WO2008101879A1

WO2008101879A1 - Process for producing building material for painting or filling containing dehumidified silt and an adhesive

Info

Publication number: WO2008101879A1
Application number: PCT/EP2008/051886
Authority: WO
Inventors: Aldo Carminati; Patrizia Gatto
Original assignee: Individual
Current assignee: Individual
Priority date: 2007-02-22
Filing date: 2008-02-15
Publication date: 2008-08-28
Anticipated expiration: 2009-08-22
Also published as: ITMI20070342A1; EP2115078A1

Abstract

A building material for painting and filling containing slit with polyacetovinyl adhesive is described.Such a material may be used as a paint or as a filler. Furthermore, there is described a process for obtaining such a building material from the use of by-products of fragmentation operations of rocky materials extracted from quarries.

Description

"Process for producing building material for painting or filling containing dehumidified silt and an adhesive"

* * * * DESCRIPTION

The present invention relates to a process for producing building material for painting or filling containing dehumidified silt and an adhesive. Materials such as: paints to paint walls, metals, plastic, ceramics, paper and cardboard, cork, rubber, galvanized materials, wood and PVC; the paints may be applied by means of paintbrush, roller or spraying; fillers, used as filling materials, for instance to carry out decorations or levelling on various kinds of walls are known. Polyacetovinyl adhesives are known, including polyvinylacetate or a polyacetovinyl emulsion.

Some kinds of paint consist of a mixture of the following substances: an inert material in the form of powder obtained industrially by a specific process, such as granite (e.g. mica), gypsum, Biancone, calcium carbonate, limestone and silica; a polyacetovinyl adhesive;

- dyes.

Such paints generally display a specific gravity in the range between 1,3 kg/dm³ and 1,8 kg/dm³. Some kinds of fillers consist of a mixture of the following substances: an inert material such as those mentioned above; a polyacetovinyl adhesive; lime or adhesive lime and different kinds of cement;

- dyes. The problem of using less expensive inert materials often arises. It must be noted that the inert material is often formed by sand, limestone or gypsum; such materials could be raw. Normally, materials for general use are employed. Such materials, which are extracted, refined, processed and subsequently marketed, display excessively pure features, thus determining a pointless waste of resources. For instance, such materials must be extracted, crushed, sieved and possibly washed with a considerable waste of resources, both in terms of energy consumption and of raw materials, such as water for washing, which generally comes from a waterworks for domestic use and therefore is pointlessly drinkable.

A completely different problem arises in marble or generally inert material quarries, such as sand, gravel, marble, clay, silica, limestone and other quarries.

The processing of material often includes the following steps: a step of fragmenting the extracted material, carried out in a dry environment by mechanical means; - a step of riddling, generally in a wet environment, by means of which the fragments of material are introduced above an inclined sieve and are sprinkled with water, in order to precipitate the powders, which usually include granules having a diameter in the range between 1 μm and 1000 μm, through the interstices of the sieve; the material that does not precipitate is used for the intended purposes; the dusts, which are wet and are in the form of (inert aqueous) silt, are discarded.

The disposal of silt is complicated, expensive and technically difficult, because it is not easy to find sites suitable for the disposal of materials in a muddy form, such as silt. Strict laws govern the disposal in appropriate areas.

It is an object of the present invention to obtain a less expensive building material than the currently employed materials, recovering the silt of the quarries at the same time.

According to the invention, such an object is achieved by means of a process for the preparation of building material, characterised in that it comprises the following steps: fragmenting the inert material, riddling said fragmented material by washing to form silt, dehumidifying said silt in order to form a dense powder having a humidity in the range between 1% and 30%, and mixing said dense powder with an adhesive in an amount ratio of dense powder/adhesive from 1/1 to 30/1.

Such an adhesive is generally of the po Iy aceto vinyl kind, in particular an aceto vinyl homopolymer in an aqueous dispersion, or an acrylic polymer again in an aqueous dispersion.

The building material obtained according to the invention may be used as a non- film- forming paint, which is washable, isolating, elastic and may be applied without a primer, suitable both for indoors and outdoors and results being an excellent protective and dyeing material for the cement. It is also suitable for covering dumps, as a fixing agent for the road surface, for painting swimming-pools as it is water-repellent, and for covering glasshouses.

The building material according to the invention may serve as a water- proof filler, which is water resistant, impact resistant, elastic to torsion, it may be used without a primer, it may be painted and sanded on iron, wood, PVC, ceramics, plastics and other materials.

