GR1009005B - Waterproof thermally-insulating stone-like sheet destined for the easy coating of whatever surface - production method thereof - Google Patents

Abstract

Novelty: a decorative flexible or tough material having the form of a sheet or plate is disclosed. Purpose: to cover entire buildings or sections thereof (columns, walls, floors etc); to be applied, inter alia, to wood, tiles, metal, glass and plastics with use of adequate glue. Technical features: it is a decorative, waterproof, thermally-insulating elastic product having the design of the stone or whatever other design selected. It is made of black- or red-coloured cement in proportions of 10% to 50% combined with acrylic elastic resins in proportions of 10% to 50%, calcium carbonate in proportions of 20% to 50%, perlite in proportions of 0% to 30%, polypropylene fibres and fabric made of raw cotton.

Description

Waterproof, heat-insulating sheet made of material in the form of stone with ease of covering any type of surface (flexible during installation) & the method

preparation of this

The invention refers to a material which, due to its composition and the method of its preparation, is a stable, solid preparation in the form of a stone, (which has a stone form) but can have any other design.

The material has the ability to take any shape the wall or floor has or on any other surface it is placed on (columns, cylindrical or with corners) in order to give the desired effect (visually and practically). Also, the material gives the possibility of insulation (larger or smaller) depending on the ratio of the components in order to achieve the desired result.

Today in the construction and decoration industry, the stone look has a high percentage of followers. In the existing one this is done by placing stones or other materials. This is how insulation is achieved, a beautiful presence with a stone look, with high cost and difficulty of placement due to volume (stone) but also the need to sculpt the material to get the size we want. The method of preparation of this material gives the particularities of the properties it possesses. From the size of the material (large or small sheets) its insulating capacity (which is regulated by the materials mixed to make it).

With the specific material which with a combination of cement (white or black depending on the coloring we want), acrylic elastic resins, calcium carbonate, perlite, polypropylene fibers and raw cotton fabric are achieved depending on the composition and the method used to prepare , properties such as thermal insulation, waterproofing, and ease of adapting and covering any surface, in any form. It is also a material in stone design but also any other design we want to choose (based on the mold we will use). It is a light material, moisture-insulating, decorative, it can cover entire buildings but also parts of them such as columns, walls, floors or floors in general, roofs, swimming pools, etc.

With the appropriate glue, it can be applied to any surface we want, i.e. plasterboard, cement board, wood, tile, metal, glass, plastic...etc. The basic method of preparation is done at room temperature (up to 45 degrees) with very good ventilation to absorb moisture and in polyester molds selected in dimensions.

The method used for its preparation is in three phases of coating the materials in prefabricated molds (which are like large pans and simply give us the desired size but also the desired appearance - depending on the design we have on the inside) .

Creating first of all a layer of fluid material (thickness 3-5 mm), then applying and placing a cloth made of raw cotton (which gives it the flexible property) and finally a second layer of liquid materials more fluid than the first liquid. More details now:

So starting with the first layer

(example to see the ratio of the materials we take as a condition that we mix the materials in 10 kg of water):

• If we choose to make hard slabs (with hard resin) in order to place them on the floor, the selected mold must be given a coat of polyurethane primer and polyurethane or epoxy varnish first in order to obtain hardness on its surface after the material has dried and then

• Dilute in water 3 kg to 10 kg of acrylic resin (soft or hard depending on whether it is for walls or the floor)

• Add from 3kg to 10kg of cement (black or white depending on the desired color)

• This is followed by mixing a quantity from 20kg to 305kg of calcium carbonate (CaCO3) 130 grains (marble powder)

• And mix 4kg to 6 kg of calcium carbonate 80 grains

We spread all the cast material in the selected mold with which we want to create the material, which we have sprayed with petroleum jelly (or a coat of polyurethane primer and polyurethane varnish if we are making hard plates) and we compress them with a spatula. All the above material has a thickness of 3-6 millimeters depending on the mold. On top of this we apply the cloth from the raw cotton. The third phase follows on top of the cloth, the placement of the next liquid material. In this phase, for our example, the dilution is done in 15kg of water (we want it to be more liquid) so we have:

• Dilute 4kg to 11kg of acrylic resin

• Then we add 4kg to 12kg of cement (black or white depending on the coloring we wish to achieve

• Followed by mixing with 4kg to 8kg of calcium carbonate (CaCO3) 130 grains (marble powder)

• And add from 0kg to 12kg of perlite with a grain size of 0.3 - 0.5 millimeters (if we want thermal insulation and drinking water)

We now spread all this material over the cloth and press it enough with a spatula so that the resin softens the cotton and binds to the first wet material we poured. The second material is much more watery than the first.

