HIGH FLEXIBILITY BENTONITE PANEL . IN PARTICULAR FOR THE WATERPROOFING OF TERRAIN. AND ITS PRODUCTION PROCESS.
DESCRIPTION
Technical Field
The present invention relates to a high flexibility bentonite panel, in particular for the waterproofing of terrain and for hydraulic and construction works. The invention also relates to a process for the production of said panel . Background Art
Waterproofing panels of the above-mentioned type are already known and have in common the characteristic of comprising a layer of bentonite, in particular sodium bentonite, which in the presence of humidity becomes hydrated, swelling greatly and forming an impermeable barrier. In US-A-4048373 a panel of the above-mentioned type is disclosed in which the layer of bentonite is incorporated between two faces of a sheet of corrugated paperboard in the spaces delimitated by the intermediate corrugated sheet of said paperboard. The bentonite is in a granular form and preferably has thickening substances added to it such as salts of polyacrylic acid with a molecular weight comprised between 500,000 and 2,0.00,000 and higher, polyacrylonitrile, polyvinyl acetate and polyvinyl alcohol. In the waterproofing panel according to US-A-4501788, the layer of bentonite, in granules, is placed between a permeable flexible support of preferably synthetic fabric, to which it is glued, and a protective covering which prevents the loss of granules and allows for the stocking of the panel in rolls.
In the waterproofing panel according to EP-A-278 419, the layer of bentonite is placed between two
synthetic fabrics sewn to one another with transverse stitches every 10-15 cm.
One of the principle inconveniences encountered in the use of known waterproofing panels consists in the fact that they are hot well-suited to the waterproofing of inclined or vertical walls, such as the sides of tanks, on one hand because of the scarce friction between the panel and the ground and on the other hand because of the tendency of the granules of bentonite to slide downwards due to their weight thus forming pockets of bentonite in some areas and consequent reduction of the thickness of the waterproofing agent in others. This occurs in particular in panels in which the layer of bentonite is held by means of stitches, but it is also present in those in which the layer of bentonite is glued to a support. In regard to this, it is important to note that in an improved version of the waterproofing panel according to above-mentioned US-A-4501788, recently put on the market, besides having provided for the gluing of the bentonite layer to the support, the layer of bentonite is also placed between two sheets of fabric in heavy polypropylene needled with nylon wool, to increase the adhesion of the granules, and united by transversal stitches to limit the formation of pockets. It is worth noting on the other hand that the adhesives used up to this time have provided no sufficient results because some are limitedly soluble in water and therefore impede the process of swelling, others were found to be at least potentially pollutive, and still others formed structures that were excessively rigid and fragile.
Another inconvenience of the known waterproofing panels is their relative fragility and limited flexibility. This makes the waterproofing of surfaces with complicated geometry (corners, ducts, small cisterns,
etcetera) particularly difficult and complicates the operations of manipulation of the panels which, once unrolled, must be positioned without being able to be rerolled and cannot be moved in order to avoid local fractures or breaking of the bentonite layer.
A further inconvenience of the known waterproofing panels is their scarce resistance to atmospheric agents, in particular to rain, given that the binder solubilizes very rapidly, with the consequent necessity of completing the work in a short time or in proper atmospheric conditions.
The object of the present invention is to provide a waterproofing panel for terrain and for hydraulic and construction works, which comprises a layer of bentonite and allows for the obviation of the above-mentioned inconveniences encountered in waterproofing panels of a traditional type.
It is therefore a particular object of the present invention to provide a waterproofing panel that is flexible and elastic enough to not present problems of manipulation, especially losses of bentonite, and to be able to be used for the waterproofing of surfaces of complex geometry.
A further object of the present invention is to provide a waterproofing panel in which the adhesion of the bentonite granules to one another and to the layers of external covering is sufficient to allow for its use also on vertical surfaces without producing variations in thickness of the waterproofing layer. Another object of the present invention is to provide a waterproofing panel of the above-mentioned type that possesses a greater resistance to atmospheric agents, in particular rain.
An additional object of the present invention is to provide a process for the production of a waterproofing panel of the above-mentioned type having high flexibility and elasticity, as well as having good properties of adherence to the ground even when steeply inclined.
Disclosure of the invention
The waterproofing panel according to the present invention is of the type comprising a layer of granular bentonite glued between two pieces of permeable synthetic fabric. One of the fundamental characteristics of the waterproofing panel according to the present invention is that as a binder for holding together the granules of bentonite, and to make them adhere stably to the covering fabrics, a copolymer of acrylic esters is used, formed by acrylic acid and alcohols such as methyl and isobutyl alcohol. Thanks to the use of this adhesive, the effects of breakaway are limited in cases of particularly difficult utilisation (inclined or vertical) or inaccurate manipulation of the product in the yard which currently, as a result of the use of binders that are too rigid, are the cause of breakaway and breaking of the product with losses of bentonite. This binder gives the panel durable flexibility and contemporaneously has the characteristic that it rehydrates in the presence of water favouring the absorption in a greater measure on the part of the bentonite after the installation has been completed. Furthermore the solubilization of this binder in the presence of water is relatively slower than other known binders, thus the installation can be carried ahead without problems even in atmospheric conditions that are not optimal, for instance in case of rain.