The building material according to the invention is not harmful, nor toxic, nor inflammable. These and other features of the present invention will become more apparent from the following description of non- limitative practical embodiments of the invention.

A dehumidified silt, or dense powder, or simply designated as "dense", having a specific gravity of 1,5 kg/dm , consists of sand, limestone and clay coming from a gravel quarry of the region of Liguria. Said dense has been obtained during the step of fragmenting and riddling (desired particle size in - A -

the range between 1 μm and 500 μm) with washing following also an additional subsequent decanting step with a flocculant to dehumidify the silt which after washing displays about 60-70% humidity. Said step of decanting takes about 2 hours and allows to obtain a dense having a remaining humidity of 10-30%, preferably 20%.

It is possible to use dense powder in the process according to the invention, substantially without water, namely with a remaining humidity between 1% and 10%.

As an alternative, to accelerate the step of dehumidifying though obtaining the same results, the wet cast silt may be pressed in filter presses, centrifugal machines or band filters, during the step of riddling for approximately 30 minutes. The control over the process is a lot better with respect to the traditional decantation in pools and precise values of humidity may be obtained, the optimal value preferably being 20%, as stated above. The obtained dense represents the raw material to obtain the plaster or the paint as disclosed hereinafter.

Such a dense is mixed with a po Iy aceto vinyl adhesive (an aceto vinyl homopolymer in an aqueous dispersion) generally in a ratio in the range between 1/1 and 1/30, i.e. for instance an amount of dense varying between 1 and 30 kg is required for 1 kg of adhesive depending on the use. For the silt deriving from the quarry in the region of Liguria the following ratios have been obtained: paint for cement paving: 1 kg of adhesive and 4 kg of dense (or in any case a ratio in the range between 1/1 and 1/5); - paint for reinforced concrete: 1 kg of adhesive and 6 kg of dense (or in any case a ratio in the range between 1/1 and 1/7); paint for bare wood: 1 kg of adhesive and 6 kg of dense (or in any case a ratio in the range between 1/1 and 1/7); washable paint for indoors: 1 kg of adhesive and 7 kg of dense (or in any case a ratio in the range between 1/6 and 1/8); paint for metals: 1 kg of adhesive and 5 kg of dense (or in any case a ratio in the range between 1/1 and 1/6); non- film- forming paint for indoors: 1 kg of adhesive and 9 kg of silt (or in any case a ratio in the range between 1/1 and 1/10); - paint for indoor wood: 1 kg of adhesive and 10 kg of silt (or in any case a ratio in the range between 1/1 and 1/11); paint for plasterboard or plywood: 1 kg of adhesive and from 1 to 7 kg of dense; paint covering dumps: 1 kg of adhesive and 10 kg of silt (or in any case a ratio in the range between 1/1 and 1/20); paint for covering glasshouses: 1 kg of adhesive and 20 kg of silt (or in any case a ratio in the range between 1/18 and 1/30). By adding 5-20% cement (without drying nor dyes) to 1 kg of adhesive and 1-10 kg of dense (ratios in the range between 1/1 and 1/10), building bricks may be formed.

As an alternative to the examples set forth above, silt could be used containing limestone, marble, clay, silica or other dusts, or possibly mixtures of such materials found in marble, limestone, gypsum or other quarries

(similar ratios have been found for instance for quarries in the regions of Tuscany, Valle d'Aosta and Piedmont).

The po Iy aceto vinyl adhesive employed is characterised by a weight of 1 kg per 1,1 litres of occupied volume (1 kg of adhesive should generally occupy 0,700-1,3 litres in volume), a solid content percentage (dry at 80⁰C for 30 minutes) in the range between 50% and 55% (preferably 52%), a Brookfield viscosity in the range between 9000 m(Pa)s and 15000 m(Pa)s

(preferably 13000) and a pH in the range between 4 and 5.

One of the advantages of the present invention consists in that 100% natural colours may be obtained as they are characteristic of the rocks of the extraction quarry. No dyes, i.e. no polluting oxides, need to be added. Therefore, there are no dying costs nor problems with ecocompatibility, the adhesive being commercially available and thus attested. Colours other than the natural ones characteristic of the quarry may be obtained by combining together natural paints obtained according to the invention.

Generally, the granules have a diameter in the range between 1 μm and 500 μm.

