JP2006231785A - Method for manufacturing inorganic molded body - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To inhibit the generation of both efflorescence and dry-out in the process of curing without using a solvent based sealer causing the worsening of the working environment, when a cement based molding material consisting of a cement containing reverse emulsion composition containing cement, water, and an oily matter is molded, and cured to manufacture an inorganic molded body. <P>SOLUTION: A sealer consisting of a self-emulsification type resin emulsion not containing an emulsifier is applied on the surface of a molded body molded of a cement based molding material, and the curing is performed. Since the surface of the molded body under curing is protected by the sealer and an emulsifier is not contained in the sealer, such an emulsifier does not have a harmful effect on the formation of a reverse emulsion in the molded body and the breakage of a reverse emulsion of the molded body can be inhibited. Moreover, since a sealer of a solvent base is not used, the handleability of a sealer is good, and the worsening of the working environment by the volatilization of a solvent is not caused. <P>COPYRIGHT: (C)2006,JPO&NCIPI

Description

  The present invention relates to a method for producing an inorganic molded body in which a molded body obtained by molding a cement-based molding material comprising a cement-containing inverse emulsion composition containing cement, water, and an oily substance is cured and cured.

  Cement-based molded articles formed by extrusion molding or the like are widely used as building materials because they are excellent in weather resistance and fire resistance and have low production costs.

  Conventionally, as an effective method for producing an inorganic molded body such as a cement-based molded article, a method using a cement-based molding material containing water, a hydraulic cement, and an inverse emulsion (W / O emulsion) containing an oily substance and an emulsifier. Has been proposed. This cement-based molding material is excellent in shape retention during molding and has the feature that the specific gravity of the cement-based molded product can be freely controlled by changing the water / cement ratio. (See Patent Document 1).

  When producing an inorganic molded body that can be applied to ceramic-type exterior materials and interior materials with such a cement-based molding material, the cement-based molding material is molded into a desired shape and desired on the outer surface as necessary. The pattern of the shape is formed, and this is hydrated and cured by steam curing or the like.

  In the curing and curing process of the above molded product, when steam or moisture evaporated from the molded product is condensed on the surface of the molded product, the calcium content in the molded product is eluted in the condensed water. White efflorescence may occur. Such efflorescence causes the appearance of the inorganic molded body to be poor, and particularly when the base material is colored with a feeling of material, the appearance of the inorganic molded body is very poor. When the coating was applied to the film, it was a cause of poor adhesion of the coating film.

Therefore, it is also attempted to prevent the occurrence of efflorescence by applying a sealer to the molded body to protect the surface and curing in that state. As such a sealer, a solvent type such as a vinyl chloride sealer, an epoxy sealer, an acrylic sealer, etc. using thinner, IPA or the like as a solvent was used. O / W emulsion type such as acrylic emulsion sealers such as silane-modified acrylic emulsion sealers and acrylic styrene emulsion sealers such as “Acronal” manufactured by BASF Japan. Sealers are also used.
JP 61-26542 A

  However, when an O / W emulsion type sealer as described above is applied to a molded body, there is a problem that poor curing (so-called dryout) occurs in the surface layer portion of the molded body.

  The present invention has been made in view of the above points. An inorganic molded body is obtained by molding a cement-based molding material comprising a cement-containing inverse emulsion composition containing cement, water, and an oily substance, and curing and curing it. To provide a method for producing an inorganic molded body capable of suppressing both the occurrence of efflorescence and dryout in the curing and curing process without using a solvent-based sealer that causes deterioration of the working environment in production. It is intended.

  As a result of intensive studies, the present inventors have found that the occurrence of dryout due to the use of the above-described O / W emulsion type sealer is caused by the inverse emulsion of the cement-based molding material in which the emulsifier contained in the sealer constitutes the molded product. Based on the assumption that the inverse emulsion is broken by adversely affecting the formation, and thus the volatilization of water and oily substances from the molded body is promoted, and the hydration and hardening in the surface layer does not proceed sufficiently. The present invention has been completed by finding a sealer that does not adversely affect the inverse emulsion of the system molding material.

  That is, the method for producing an inorganic molded body according to the present invention is a method for producing an inorganic molded body for curing and curing a molded body obtained by molding a cement-based molding material comprising a cement-containing inverse emulsion composition containing cement, water, an oily substance and an emulsifier. The curing is carried out in a state where a sealer made of a self-emulsifying resin emulsion not containing an emulsifier is applied to the surface of the molded body.

  For this reason, the sealer protects the surface of the molded body during curing and curing, and since the emulsifier is not contained in the sealer, such an emulsifier does not adversely affect the formation of the inverse emulsion in the molded body. The destruction of the inverse emulsion of the body can be prevented. In addition, since a solvent-based sealer is not used, the handleability of the sealer is good and the working environment is not deteriorated due to volatilization of the solvent.

  As the sealer, it is preferable to use a self-emulsifying urethane emulsion.

  According to the present invention, when the molded body is cured and cured to obtain an inorganic molded body, the occurrence of efflorescence is generated by protecting the surface of the molded body without using a solvent-based sealer that causes deterioration of the working environment. In addition to preventing the occurrence of poor appearance and poor adhesion of the coating film, it can also prevent the occurrence of dryout by preventing the breakage of the inverse emulsion in the molded body by the sealer, The hardness of the surface of the molded body can be sufficiently increased.

  The best mode for carrying out the present invention will be described below.

  The cement-based molding material used in the present invention is composed of a cement-containing inverse emulsion composition mainly composed of cement, water and an oily substance. In this composition, the ratio of cement to water can be set arbitrarily, but the mass ratio is generally preferably in the range of 0.3 to 2 water with respect to cement 1.

