RU2712686C1 - Modified bitumen binder - Google Patents

Abstract

FIELD: technological processes.

SUBSTANCE: invention relates to modified bitumen binder for asphalt-concrete mixtures, roofing and insulating materials. Binder contains bitumen and a modifier containing bitumen, rubber crumbs from crumbled spent automobile tires, a structure-forming agent and hydrocarbon oil. Modifier, which is 3.0–10.0 wt% of bitumen, additionally contains saturated low-molecular carbon-chain rubber, unsaturated high-molecular carbon-chain rubber. Hydrocarbon oil is industrial oil with ignition temperature of not lower than 220 °C, and the rubber crumb has a size of not more than 1.5 mm and a specific geometrical surface value of not less than 7,000 cm²/g. Structure-forming agent used is textile corduroy lint in the form of randomly grouped amorphous lumpy structures of monofilament segments of textile corduroy of recycled car tires with length of not more than 10.0 mm and diameter of not more than 0.1 mm, wherein pieces of textile cord monofilaments have random spatial zigzag shape.

EFFECT: technical result consists in improvement of quality of asphalt-concrete coatings and elasticity of insulating and roofing materials, improvement of universality of modified bitumen binder to types of mineral fillers.

1 cl, 8 tbl

Description

The invention relates to the field of road-building and building materials, namely, bitumen binders for asphalt mixtures for the construction of coatings for roads, bridges and overpasses, as well as for insulating and roofing materials.

The well-known "Additive for crushed stone and mastic asphalt concrete" (patent for the invention of the Russian Federation No. 2222559, IPC C08L 95/00, 2004), including astringent, rubber crumb, mineral oil and polymer, while using a bitumen emulsion as a binder, as the polymer is used polyacrylamide and in addition, cellulose fibers and aluminosilicate are used as a structural agent in the following ratio of composition components, mass. %:

cellulose fiber 40.0-60.0 rubber crumb 15.0-20.0 aluminosilicate 10.0-15.0 mineral oil 3.0-5.0 polyacrylamide 3.0-5.0 bitumen emulsion the rest is up to 100%

The disadvantage of this additive is the short duration (30 minutes) of the manufacturing process, which even with vigorous stirring does not allow for deep devulcanization of rubber crumb and, therefore, does not provide the required quality of the binder.

It is known “Concentrated polymer bitumen binder for“ dry ”input and a method for its production” (patent for invention of the Russian Federation No. 2638963, IPC C08L 95/00, С04В 26/26, 2017), adopted as a prototype, which is a mixture of polymer bitumen binder and structure-forming agent and mineral components in the following ratio of components, mass. %:

polymer bitumen binder 65.0-75.0 builder 15.0-25.0 mineral components 10.0-25.0

polymer bitumen binder consists of bitumen, plasticizer, SBS polymer, crushed rubber and a reagent to increase the uniformity and activity of the polymer bitumen binder in the following ratio of components, mass. %:

plasticizer 5,0 SBS polymer 1.5-2.0 crushed rubber 20.0-25.0 uniformity reagent and polymer binder activity 1.0-2.0 bitumen the rest is up to 100%

The disadvantage of this concentrated polymer bitumen binder lies in the considerable duration (up to 4 hours) of the process of its preparation, which leads to an increase in energy costs, while the quality of the binder may decrease due to the inability to control the processes of devulcanization and destruction of rubber crumb.

The technical result of the invention is to increase the efficiency of the process of preparing a modified bitumen binder, to accelerate it, to improve the quality of asphalt concrete coatings and the elasticity of insulating and roofing materials, as well as to increase the versatility of the modified bitumen binder to types of mineral fillers.