It should be noted that usually the particle size of finishing mortar is equal or higher than 500 μm. Accordingly, it has been found that, if 25 kg of a known mortar are required to shave (with a levelling agent) a surface corresponding to 2-5 m² with a shaving thickness of 1-2 mm, then 25 kg of a paint according to the present invention are enough to shave by brush or roller a surface corresponding to 15-25 m² (4 times more) with a thickness of 0,5 mm (about 5 times less). These performance data allow for instance the use of the paint on a plaster having no levelling agent, the small particle size allowing to properly fill all of the rough interstices. The economical advantage is obvious: the building material is less expensive to produce (the silt is expensive to dispose of) and the building material required to carry out the same construction is less with improved work times.

Other kinds of adhesive might be used, although the po Iy aceto vinyl adhesive provides better results, supported by decades of successful use in construction. In any case, acrylic polymer adhesives may also be used in an aqueous dispersion (1 kg of said adhesive occupies a volume of about 1 litre, more generally a volume from 0,700 to 1,3 litres as the poly aceto vinyl adhesive). For example it may be used an acrylic polymer with a solid content percentage (dry at 110⁰C for 15 minutes) in the range between 49% and 51% (preferably 50%), a Brookfield viscosity in the range between 4000 m(Pa)s and 8000 m(Pa)s (preferably 7000) and a pH in the range between 8 and 9.

Another process, such as for instance evaporation, may be used instead of decantation. The production of filler includes the insertion of adhesive lime or, as an alternative, the use of decanted lime with even greater specific gravity with respect to the silt for paint.

The invention may be marketed by constructing a plant containing bins for each dense powder of a certain silt recovery quarry, one or more adhesive bins, and a control centre adapted to allow the selection of the colour and the application.

Following electromechanical means will fill and seal paint cans which are ready to be sent anywhere required.

Further it is possible to load loose product in cistern.

The inert material may be provided non only from natural quarry, but also from impermanent excavation or masonry debris, more generally recycling material.

Claims

1. Process for the preparation of a building material, characterised in that it comprises the following steps: fragmenting the inert material, riddling said fragmented material by washing to form silt, dehumidifying said silt in order to form a dense powder having a humidity in the range between 1% and 30%, and mixing said dense powder with an adhesive in an amount ratio of dense powder/adhesive from 1/1 to 30/1.

2. Process according to claim 1, characterised in that the dense powder has a particle size in the range between 1 μm and 500 μm.

3. Process according to any of the preceding claims, characterised in that said adhesive is in an aqueous dispersion.

4. Process according to claim 3, characterised in that said adhesive is an acetovynil homopolymer in an aqueous dispersion.

5. Process according to claim 3, characterised in that said adhesive is an acrylic polymer in an aqueous dispersion.

6. Process according to any of the preceding claims, characterised in that 1 kg of adhesive occupies a volume in the range between 0,7 and 1,3 litres.

7. Process according to any of the preceding claims, characterised in that the amount of adhesive and of dense powder is in a range between 1/1 and 1/5 for application on a cement paving.

8. Process according to any of claims 1-6, characterised in that the amount of adhesive and dense powder is in a range between 1/1 and 1/7 for application on reinforced concrete.

9. Process according to any of claims 1-6, characterised in that the amount of adhesive and dense powder is in a range between 1/1 and 1/7 for application on bare wood.

10. Process according to any of claims 1-6, characterised in that the amount of adhesive and dense powder is in a range between 1/1 and 1/8 for application as a washable paint for indoors.

11. Process according to any of claims 1-6, characterised in that the amount of adhesive and dense powder is in a range between 1/1 and 1/6 for application on metals.

12. Process according to any of claims 1-6, characterised in that the amount of adhesive and dense powder is in a range between 1/1 and 1/10 for application as a non- film- forming paint for indoors.

13. Process according to any of claims 1-6, characterised in that the amount of adhesive and dense powder is in a range between 1/1 and 1/11 for application on indoor wood.

14. Process according to any of claims 1-6, characterised in that the amount of adhesive and dense powder is in a range between 1/1 and 1/7 for application on plasterboard or plywood.

15. Process according to any of claims 1-6, characterised in that the amount of adhesive and dense powder is in a range between 1/1 and 1/10 for the construction of bricks, 5-20% cement also being included.

16. Building material characterised in that it comprises dense powder, having a humidity in the range between 1% and 30%, which is obtained by dehumidification of cast silt from the washing of inert material, and adhesive in an amount ratio in the range between 1/1 and 30/1.