 and 0 ° C and elasticity, which ultimately improves the physical and mechanical properties of polymer asphalt concrete, such as compressive strength at 20 and 50 ° C, shear adhesion, crack resistance at low temperatures, due to the high structuring of PBB due to the introduction of shungite.

The proposed polymer-bitumen binder contains bitumen, SBS polymer (block copolymer of butadiene and styrene), plasticizer - Uniplast, and a finely dispersed additive in the form of shungite, in a component ratio,%: SBS polymer 3.15-3.5; Uniplast 1.5; shungite 3-5; bitumen - the rest. A distinctive feature in the proposed composition is the use of shungite as a finely dispersed additive. Shungite, due to the presence of fullerenes in its structure, has a high concentration of paramagnetic centers, which increase the activity of shungite in redox reactions, which, when used in polymer materials, increases their heat resistance and resistance to oxidation of the finished product (polymer asphalt concrete). In addition, shungite contains an organically soluble fraction containing up to 1.5% sulfur, which is part of organic sulfur-containing acids, alcohols, ketones, humic acid aldehydes, which can act as surfactants (surfactants) that improve adhesion to mineral material. Uniplast is used instead of the traditionally used industrial oil. It does not contain mineral oils and flammable substances, is made from a mixture of vegetable oils and organic acids processing products, is a non-volatile substance, does not adversely affect the aging rate of an organic binder.

The method of preparation of the proposed binder is as follows.

First, on the basis of a polymer-bitumen binder prepared according to the standard procedure with the Uniplast plasticizer, a polymer-bitumen binder is prepared containing 25-50% shungite in relation to the mass of PBB. For this purpose, PBB is heated to a temperature of 160 ° C, shungite is introduced into this mass, then the mixture is stirred for 5 minutes. After that, the rest of the PBB, prepared on the basis of SBS and Uniplast, is introduced into the resulting composition until the concentration of shungite in it is 3-5% and finally mixed at a temperature of 160 ° C until smooth.

Table 1 shows the compositions of the samples of the prepared polymer-bitumen binders, in table 2 - the compositions of the PMBs prepared on their basis, filled with shungite. Table 3 shows the test results of samples No. 1-12 in comparison with the prototype.

As you can see, the proposed binder surpasses the prototype in extensibility at 0 ° C and at 25 ° C, elasticity at 25 ° C, softening temperature and cohesive strength, while complete homogeneity of the binder is achieved due to the introduction of shungite, which was evaluated by micrographs, Fig. 1- 2.

It also follows from Table 3 that an increase in the amount of shungite by more than 5% in the composition of PBB is impractical, although the introduction of 10% of shungite makes it possible to obtain an astringent that meets the regulatory requirements, however, the index of the penetration depth of the needle (penetration) does not correspond to the declared brand of PBB 60. When using shungite in In the amount of 3%, this indicator is at the lower limit of the GOST requirements, therefore, a decrease in the amount of filler is also impractical.

The study of the effect of PBB, based on SBS thermoplastic elastomer, filled with shungite, on the properties of the road surface was carried out using the example of polymer asphalt concrete. Were molded samples of polymer asphalt concrete with a polymer concentration of SBS 3.5 and 3.15%, containing 5% shungite (the most rational concentration). The compositions are presented in table 4.

The effect of shungite on the properties of the polymer asphalt concrete mixture is presented in Table 5.

From table. 5 it can be seen that the introduction of shungite into the composition of PBB containing 3.5 and 3.15% SBS leads to an increase in strength at 20 and 50 ° C, water resistance, crack resistance and shear resistance of polymer asphalt concrete.

The introduction of 5% shungite with a decrease in the amount of SBS from 3.5 to 3.15% (composition No. 5) makes it possible to obtain polymer asphalt concrete, the characteristics of which are not inferior to those for composition No. 2, containing 3.5% SBS.

Thus, with the introduction of shungite into the PMB composition, it is possible to reduce the amount of SBS in the mixture by 10% (from 3.5 to 3.15%) without losing the quality of the polymer asphalt concrete.

Claims (2)

Polymer-bitumen binder for road and airfield pavements containing bitumen, a polymer of the thermoplastic elastomer class - a block copolymer of butadiene and styrene (SBS), a plasticizer and a finely dispersed additive, characterized in that shungite is used as a finely dispersed additive, and a plasticizer is used as a plasticizer with the following ratio of components, wt%: polymer (SBS) 3.15-3.5 plasticizer (Uniplast) 1.5 shungite 3-5 bitumen rest

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