RU2632839C1 - Stabilizing additive for crushed-mastic asphalt concrete - Google Patents

Abstract

FIELD: chemistry.

SUBSTANCE: stabilizing additive in the form of granules for crushed-mastic asphalt concrete includes a stabilizing material-mineral fibre having a capillary structure, an organic binder-bitumen and a rubber powder with the following composition ratio, wt %: stabilizing material 60-90, rubber powder 5-20, organic binder 5-20.

EFFECT: increasing the retaining effect of the additive and improving the bitumen stabilization due to delicate pressing in the granulator.

1 cl

Description

The invention relates to stabilizing additives for use in crushed stone-mastic asphalt concrete (ЩМА) used in the manufacture of highway coatings.

Bitumen and tar are the main additives in the construction (arrangement) of the upper layer of roads, bridges. However, to improve their physico-mechanical properties, namely to expand the temperature range of the road surface operability, performed using such a material, reduce brittleness and increase elasticity, bitumen is used in combination with various modifying additives, fillers.

Known stabilizing additives with an organic binder and mineral, for example chrysolite fiber (stabilizing material), due to their tubular structure, have absorbent properties [RU 2601327 C1, IPC C08L 95/00 (2006.01), 2015].

The disadvantages of these additives include the fact that during granulation, the stabilizing material experiences stresses leading to the destruction of capillary tubes, and this reduces the retention effect and affects the stabilization of bitumen.

The objective of the invention is to increase the retaining effect of the additive and improve the stabilization of bitumen due to delicate pressing in the granulator.

The problem is solved due to the fact that in the stabilizing additive in the form of granules for crushed stone and mastic asphalt concrete, including the stabilizing material — mineral fiber having a capillary structure and organic binder — bitumen, rubber powder is additionally included in the following composition ratio, wt.% : 60-90 stabilizing material; 5-20 rubber powder; 5-20 organic binder.

The introduction of rubber powder increases the holding capacity of the stabilizing material.

Different manufacturers prepare the stabilizing additive according to their technological process, but mainly as follows. The stabilizing fiber is fed by a screw into the paddle screw mixer or hopper mixer. An organic binder is also added dropwise to the screw mixer or hopper in a screw mixer, and a "spray" can be applied under pressure. Additionally, rubber powder is also fed there through a dosing screw. In the auger or mixer hopper, a mixture occurs and the prepared mixture is fed to a pellet mill, after which the obtained granules are cooled on a sieve with a cold air purge and packaged.

Introduction to the composition of the rubber powder, which serves as a load balancer during granulation, helps to maintain the integrity of the stabilizing material and thereby increases the holding capacity of the additive.

In the process of preparation of alkali-alkali mixtures, the additive is more easily mixed with other components of the mixture, which reduces the production time of the mixture at the factory.

During operation, rubber powder contributes to the elastic deformation of the road surface and increases the adhesion of tires to the canvas. Elastic deformation at positive temperature maintains the porosity of the roadway, which contributes to drainage during rain, thereby increasing the safety of the car. The organic binder acts as a plasticizer in granulation and binds the stabilizing material with rubber powder, is a water repellent and antiseptic.

Destruction of capillary tubes is excluded, which significantly increases the retention effect and improves the stabilization of bitumen.

The percentage of additives is selected by the manufacturer empirically, depending on the type of press granulator, the quality of the starting ingredients, varies by dispensers depending on the type of stabilizing fiber, organic binder, and the size of the rubber powder and is within:

60-90 - stabilizing material;

5-20 - rubber powder;

5-20 - organic binder.

Optimum ratio: 80 - stabilizing material, 10 - rubber powder, 10 - binder.

When the size of the rubber powder is 1 mm, the optimal ratio is: 80 - stabilizing material, 10 - rubber powder, 10 - binder. If the powder is less than 0.5 mm, then 90 is a stabilizing material, 5 is a rubber powder, 5 is an organic binder, if the powder is larger than 2 mm, then the percentage of stabilizing material is reduced to 60, 20% is a rubber powder, 20% is an organic binder .

In experimental tests of samples and visually through a microscope during granulation in these ratios, the fiber overwhelmingly retained its integral capillary structure and guaranteed to retain bitumen (did not allow to drain), which is what is required from a stabilizing additive.

Claims (2)

A stabilizing additive in the form of granules for crushed stone and mastic asphalt concrete, including a stabilizing material - mineral fiber having a capillary structure, an organic binder - bitumen, characterized in that it additionally includes rubber powder in the following ratio of composition components, wt.%: stabilizing material 60-90 rubber powder 5-20 organic binder 5-20