FR2662191A1 - Composition for impregnating the base layers of highway bodies for the effective adhesiveness of the surface course - Google Patents

Abstract

The composition comprises essentially a water-soluble resin of the furan or phenolic type and its hardener of acidic type in a proportion such that the quantity of hardener is at least just that necessary and sufficient to obtain the crosslinking of the resin at the time when the two constituents are brought together. The solution contains from 20 to 40 % by weight of water relative to the solution and optionally a viscosity modifier, especially of polysaccharide type. The hardener consists of an aqueous solution of an inorganic, hydrochloric, sulphuric or phosphoric acid or, better, a sulphonic organic acid to which a wetting agent is optionally added. To produce the impregnating layer, the aqueous solution of resin is spread over the support, followed by the hardener after this solution has been absorbed by the support.

Description

"Composition for impregnating the base layers of
pavement body for effective grip of the
wearing course "
The present invention relates to the impregnation of the base layers of pavement bodies allowing effective adhesion of the final coating layer or wearing course.

 In road construction, the body of roads is increasingly produced using materials linked by hydraulic binders such as cements, granulated slag, fly ash, pozzolans and the like.

 After having used only rather coarse bass (0/40 or 0 / 20J) for a long time, we now very often use finer materials such as sands, sand and more or less plastic silts.

 In the case of gravel, the bonding or adhesion between the support they constitute and the layer of the final coating or wearing course which is generally made of bituminous concrete is ensured by a thin layer of bitumen. This layer is produced by spreading the bitumen over a small thickness either in the form of hot bitumen, or in the form of lukewarm cut-back, or in the form of emulsion; after breaking of the latter or evaporation of the solvents from the cut-back, it is noted that the bitumen has penetrated more or less deeply into the support and that it sticks to the aggregates which constitute this support. It is on the surface of these aggregates thus previously coated that we then apply the layer of bituminous concrete spread hot and which sticks and adheres effectively to this support.

 Now it turns out that this technique no longer gives the expected result due to the widespread use of increasingly fine materials. The preponderant element of these materials is constituted by the mortar which is constituted by the mixture of fine elements and hydraulic binder. The channels filled with air or water available in such a mortar have diameters smaller than those of the bitumen micelles so that the latter, even applied in the form of an emulsion, no longer penetrates within the support. It then forms only a kind of "skin" adhering poorly or only adhering very weakly to this support. It cannot therefore effectively ensure the bonding of the final coating layer or wearing course.

 The present invention therefore proposes to provide an impregnation layer of the support which allows effective bonding of the final coating layer or wearing layer.

 Such a layer is, in accordance with the invention, obtained from an aqueous composition essentially comprising a water-soluble resin of the furan or phenolic type and its hardener of the acid type in a proportion such that the quantity of hardener is at least just necessary and sufficient to obtain crosslinking of the resin when these two constituents are brought into contact with one another.

 According to another characteristic of the invention, such a composition can admit the presence of an agent acting in the direction of increasing the viscosity of the aqueous solution of the water-soluble resin.

 Indeed, if a composition of resin and acid hardener is used on a support whose nature is basic, the acid would attack this support; there would thus be unnecessary consumption of hardener and weakening of the surface layer called to receive the final coating. It is to avoid this drawback that the composition according to the invention will contain the viscosity modifying agent. As an agent which may be suitable for this purpose, mention will be made of polysaccharides or polyacrylamides.

 The present invention also covers the process for producing the impregnation layer of the support in order to adhere the layer of the final coating according to this process; an aqueous solution of resin optionally added with the viscosity modifying agent is spread over the support to be treated, then after having allowed the support to absorb, the hardener is applied.

According to other characteristics
- The aqueous resin solution has a resin concentration of between 20% by weight of water for 80% by weight of resin and 40% by weight of water for 60% by weight of resin.

 - The hardener consists of an aqueous solution of a mineral acid of the hydrochloric, sulfuric or phosphoric type, or organic of the sulfonic type. The latter is the most effective. Its action can be further improved by introducing a surface tension lowering agent.