A further important characteristic of the panel according to the present invention is that it has impressions uniformly distributed on one of its faces,
realized by means of pressing at the time of production. This pressing is advantageous both in terms of a more uniform distribution of the binder between the granules of bentonite with consequent attainment of a more compact structure, as well as in terms of giving the panel good adherence to the ground even if steeply inclined. The combined effect of the presence of said impressions and the use of binder composed of acrylic esters provides a product of high flexibility that proves particularly suited for installations in non flat areas having complex geometry. Moreover it allows for a consequent reduction in costs as a result of less scrap and less overlapping as well as greater reliability of the execution of the work due to fewer junctions of the product. An additional important characteristic of the waterproofing panel according to the present invention consists in the fact that the granules of bentonite are uniformly covered by the binder thanks to the methods with which the binder is incorporated in the bentonite layer. The waterproofing panel according to the present invention comprises therefore a layer of granular bentonite contained between two layers of permeable synthetic fabric agglomerated and fixed to said layers by means of a binder, characterized by the fact that said binder is a copolymer of acrylic esters.
The process for producing the waterproofing panel according to the present invention provides for the distribution of said binder in the form of a foam on the first flexible permeable support, deposition on said foamed support of the layer of granular bentonite, the spraying on top of said layer of an aqueous solution of said binder, the covering of the layer of bentonite with a second flexible permeable support, the heat drying of the manufactured item thus obtained and finally the heat
pressing of the dried manufactured item in order to realize said impressions on one of its faces.
Best Made of carrying out the Invention
The waterproofing panel according to the present invention contains between 4 and 6 kg/m2 of bentonite, preferably sodium bentonite, in a granular form of granulometry comprised between 0.5 and 5 mm; calcium bentonite or a mixture of sodium bentonite and calcium bentonite can also be used to resist percolates rich with heavy metals contained for example in solid industrial residues. Modified bentonites can also be used, that is bentonites made to react with organic substances such as polyacrylates and/or quaternary ammonium salts for special uses. The adhesive used is composed of a copolymer of acrylic esters formed by acrylic acid and low-grade alcohols such as methyl alcohol and isobutyl alcohol. A product on the market that has proved particularly suited to the purposes of the present invention is POLICRIL 305/RB produced by the firm FAR. Obviously equivalent products having the same composition, such as the resin BAYER 678 produced by the firm BAYER, can be used in alternative.
The flexible and permeable elements and the covering of the layer of granular bentonite of the panel according to the present invention are preferably realized in synthetic fabrics. In particular, the first support is composed of polypropylene fabric internally needled with a non-woven fabric of nylon weighing 150 g/m2, whereas the covering support is a fabric of polyester weighing 40 g/m2. Obviously fabrics having equivalent characteristics can be used in alternative.
In practice, for the production of the waterproofing panel according to the present invention one can proceed as follows.
The binder in the form of a foam with 40% additive of a surface-active agent, of the anionic type for example, is spread on a propylene fabric internally needled with a non-woven fabric of nylon. A layer of several millimeters of uniformly distributed granular bentonite is thus formed on the foamed fabric, upon which a solution of binder at 50% is sprayed. The total quantity of binder used is comprised between 500 and 1500 g/m2 and is preferably between 700 and 1000 g/m2.
Known plasticizing additives with a base of cellulose (CMC, methyl-ethylcellulose, etc.), polyvinyl alcohol, polyacrylates, etcetera, in an amount varying from 0.5 to 3% with respect to the weight of the bentonite, are added to the adhesive. These additives improve the flexibility, the swellability and in general the hydrophilic properties of the bentonite. Sodium hydroxide is also added to the binding solution to bring it to a weakly alkaline value (pH=8) .
The panel thus obtained is heat dried in a special oven. Its initial content of humidity is equal to about 25-28% resulting from the bentonite's own humidity and from that introduced with the binder on a solution or a foam. After drying in the oven the residual humidity is at most 20%.
When the panel is still hot, it is pressed to favor the compactness of the bentonite layer when the binder still has not hardened. For this purpose, the panel is passed through a calendering machine in which one of the pressure rollers has a worked surface so as to print impressions on the face of the panel that will be used for contact with the ground, that is the one formed in
polyester. The impressions left on the face of the panel are clearly visible intersecting grooves forming designs in the shape of lozenges. This localized pressing operation, besides making the layer markedly more compact and its adhesion to the external fabrics in correspondence with said impressions considerably more intimate, allows also for the reduction, even if limitatedly, of the amount of binder and possible additives necessary. Moreover the presence of these uniformly distributed impressions on the face of the panel in contact with the ground prevents sliding even when the ground is steeply inclined.
The waterproofing panel according to the present invention, once cooled is cut into pieces or strips for example of 25 meters by 4 meters and collected in rolls that are then put into plastic bags, or in smaller pieces, for example sheets of about 5 by 5 meters (weighing 25 kg) to be installed by hand, for instance in the construction field. Obviously the panel according to the invention can be put on the market even in other cut down sizes according to the specific needs of various fields of use.
The panel according to the present invention can be advantageously used in many applications in the hydraulic and construction fields. In particular it is suited for the waterproofing of the walls of dumps and the grounds chosen for dump preparation, for the preparation of drainage basins, created to collect rain water or drainage water, as well as for canalization of water towards large deposits. In construction, it can be used for the waterproofing of terraces, cellars, basements, pools, etcetera. In agriculture it can be used for the forming of lakes for irrigation and other uses; in the transportation field, it can be used of the waterproofing of railroad embankments in high-velocity tracts made in crushed stone.
Variations and/or modifications can be brought to the waterproofing panel according to the present invention and to the relative production process without departing from the scope of the invention itself.