The technical result is achieved by the fact that the modified bitumen binder includes bitumen and a modifier containing bitumen, crumb rubber from shredded used car tires, a builder and hydrocarbon oil, with a modifier of 3.0-10.0 mass. % of bitumen, additionally contains saturated low molecular weight carbochain rubber, unsaturated high molecular weight carbochain rubber, industrial oil with a flash point of at least 220 ° C is used as hydrocarbon oil, and crumb rubber has a size of not more than 1.5 mm and a specific geometric surface of at least 7000 cm ² / g, as structurant used textile cord in the form of fluff grouped randomly into amorphous lumpy structure textile filaments segments to lard recycled automobile tires no longer than 10.0 mm and a diameter of not more than 0.1 mm, the lengths of textile cord filaments have a random three-dimensional shape of a zigzag, with the following ratio of modifier components by weight. %:

rubber crumb 50.0-70.0 hydrocarbon oil 10.0-20.0 textile cord down 10.0-20.0 saturated low molecular weight carbochain rubber 0.5-2.0 unsaturated high molecular weight carbolic rubber 0.5-2.0 bitumen the rest is up to 100%

The inventive modified bitumen binder includes rubber crumb obtained by additional mechanical grinding in the rollers of the original rubber crumb in a pair of rolls rotating with different linear speeds with a ratio of linear speeds of conventional points on the outer surfaces of the pair of rolls of at least 1:10.

The composition of the claimed modified bitumen binder in order to enhance the swelling of rubber crumb includes industrial oil with a kinematic viscosity at 40 ° C of not more than 61-75 mm ² / s and a density of 20 ° C of not more than 900 kg / m ³ , for example, industrial oil I-40A.

Saturated low molecular weight carbochain rubber (e.g., polyisobutylene) and unsaturated high molecular weight carbochain rubber (e.g., isoprene synthetic rubber SKI-3) are used to improve the adhesion ability of bituminous binder to various types of mineral fillers, asphalt concrete mixes, and also to increase the strength and strength.

Saturated low molecular weight carbochain rubber and unsaturated high molecular weight carbochain rubber are pre-dissolved in industrial oil by mixing in a dissolver at a temperature of 130-150 ° C for 1-2 hours.

The resulting solution of rubbers in industrial oil is used to activate the surface of crushed rubber crumbs in a high-speed mixer for 10-100 seconds.

The activated rubber crumb is aged for 10-28 hours at an outdoor temperature of 15-25 ° C.

After aging in a high-speed mixer for 30-200 seconds with bitumen heated to a temperature of 140-160 ° C, and textile cord down formed during grinding of used car tires, regardless of the method of mechanical grinding. Before mixing, the textile cord fluff is de-agglomerated to the state of individual segments of textile cord monofilament in a high-speed mixer.

As a result, activated rubber crumb is encapsulated with bitumen, for example, BND 60/90 or BND 90/130 according to GOST 22245-90., I.e. acquires the properties of affinity for any type of bitumen. The resulting mixture is granulated to prevent caking of the modifier (M) during transportation. Then M is mixed with bitumen, for example, BND 60/90 or BND 90/130 according to GOST 22245-90 at a temperature of 150-170 ° C for 10-30 seconds.

Textile cord fluff significantly increases the viscosity of the modified bitumen binder, and its low cost (≈3-5 rubles / kg) has a positive effect on the production efficiency of the modified bitumen binder. The random spatial zigzag shape of the segments of monofilament in textile cord down, which is a consequence of the features of mechanical grinding of car tires, significantly enhances its reinforcing effect on the bitumen binder.

In the industrial production of modified bitumen binder, the installed capacity of equipment with a capacity of 400 kg / h does not exceed 150 kW.

Table 1 presents the test results of the physicomechanical properties of the SchMA-10 asphalt mixture when 5% of the mass of bitumen M is added to the bitumen binder with the following ratio of components, mass. %:

rubber crumb 60.8 industrial oil I-40A 12.8 isoprene synthetic rubber SKI-3 0.8 polyisobutylene 1,6 textile cord down 14.9 bitumen 9.1

Table 2 presents the results of a study according to GOST 33143-2014 of the influence of M with the above ratio of components on the Fraas fragility temperature of bitumen BND 60/90 and BND 90/130.

