HEAT, CORROSION, AND IMPACT RESISTANT, LIGHTWEIGHT, MASS-PRODUCIBLE, AND ANTIBACTERIAL INSULATION MATERIAL

Abstract

The invention relates to a lightweight, mass-producible, antibacterial insulation material with high heat, corrosion and impact resistance that can be used in construction, machinery & equipment, furniture, defense, apparel-accessory industry, art, as well as in land-sea-air vehicles.

Claims

1. A lightweight, mass-producible, antibacterial insulation material with high heat, corrosion and impact resistance that can be used in construction, machinery & equipment, furniture, defense, apparel-accessory industry, art, as well as in land-sea-air vehicles, comprising: Acrylic Resin Fabric Borax Magnesium Oxide Sodium Bicarbonate.

2. A method of production for a lightweight, mass-producible, antibacterial insulation material with high heat, corrosion and impact resistance that can be used in construction, machinery & equipment, furniture, defense, apparel-accessory industry, art, as well as in land-sea-air vehicles, comprising the steps of; Making a mixture using acrylic group resins, Adding borax, magnesium oxide and sodium bicarbonate into this mixture to obtain the final mixture, Treating the final mixture obtained on fabric, Giving the desired form to the product, blowing air on the mixture-treated fabric until it hardens, and leaving the product to rest.

3. The method of production for the insulation material according to claim 2, in which the air blown on the mixture-treated fabric is in the range of 22-24° C.

4. The method of production for the insulation material according to claim 2, in which the product is left to rest for 24 hours after blowing the air on the treated fabric.

5. The method of production for the insulation material according to claim 2, in which the insulation material can be painted in a desired color.

6. The method of production for the insulation material according to claim 2, wherein the insulation material can be coated with any material like sand, natural stones etc.

7. The method of production for a lightweight, mass-producible, antibacterial insulation material with high heat, corrosion and impact resistance that can be used in construction, machinery & equipment, furniture, defense, apparel-accessory industry, art, as well as in land-sea-air vehicles, comprising: Making a mixture using acrylic group resins, Adding borax, magnesium oxide and sodium bicarbonate into this mixture to obtain the final mixture, Pouring the mixture into a mold, Drying the mixture in the mold until it hardens.

8. The method of production for the insulation material according to claim 7, in which paint, sand, natural materials, stones, powdered ceramics, metals, etc. can be added directly to the mixture before pouring the mixture into the mold.

Description

DETAILED DESCRIPTION

[0031] The invention is a lightweight, mass-producible, antibacterial insulation material with high heat, corrosion and impact resistance that can be used in construction, machinery & equipment, furniture, defense, apparel-accessory industry, art, as well as in land-sea-air vehicles.

[0032] The insulation material comprises: [0033] Acrylic Resin [0034] Fabric [0035] Borax [0036] Magnesium Oxide [0037] Sodium Bicarbonate

[0038] The method of production for the insulation material is as follows: Adding borax, magnesium oxide and sodium bicarbonate into the acrylic group resin mixture, treating this mixture on the fabric, giving the desired form to the product, blowing 22-24° C. air to the product until it hardens, and then leaving the product to rest for 24 hours.

[0039] Alternatively, the insulation material can be painted with a desired color. Optionally, the subject matter invention can be coated with sand, natural stones, etc.

[0040] An alternative method of production of the invention is the casting method. This method comprises the following steps: After adding borax, magnesium oxide and sodium bicarbonate into the acrylic group resin mixture, the mixture is poured into a mold. The mixture is then dried until it hardens. Drying time varies based on the thickness of the invention material. Optionally in this method; paint, sand, natural materials, stones, powdered ceramics, metals etc. can be added directly to the mixture before pouring the mixture into the mold. Alternatively, paint, sand, natural materials, stones, powdered ceramics, metals, etc. can be placed in the mold first and the acrylic resin and borax, magnesium oxide and sodium bicarbonate mixture can be poured into the mold.

[0041] The product of the invention can also be used for local repair or coating.

[0042] Since the invention has high viscosity, it can also be used for bonding and fusion purposes.

[0043] The invention in question can also be used in the agricultural environment. It can be used as equipment in insulation rooms/warehouses, product transport containers and agricultural machinery.