KR20090109309A - The Method of Accelerating Hardening of Mixtures Treated with Inorganic Adhesive - Google Patents

Abstract

PURPOSE: A method for accelerating the hardening of curable mixtures treated with inorganic adhesive is provided to produce a material which can solve the risk of fire by accelerating the hardening of silicate glass using carbon dioxide. CONSTITUTION: A method for accelerating the hardening of curable mixtures treated with inorganic adhesive comprises a step of accelerating the hardening of cementitious mixture of inorganic materials containing water soluble silicate with SiO2/M2O combination by contacting with carbon dioxide, wherein M is selected from the group consisting of sodium(Na), potassium(K), and lithium(Li).

Description

 The Method of Accelerating Hardening of Mixtures Treated with Inorganic Adhesive

The present invention is a water-soluble compound having a combination of SiO 2 / M 2 O with favorable conditions in the unit cost, strength, workability, etc. of the adhesive material for the curing of the curable mixture in the manufacture of a curable mixture of a non-combustible, heat-insulating, heat-insulating building materials such as building plates In the use of silicate (aka water glass) as an adhesive or binder, the present invention relates to a method for rapidly and rapidly curing water-soluble silicates at low temperatures by using carbon dioxide as a curing accelerator.

 In general, in the production of building plates and materials with improved non-combustibility, insulation, heat insulation, soundproofing, moisture resistance and processability and compressive and tensile strength, using a water-soluble silicate as a pure inorganic non-combustible binder through fast curing in the manufacturing process It has improved productivity and workability, increased mechanical strength even more, and is a permanent 100% non-flammable material that has solved various problems such as ignition, flammability, and toxic gas generation in case of fire. It is possible to produce the curable mixture of the bonding inorganic material of the building plate and the material.

The present invention solves the risk of fire by promoting the curing of water-soluble silicate, that is, a pure inorganic non-combustible bonding material, that is, water glass using carbon dioxide gas, and by reinforcing mechanical strength to insulate sandwich panels, lightweight walls, fire doors, The present invention provides a method for promoting hardening of a curable mixture of a bonded inorganic material that can produce materials having excellent non-combustibility, insulation, heat insulation, sound insulation, and the like through wall construction.

The present invention, in order to achieve the above object, the apparatus for curing the bonded mixed hardening (5) using a high-pressure CO2 gas cylinder (11), and the bonded mixed hardened material (5) using a dry ice 18 The device for curing the vacuum pump on one side of the high-pressure curing tank (1) consisting of a high-pressure hardening tank opening and closing door (2) and a high-pressure hardening tank opening and closing handle (3) that allows the cured product (5) to enter the inner shelf (4). (6), compressor (8), high pressure CO2 gas cylinder (10) for vacuum pump on-off valve (7), compressor on-off valve (9) (17), high pressure CO2 gas cylinder on-off valve (11) and high pressure tank pressure release The dry ice sublimation tank opening and closing door 14 and the dry ice sublimation tank, which are connected to each other through the on / off valve 16 and allow the dry ice 18 to enter and exit the other side of the high-pressure hardening tank 1. Dry consisting of the opening and closing handle 12 'and the dry ice sublimation heater 15 Ice sublimation tank 12 is characterized in that it is connected in a communication structure through the dry ice sublimation gas inlet valve (13).

As described above, the present invention solves the risk of fire by promoting the curing of water-soluble silicate, ie, water glass using carbon dioxide gas, which is a pure inorganic non-flammable bonding material, sandwich panels, Lightweight walls, insulation of fire doors, through the construction of the wall, there is an effect that can produce a material excellent in non-combustible, thermal insulation, heat insulation, sound insulation.

 Hereinafter, with reference to the accompanying drawings in detail, Figure 1 is a schematic diagram showing the process of the present invention.

      As shown, in the case where the high pressure CO2 gas cylinder 11 is used to cure the bonded mixed hardened product 5, the high pressure hardened tank opening and closing door 2 of the high pressure hardened tank 1 is opened and the combined mixed hardened product 5 is opened. To the inner shelf (4) of the high-pressure curing tank (1), close the opening and closing door (2), turn the high-pressure curing tank (1) opening and closing handle (3) to be completely sealed.

      Thereafter, the high pressure hardening tank pressure relief valve 16, the compressor on / off valve 17, the high pressure CO2 gas on / off valve 11, and the dry ice sublimation gas inlet valve 13 are closed, and then the vacuum pump 6 is opened and closed. Open the valve (7), operate the vacuum pump (6) to depressurize the inside of the tank to remove the internal bubbles and some water in the bonded mixed cured product (5), close the vacuum pump open / close valve (7), and then press the high pressure CO2 gas. The on-off valve 11 is opened and carbon dioxide gas flows into the high pressure hardening tank 1. Inflow and pressurization cause carbon dioxide gas to penetrate into the interior of the bonded mixed cured product 5 to accelerate curing of the bonded mixed cured product 5 as a whole, thereby completing curing.

      Thus, when hardening is completed, the high pressure CO2 gas opening / closing valve 11 is shut off, the compressor inlet / outlet valve 9 is switched to a pressure reducing valve (inlet), and the compressor 8 is operated to operate the high pressure curing tank 1. Residual carbon dioxide in the tank) is stored in the compressor (8) tank.

      This is a method for recycling the remaining carbon dioxide.

      Thereafter, after the pressure in the high pressure curing tank 1 is released by the high pressure tank pressure release valve 16, the opening and closing door 2 of the high pressure curing tank is opened to take out the bonded mixed cured product 5 to complete curing.

