FR3140569A3 - Insulation material and process for its production - Google Patents

Abstract

Title: Insulating material and method for its production Insulating material made from popcorn, in particular non-flammable, water-resistant and vapor-permeable material made from popcorn, in particular non-flammable, water-resistant material water and vapor permeable made from popcorn for the manufacture of insulating panels, which is composed of a mixture comprising 23 to 38% by weight of popcorn, 55.9 to 68% by weight of an aqueous solution of silicate, 2 to 6 wt.% aluminum hydroxide, 1 to 3 wt.% water, and 0.1 to 1 wt.% water glass stabilizer. Method for producing a material, in particular method for producing a non-flammable, water-resistant and vapor-permeable material, in particular a non-flammable, water-resistant and vapor-permeable material for the manufacture of lightweight thermal and acoustic insulation panels which involves first mixing aluminum hydroxide with water, then mixing popcorn with a carbon black solution so that that its entire surface is covered with carbon black, then adding it to the aluminum hydroxide solution, and all the components are mixed to form a mixture, then water glass stabilizer is added to an aqueous solution of silicate, then a water glass hardener is mixed into this solution, which is then stirred for 1-10 minutes to form a binder solution, then the wood chip mixture is added to the binder solution, stirring continuously, and all components are mixed, then the resulting mixture is poured onto the place of application. The resulting mixture is then left to stand until it hardens. Figure for summary: none

Description

Insulation material and process for its production

The present invention relates to popcorn, in particular a non-flammable, water-resistant and vapor-permeable material, made from popcorn, in particular a non-flammable, water-resistant and vapor-permeable material , made from popcorn for the manufacture of panels, as well as a process for its production.

A number of models of panels made from wood chips, glass fibers, basalt and other fibers, glass, ceramic and basalt granules, fly ash, cement, etc. are known in the current state of the art.

Polyurethane binders or synthetic resins, for example phenol-formaldehyde or urea-formaldehyde resins, are used as binders, for example.

Patent EP2081743 reports a wood fiber board to which popcorn of a size of 2 to 10 mm has been added, with phenol-formaldehyde resins as binders. The disadvantage of the board is that the binder is organic in nature and the mixture is highly flammable, is not vapor permeable and is not resistant to external influences.

Patent WO2008128589 describes a model of wood chip board in which crushed popcorn of a maximum size of 10 mm is added in order to retain the released formaldehyde. A formaldehyde resin is used as a binder. The disadvantages of the panel are its high flammability, very low vapor permeability and low resistance to external influences.

Patent WO2014131801 reports a composite material in which a layer of popcorn is inserted between two layers of wood. A disadvantage is the high flammability of the panel.

It is clear from the above-mentioned prior art that the main disadvantage of the prior art is that the known panels are almost always flammable or highly flammable. Another problem is their low water resistance. Also problematic is the use of volatile organic binders that begin to release toxic substances, especially formaldehyde, from the material. Another disadvantage is that the materials are not vapor permeable. Another disadvantage is that the panels are not resistant to external influences and biological attacks. They are not recyclable and represent a burden on the environment.

The aim of the invention is to provide a thermal and acoustic insulation material that is water-resistant, has high fire resistance and is vapor-permeable, environmentally friendly, not harmful to health, recyclable and resistant to external influences as well as biological attacks.

The aforementioned disadvantages are eliminated to a large extent and the objectives of the invention are achieved by means of a material made from popcorn, in particular a non-flammable and water-resistant material made from popcorn, in particular a non-flammable and water-resistant material for the manufacture of panels from popcorn, the characteristics of which lie in the fact that it is composed of a mixture comprising 23 to 28% by weight of popcorn, 55.9 to 68% by weight of an aqueous silicate solution, 2 to 5% by weight of aluminum hydroxide, 1 to 3% by weight of water, and 0.1 to 1% by weight of a glass stabilizer soluble. The advantages of this material are its lightness, its strength, its high vapor permeability, its high fire resistance as well as its high resistance to water. At the same time, the material has excellent thermal and acoustic insulation properties, anti-mold effects and resistance to external influences. It is environmentally friendly and does not harm health. It is able to resist the effects of heat released by a burning object by delaying and significantly reducing heat release.

The aluminum hydroxide used preferably acts as a flame retardant. It is advantageous if the mixture of water glass and aluminum hydroxide is incorporated deep into the material in a very tight and stable manner.

Preferably, the size of the popcorn is between 10 and 50 mm. Most preferably, the surface of the popcorn is coated with carbon black, the pure carbon black comprising 0.025 to 0.25% by weight of the total weight. The advantage is that the carbon black arranged in this way reduces flammability because the carbon black is preferably absorbed by the popcorn, to a certain extent, which stabilizes its bond to the carbon black. Another advantage is that carbon black acts as a flame retardant.