 - The proportion by weight of viscosity modifier is between 0.2% and 0.4% of the weight of pure resin.

 Practically this proportion will be adjusted as a function of the depth of penetration of the resin that it is desired to obtain within the support considered. The aqueous mixture in fact enters the support through the fine channels which the support has.

 It was thus observed that on a support based on silt treated with cement, an aqueous solution at 80% by weight of resin penetrated 4 cm. On the other hand, with the same solution added with 0.25% of an agent chosen from the class of polysaccharides or polyacrylamides, the penetration was found to be limited to approximately 3 mm.

 According to the process of the invention, when the surface of the treated support is no longer wet and has absorbed all of the resin mixture plus viscosity agent, the hardener is sprayed in an amount at least sufficient to ensure the crosslinking of the resin on the penetration thickness. When the acid is thus applied, there is no attack on the impregnated support. On the other hand, intense bubbling is observed if the acid overflows from the area impregnated with the resin which, with the viscosity agent possibly present, protects the support from the attack of the acid; the latter is thus completely available for the crosslinking of the resin.

 A hard surface layer is thus obtained in which the grains of the support are no longer easily displaceable. On such a support thus superficially hardened, the final coating can be applied which then adheres strongly to this support.

 We can still improve the bond between the final coating and the support especially when the coating is thin (2 to 3 cm) by proceeding as follows: on the treated surface as indicated above, spread 2 to 4 liters per m2 of aggregates (2/4) previously coated with an aqueous 1% resin solution. The hardener solution (200 g / m2 hardener) is then sprayed onto these aggregates. This gives a very rough surface with small raised gravel, strongly bonded to the support.

 The resin dosage for penetration depends, of course, on the porosity of the support. With a rather solid cement-treated silt on the surface, 200 g / m2 of resin is sufficient for a penetration of 3 mm. With a more open sand or slag, the dosage will be a little higher: 300 g / m2. The hardener will preferably be a sulphonic acid with low surface tension, capable of spreading quickly over the surface coated with resin. We can further reduce its surface tension by introducing a wetting agent.

 It goes without saying that the present invention has been described for purely explanatory and in no way limitative and that any useful modification may be made to it in terms of equivalences without departing from its scope.

Claims (8)

 1. Composition for impregnating the base layers of pavement bodies allowing good adhesion of the wearing course, characterized in that it essentially comprises a water-soluble resin of the furan or phenolic type and its hardener of the acid type in such a proportion that the quantity of hardener is at least just necessary and sufficient to obtain the crosslinking of the resin at the time of the bringing together of these two constituents.  2. Impregnation composition according to claim 1, characterized in that it further comprises an agent acting in the direction of increasing the viscosity of the aqueous solution of said water-soluble resin.  3. Impregnating composition according to claim 2, characterized in that said viscosity modifying agent is chosen from polysaccharides or polyacrylamides.  4. Impregnation composition according to any one of claims 1 to 3, characterized in that the aqueous resin solution has a resin concentration of between 20% by weight of water for 80% by weight of resin and 40 % by weight of water for 60% by weight of resin.  5. Composition according to any one of claims l to 4, characterized in that the hardener consists of an aqueous solution of a mineral acid of the hydrochloric, sulfuric or phosphoric type, or organic of the sulfonic type.  6. Composition according to claim 5, characterized in that the hardener consists of an organic acid of sulfonic type to which is added a surface tension reducing agent.  7. Composition according to any one of claims 2 to 6, characterized in that the proportion by weight of the viscosity modifying agent is between 0.2% and 0.4% of the weight of resin.  8. Method for producing the impregnation layer of a road support with a view to adhering the layer of a final coating, characterized in that it consists in spreading on said support an aqueous resin solution according to the any of claims 1 to 7, allowing the support to absorb said aqueous solution and then applying the hardener of said resin.