      Subsequently, when reworking, open and close the door 2 of the high pressure curing tank 1, place the bonded mixed cured product 5 on the inner shelf 4 of the high pressure container, close the door 2 and close and open the handle. Turn (3) to seal it completely. Thereafter, the high pressure tank pressure relief valve 16, the compressor on / off valve 17, the high pressure CO2 gas on / off valve 11, and the dry ice sublimation gas inlet valve 13 are closed, and the vacuum pump on / off valve 7 is then closed. Open the vacuum pump (6) to depressurize the inside of the high-pressure curing tank (1) to remove the internal bubbles and some moisture of the bonded mixed cured product (5), and then close the vacuum pump on / off valve (7) and press the high pressure CO2 The gas open / close valve 11 is opened, and carbon dioxide gas flows into the high pressure hardening tank 1.

     At this time, the high pressure carbon dioxide gas is introduced at a low pressure level, the high pressure CO2 gas shut-off valve 11 is shut off, and the secondary pressure switches the compressor inlet / outlet valve 9 to the pressure valve (outlet) and operates the compressor 8. Pressurize using the carbon dioxide gas stored in the compressor.

      When the carbon dioxide gas penetrates into the interior of the bonded mixed cured product 5 to accelerate the curing of the bonded mixed cured product 5 as a whole, and the curing is completed, the compressor inlet / outurance valve 9 is opened by a pressure reducing valve (inlet). ) And operate the compressor (8) to store the remaining carbon dioxide in the high pressure tank (1) into the compressor tank. Repeat this operation.

When hardening the adhesive mixed hardened | cured material 5 using the dry ice 18, the dry ice 18 is put into the dry ice sublimation tank 12, and the dry ice sublimation tank opening door 14 is closed and sealed, The heater 15 is operated to promote sublimation of the dry ice 18. Thereafter, the open / close door 2 of the high-pressure hardening tank 1 is opened, the bonded mixed cured product 5 is placed on the inner shelf 4 of the high-pressure container, the open / close door 2 is closed, and the high-pressure hardening tank open / close handle 3 To fully seal. Thereafter, the high pressure tank pressure relief valve 16, the compressor on / off valve 17, the high pressure CO2 gas on / off valve 11, and the dry ice sublimation gas inlet valve 13 are closed, and the vacuum pump on / off valve 7 is then closed. Open the vacuum pump 6 to depressurize the inside of the high-pressure hardening tank 1 to remove internal bubbles and some moisture of the bonded mixed cured product 5, and then close and close the vacuum pump on / off valve 7 The dry ice 18 induces carbon dioxide gas by opening the dry ice sublimation gas inlet valve 13, and when time passes, dry ice according to the law of fms Avogadro according to the gas state equation of PV = nRT. (CO2) One molecular weight, i.e., 44 g, generates 22.4 liters of gas, and a pressure of 1.08 atm is generated on a 25 ° C room temperature basis. Therefore, a high pressure tank having a volume of 10 kPa produces a carbon dioxide gas pressure of 1.08 atm when dry ice 19.6 Kg is sublimated 100%, and a pressure of 1.377 atm is generated when 29.4 Kg dry ice is sublimed. Since 1 atm has a force of 1.013 × 10 ⁶ (dyne / cm 2), 1.377 atm can generate a force of 1.395 × 10 ⁶ (dyne / cm 2). Of course, when carbon dioxide is consumed by the reaction of water glass and carbon dioxide gas, the pressure will drop rapidly, but after the high pressure carbon dioxide is already in contact with the inside of the adhesive mixed cured product.

     If the high pressure curing tank is not evacuated, even if one pressure of carbon dioxide is generated in the existing space of the high pressure curing tank, even if one pressure of carbon dioxide is generated, a pressure of two or more pressures is actually generated.

     The subsequent process is the same as the case of using a high-pressure CO2 gas cylinder to cure the bonded mixed hardened material, and the repetitive process of transferring the remaining carbon dioxide to the compressor tank is the same as before.

       According to Avogadro's law,

       PV = nRT

      Gas constant R = PV / nT,

      That is, since 1.00 × 22.4 / 1.00 × 273 = 0.082 (Latm / molK), P = nRT / V, where the absolute temperature T (273 ° K) becomes 298 ° K when the room temperature is 25 ° C. .

      Therefore, P = 1 x 0.082 x 298 / 22.4 = 24.4 / 22.4 = 1.08 atm.

1atm has a force of 1.013 × 10 ⁶ (dyne / ㎠),

1.08 atm is 1.094 × 10 ⁶ (dyne / cm 2).

  1 is a schematic representation of the process of the present invention

Claims (3)

   A method for promoting hardening of a curable mixture of a bonded inorganic material in which the cementitious mixture of an inorganic material containing a water-soluble silicate having a SiO2 / M2O compound is cured by contact with carbon dioxide as a curing method.       Here, M is selected from the group consisting of sodium (Na), potassium (K), lithium (Li).        The carbon dioxide gas used for curing the cementitious mixture of the inorganic material containing a water-soluble silicate having a combination of SiO2 / M2O is a high pressure carbon dioxide gas or a solid carbon dioxide gas, that is, dry ice. Hardening promoting method of the curable mixture of the bonded inorganic material characterized by hardening.         In order to harden the cementitious mixture of water glass, i.e., sodium silicate, in contact with carbon dioxide gas as a hardening method, a vacuum pump 6 is operated by using a high pressure curing tank 1 to depressurize the inside of the tank. Promoting the curing of the curable mixture of the bonded inorganic material, characterized in that for supplying carbon dioxide gas to the high-pressure CO2 gas cylinder 10 or dry ice 18, and curing the carbon dioxide gas by using the compressor (8). Way.

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