Preferably, the aqueous silicate solution is an aqueous sodium silicate solution.

Preferably, the water glass stabilizer is a (hydroxyalkyl)ethylenediamine.

Preferably, the aqueous sodium silicate solution has a density of between 1,370 and 1,400 kg/m ³ and a molar ratio between SiO ₂ and Na ₂ O of between 3.2 and 3.4. It is advantageous that this soluble glass is partially flexible after hardening.

Preferably, the material made from popcorn further comprises a water glass hardener.

Furthermore, the aforementioned disadvantages are eliminated to a large extent and the objectives of the invention are achieved by means of a method for producing an insulating material, in particular a method for producing a non-flammable, heat-resistant material. water- and vapor-permeable material based on popcorn, in particular a non-flammable, water-resistant and vapor-permeable material based on popcorn intended for the manufacture of thermal and sound insulation panels, the characteristics of which lie in the fact that, first of all, aluminum hydroxide is mixed with water, and then the popcorn is mixed with a solution of carbon black so that its entire surface is covered by carbon black, then it is added to the aluminum hydroxide solution, and all the components are mixed to form a popcorn mixture, then water glass stabilizer is added to an aqueous silicate solution, and finally a soluble glass hardener is mixed into this solution. This solution is then stirred for 1 to 10 minutes to form a binder solution, then the popcorn mixture is added to the binder solution with continuous stirring, and all components are mixed and the resulting mixture is poured. at the place of application.

Preferably, the resulting mixture is finally left to stand until it hardens.

The main advantage of the insulating material and its production process according to the invention is that it is highly non-flammable. The popcorn is coated all over with carbon black and aluminum hydroxide, which act as flame retardants. It is very advantageous to use soluble glass as a binder which, after drying, resembles standard glass in its composition and properties. It is very hard, abrasion resistant, heat resistant up to temperatures of around 1,000°C, water resistant and vapor permeable. At the same time, it is environmentally friendly and does not harm health. It reflects UV rays well. It does not release any toxic organic substances. This binder exhibits excellent adhesive and bonding effects, as well as good adhesion to common substrates. This binder makes it possible to bind the popcorn very effectively. At the same time, the popcorn is covered with this binder over its entire surface, which protects it against the effects of water, flame and UV rays, which slows down the decomposition of the popcorn, for example due to 'humidification. Insulating boards containing this binder are hard, strong, abrasion resistant, non-flammable and heat resistant, water resistant, vapor permeable, resistant to biological attack, environmentally friendly and not harmful to health, without emissions of organic substances.

Examples of embodiments of the invention

Example 1

The non-flammable water resistant material made from popcorn is composed of a mixture comprising 28% by weight of popcorn, 68% by weight of an aqueous solution of sodium silicate, 2% by weight of aluminum hydroxide, 1% by weight of water and 0.1% by weight of a water glass stabilizer.

The water glass stabilizer is a hydrophilic (hydroxyalkyl)ethylenediamine, in the form of a 98% aqueous solution of N,N,N',N'-Tetrakis(2-hydroxypropyl)ethylenediamine.

The aqueous solution of sodium silicate has a density of 1380 kg/m ³ , and its molar ratio between SiO ₂ and Na ₂ O is 3.3.

The material made from popcorn further includes a water glass hardener, which is a mixture of pure glycerol diacetate/triacetate in a ratio of 7:3 parts by volume, with a concentration of 0.5 to 5% in weight, compared to pure water glass.

According to the production process of the non-flammable and water-resistant material made from popcorn, aluminum hydroxide is first mixed with water, the popcorn is mixed with carbon black solution so that its entire surface is covered with carbon black, then it is added to the aluminum hydroxide solution, and all the components are mixed to form a corn mixture, then the water glass stabilizer is added to the aqueous silicate solution, then the water glass hardener is mixed with this solution. This solution is then stirred for 5 minutes to form a binder solution, then the corn mixture is added to the binder solution with continuous stirring, and all the components are mixed, and finally the resulting mixture is poured into the place of application, which is a panel-shaped silicone mold.

Finally, the resulting mixture is left to rest until it hardens.

Example 2

The non-flammable water-resistant material made from popcorn is composed of a mixture comprising 36% by weight of popcorn, 55.9% by weight of an aqueous solution of sodium silicate, 5% by weight aluminum hydroxide, 3% by weight of water and 0.1% by weight of a water glass stabilizer.

The water glass stabilizer is a (hydroxyalkyl)ethylenediamine, in the form of a 98% aqueous solution of N,N,N',N'-Tétrakis(2-hydroxypropyl)ethylenediamine.

The aqueous solution of sodium silicate has a density of 1370 kg/m ³ , and its molar ratio between SiO ₂ and Na ₂ O is 3.2.