The test results shown in tables 1 and 2 confirm that when using a modified bitumen binder for the preparation of asphalt concrete mixture, an increase in its compressive strength and a decrease in water saturation, as well as an increase in its frost resistance, are provided, i.e. improves the quality of the asphalt mixture and roofing and insulating materials by increasing the elasticity of the bitumen binder.

The modified bitumen binder is universal in relation to the known types of mineral fillers of asphalt concrete mixtures.

Table 3 presents the results of a study according to GOST 12801-98 of the influence of the composition of a bitumen binder (base - BND 60/90) on the adhesion quality of a bitumen binder to the surface of crushed stone (granite, 10-20 mm, Karelia).

Table 4 presents the results of a study according to GOST 12801-98 of the influence of the composition of a bitumen binder (base - BND 60/90) on the adhesion quality of a bitumen binder to the surface of crushed stone (limestone, 10-20 mm, Kirov).

Table 5 presents the results of a study in accordance with GOST 12801-98 of the effect of the composition of a bitumen binder (base - BND 60/90) on the adhesion quality of a bitumen binder to the surface of crushed stone (limestone, 10-20 mm, Khromtsovsky quarry, Ivanovo region).

Table 6 presents the results of a study according to GOST 12801-98 of the influence of the composition of a bitumen binder (base - BND 100/130) on the adhesion quality of a bitumen binder to the surface of crushed stone (granite, 10-20 mm, Karelia).

It has been established that the use of the claimed modified bitumen binder increases the adhesion quality of the bitumen binder to the surface of crushed stone, both in comparison with pure bitumen and in comparison with the use of an adhesive additive “Azol 1002” for bitumen.

At the same time, after lodging for 13 days, the adhesion quality of the modified bitumen binder to the crushed stone surface increased.

Table 7 presents the results of a study according to GOST 11506-73 of the influence of M on the softening temperature of a modified bitumen binder based on BND 60/90.

It has been established that the addition of M to a bitumen binder significantly increases its softening temperature by increasing the elasticity of the bitumen binder.

Table 8 presents the results of a study according to GOST 11503-74 of the influence of the M content on the conditional viscosity of a modified bitumen binder based on BND 60/90.

It was established that an increase in the M content in the composition of the modified bitumen binder causes an increase in its nominal viscosity and, as a result, significantly reduces the runoff of bitumen from the surface of mineral fillers in asphalt mixtures.

Thus, taking into account the low energy intensity of the technological process of preparing a modified bitumen binder, as well as the simplicity of its implementation and the short duration of the process, the implementation of the proposed technical solution allows for high production efficiency, quality of asphalt mixes and roofing and insulating materials, as well as the versatility of the modified bitumen binder for types mineral fillers.

Claims (2)

Modified bitumen binder for asphalt mixtures, roofing and insulating materials, including bitumen and a modifier containing bitumen, crumb rubber from shredded used car tires, a structural agent and hydrocarbon oil, characterized in that the modifier is 3.0-10.0 wt.% from bitumen, additionally contains saturated low molecular weight carbochain rubber, unsaturated high molecular weight carbochain rubber, industrial oil with a temperature used as a hydrocarbon oil the ignition is not lower than 220 ° C, and the crumb rubber has a size of not more than 1.5 mm and a specific geometric surface of not less than 7000 cm ² / g, textile cord fluff is used as a structure former in the form of segments of textile monofilaments randomly grouped into amorphous lumpy structures cords of recycled car tires with a length of not more than 10.0 mm and a diameter of not more than 0.1 mm, while the segments of monofilament textile cord have a random spatial zigzag shape, with the following ratio . Onentov modifier, wt%: rubber crumb 50.0-70.0 hydrocarbon oil 10.0-20.0 textile cord down 10.0-20.0 saturated low molecular weight carbochain rubber 0.5-2.0 unsaturated macromolecular carbochain rubber 0.5-2.0 bitumen the rest is up to 100%.