We put fans and heating underneath (40 to 50 degrees) to dry it:

• In 24 hours in winter

• In 12 hours in summer

Then we take the sheets out of the molds and the finished material is 4 mm minimum and 50 mm maximum (for floor slabs or special constructions).

Now it is worth looking at the properties that the materials and the special preparation process give it. Below are some illustrative examples to help us understand the properties of the product

If we change the ratio of the resin in the third phase and:

• Dilute 7kg of acrylic resin in 10kg of water

• Then we add 6kg of cement (black or white depending on the coloring we wish to achieve

• Followed by mixing with 6kg of calcium carbonate (CaCO3) 130 grains (marble powder)

• And add 4kg of perlite with a particle size of 0.3 - 0.5 mm

Mix the ingredients, apply them on the cloth, press with a spatula, we gain 30% more thermal insulation

If now before the above application we additionally put the following and apply on the cloth (before the application of the 3rd phase):

• Dilute 3kg of acrylic resin in 6kg of water

• And add 4kg of perlite with a particle size of 0.3 - 0.5 mm

Then we apply the material of the above claim ie:

• Dilute 7kg of acrylic resin in 10kg of water

• Then we add 6kg of cement (black or white depending on the coloring we wish to achieve

• Followed by mixing with 6kg of calcium carbonate (CaCO3) 130 grains (marble powder)

• And add 4kg of perlite with a particle size of 0.3 - 0.5 millimeters for thermal insulation

And we apply on top of everything with a spatula by pressing, thus gaining with the extra layer of resin and perlite up to 50% more thermal insulation

In this material, if in the first phase and in the third phase we use hard resin, we create a rigid sheet where by applying from the additional face (first first that is in contact with the mold) polyurethane primer, polyurethane or epoxy varnish with the addition of quartz sand, rigid material.

Giving more examples to the above by now strengthening the material by increasing the cement by 20% to 30% more and the thickness at least 15mm we make sheets and slabs that we can press.

Claims (3)

1. Thermal insulating sheet which with a combination of cement in a ratio of 10% to 50% (white or black depending on the coloring we want), acrylic elastic resins in a ratio of 10% to 50%, calcium carbonate in a ratio of 20% to 50%, perlite in ratio of 0% to 30%, polypropylene fibers and raw cotton fabric. 2. According to claim 1, claim 2 is the manufacturing method, which is carried out at room temperature (in polyester molds to give its final form, in which the mold is first coated with a polyurethane primer and polyurethane varnish. Then, diluted in water, in a ratio of 10% to 50% acrylic resin, then we add cement in a ratio of 10% to 50%, then follows the mixing of a quantity of calcium carbonate 130 (CaCO3) in a ratio of 10% to 40% .We spread the above materials on the mold in a liquid form (and it is 3-6 mm thick).On top of this liquid we apply the raw cotton cloth and the next phase follows. Again in water at a ratio of 10% to 40% acrylic resin, then we add cement at a ratio of 10% to 40%, then a mixture of 130 gram calcium carbonate (CaCO3) at a ratio of 10% to 30% and perlite with a grain size of 0.3 - 0.5 mm in a ratio of 0% to 30% (depending on the thermal insulation we want to achieve) We let it dry using fans and heating from below (40 to 50 degrees) 3. According to claim 1 and 2 the thermal insulation sheets are used for covering walls by imparting insulation properties (in temperature and humidity) and choosing hard resin and adding quartz sand in a proportion of 5% to 30%, with application from the additional face ( first first i.e. to be in contact with the mold) of polyurethane primer, polyurethane or epoxy varnish we create hard plates (rigid material) able to be installed as floor plates.