The material made from popcorn further includes a water glass hardener, which is a mixture of pure glycerol diacetate/triacetate in a ratio of 7:3 parts by volume, with a concentration of 0.5 to 5% in weight, compared to pure water glass.

According to the production process of the non-flammable and water-resistant material made from popcorn, aluminum hydroxide is first mixed with water, the popcorn is mixed with carbon black solution so that its entire surface is covered with carbon black, then it is added to the aluminum hydroxide solution, and all the components are mixed to form a corn mixture, then the water glass stabilizer is added to the aqueous silicate solution, then the water glass hardener is mixed with this solution. This solution is then stirred for 5 minutes to form a binder solution, then the corn mixture is added to the binder solution with continuous stirring, and all the components are mixed, and finally the resulting mixture is poured into the place of application, which is a panel-shaped silicone mold.

Finally, the resulting mixture is left to rest until it hardens.

Example 3

The non-flammable, water-resistant material made from popcorn is composed of a mixture comprising 31% by weight of popcorn, 63% by weight of an aqueous solution of sodium silicate, 3% by weight of aluminum hydroxide, 2% by weight of water and 1% by weight of a water glass stabilizer.

The water glass stabilizer is a (hydroxyalkyl)ethylenediamine, in the form of a 98% aqueous solution of N,N,N',N'-Tétrakis(2-hydroxypropyl)ethylenediamine.

The aqueous solution of sodium silicate has a density of 1400 kg/m ³ , and its molar ratio between SiO ₂ and Na ₂ O is 3.4.

The material made from popcorn further includes a water glass hardener, which is a mixture of pure glycerol diacetate/triacetate in a ratio of 7:3 parts by volume, with a concentration of 0.5 to 5% in weight, compared to pure water glass.

According to the production process of the non-flammable and water-resistant material made from popcorn, aluminum hydroxide is first mixed with water, the popcorn is mixed with carbon black solution so that its entire surface is covered with carbon black, then it is added to the aluminum hydroxide solution, and all the components are mixed to form a corn mixture, then the water glass stabilizer is added to the aqueous silicate solution, then the water glass hardener is mixed with this solution. This solution is then stirred for 5 minutes to form a binder solution, then the corn mixture is added to the binder solution with continuous stirring, and all the components are mixed, and finally the resulting mixture is poured into the place of application, which is a panel-shaped silicone mold.

Finally, the resulting mixture is left to rest until it hardens.

Industrial applicability

The thermal and acoustic insulation material made from popcorn according to the invention can be used to manufacture shaped articles or flat panels, which can be used in particular in the construction industry.

Claims (9)

Insulating material made from popcorn, in particular non-flammable, water-resistant and vapor-permeable material made from popcorn, in particular non-flammable, water-resistant and vapor-permeable material made from from popped corn for the manufacture of insulating panels, characterized in that it is composed of a mixture comprising from 23 to 38% by weight of popped corn, from 55.9 to 68% by weight of an aqueous silicate solution, 2 to 5% by weight of aluminum hydroxide, 1 to 3% by weight of water, and 0.1 to 1% by weight of a water glass stabilizer. Insulating material made from popcorn according to claim 1, characterized in that the surface of the popcorn is covered with carbon black, the carbon black representing from 0.025% to 0.25% by weight of the total weight. Insulating material based on popcorn according to any one of the preceding claims, characterized in that the aqueous silicate solution is an aqueous sodium silicate solution. Popcorn-based insulating material according to any one of the preceding claims, characterized in that the soluble glass stabilizer is a hydrophilic (hydroxyalkyl)ethylenediamine. Insulating material made from popcorn according to claim 3, characterized in that the aqueous sodium silicate solution has a density of between 1,370 and 1,400 kg/m ³ . Insulating material made from popcorn according to claims 3 or 5, characterized in that the aqueous sodium silicate solution has a molar ratio of SiO ₂ and Na ₂ O of between 3.2 and 3.4. Insulating material based on popcorn according to any one of the preceding claims, characterized in that it further comprises a hardener for soluble glass. Method for producing a material, in particular a non-flammable, water-resistant and vapor-permeable material, in particular a non-flammable, water-resistant and vapor-permeable material for manufacturing lightweight thermal and acoustic insulation panels according to claim 7, characterized in that, firstly, aluminum hydroxide is mixed with water, then popcorn is mixed with a black solution carbon so that its entire surface is covered with carbon black, and, then, it is added to the aluminum hydroxide solution, and all the components are mixed to form a mixture, then a glass stabilizer soluble is added to an aqueous silicate solution, then a soluble glass hardener is mixed into this solution, which is then stirred for 1 to 10 minutes to form a binder solution, then the popcorn mixture is added to the binder solution, stirring continuously, and all components are mixed, then the resulting mixture is poured to the place of application. Process for producing an insulating material according to claim 8, characterized in that the mixture obtained is finally left to stand until it hardens.