  The cement is not particularly limited, but Portland cement, fly ash cement, blast furnace cement, alumina cement, high alumina cement, silica fume, etc. can be used, or one kind can be used alone, or two or more kinds can be used. Can be used together.

  The oily substance is not particularly limited as long as it can form an inverse emulsion (W / O emulsion) with water, and usually a hydrophobic liquid substance is used. For example, toluene, xylene, kerosene, styrene , Divinylbenzene, methyl methacrylate, trimethylolpropane trimethacrylate, unsaturated polyester resin and the like. In particular, if an oily substance having a polymerizable double bond (vinyl monomer) such as styrene, divinylbenzene, methyl methacrylate, trimethylolpropane trimethacrylate, or unsaturated polyester resin is used, the hydration reaction of cement And an oily substance having a polymerizable double bond occur simultaneously, and the polymer forms a matrix, so that a cement molded article having excellent physical and mechanical properties can be obtained.

  When an oily substance having a polymerizable double bond is used, a polymerization initiator such as an organic peroxide or persulfate such as t-hexylperoxy-2 is used in order to accelerate the polymerization of the oily substance. -It is desirable to use ethyl hexanoate together. Further, a crosslinking agent such as trimethylolpropane trimethacrylate can be used in combination.

  The content of the oily substance in the cement-containing inverse emulsion composition is appropriately determined so that an inverse emulsion with water can be formed in the cement-containing inverse emulsion composition and desired properties are imparted to the resulting inorganic molded body. Although adjusted, it is preferable that it is the range of 5-10 volume% with respect to the total amount of the water and solid content, for example in a cement containing inverse emulsion composition.

  Moreover, it is preferable to mix | blend an emulsifier (reverse emulsifier) other than the said component with a cement containing inverse emulsion composition. The emulsifier is blended to impart stability to the inverse emulsion.For example, non-emulsified sorbitan sesquioleate, glycerol monostearate, sorbitan monooleate, diethylene glycol monostearate, sorbitan monostearate, diglycerol monooleate, etc. Ionic surfactants, various anionic surfactants, cationic surfactants, and the like can be used. The content of such an emulsifier can also be adjusted as appropriate, but it is preferably in the range of 1 to 3% by volume with respect to the total amount of water and solids in the cement-containing inverse emulsion composition.

  Further, in the cement-containing inverse emulsion composition, an appropriate amount of reinforcing material such as lightweight aggregate, silica-based aggregate, organic fiber, and various additives can be blended. Examples of lightweight aggregates include fly ash balloons, perlite, shirasu balloons, and the like, as well as organic foams such as expanded polystyrene and polyvinylidene chloride foam, and the content thereof is 20 with respect to 100 parts by mass of cement. It is preferable to set it as the range of -40 mass parts. Moreover, as a silica type aggregate, gravel, glass powder, an alumina silicate etc. can be used, for example, It is preferable that the content shall be 100 mass parts or less with respect to 100 mass parts of cement. Moreover, as an organic fiber, a polypropylene fiber, an acrylic fiber, a vinylon fiber etc. can be used, for example, and it is preferable to make the content into the range of 3-6 mass parts with respect to 100 mass parts of cement.

  Next, a method for producing an inorganic plate using the cement-containing inverse emulsion composition as a cement-based molding material will be described.

  First, a molded body is produced by molding a cement-based molding material into a plate shape or the like. The molded body can be molded by commonly used means such as a casting method, an extrusion molding method, an injection molding method, and a press molding method.

  In the present invention, a sealer made of a self-emulsifying resin emulsion not containing an emulsifier is applied to the surface of the molded body before curing and curing the molded body thus obtained. The self-emulsifying resin emulsion here means that the resin itself forming the emulsion has a hydrophilic group and a hydrophobic group, so that the emulsification is performed without requiring an emulsifier by placing the hydrophilic group on the surface side in an aqueous solution. Examples of the dispersion include self-emulsifying urethane emulsions, self-emulsifying acrylic emulsions, and self-emulsifying acrylic styrene emulsions.

  In particular, it is preferable to use a sealer made of a self-emulsifying urethane emulsion.

  In addition to the resin forming the emulsion, the sealer can contain an appropriate additive. For example, texanol can be added as a film forming aid, or an appropriate dye or pigment for coloring can be added. You may do it.

When such a sealer is applied to the molded body and then formed into a film, the film is usually dried by drying at room temperature because dryout may occur when baking and drying are performed. The coating amount of the sealer is appropriately adjusted, but it is preferable that the coating amount of the dry coating film of the sealer is in the range of ² to 6 g / m2.

  Next, the molded body to which the sealer is applied is cured and cured, and further dried as necessary to obtain an inorganic molded body. Conditions for performing curing and curing are appropriately set. For example, heating can be performed at 40 to 100 ° C. for 20 to 48 hours. At this time, steam curing may be performed, but the molded body may be heated by other appropriate means.

When the molded body is cured and cured in this manner, even if condensation occurs on the surface of the molded body during the curing and curing process, the surface of the molded body is protected by the sealer. elution inhibitory Harm can Rukoto a, it is possible to prevent the efflorescence occurs in inorganic moldings. Further, since it is used one made of self-emulsifying resin emulsion which does not contain an emulsifier as described above as the time sealer without emulsifier at sealer you adverse to reverse Emarujin in the compact, Thus molding The hardness of the surface of the inorganic molded body, which is called dry-out due to breakage of the inverse emulsion of the body, can be suppressed and the hardness can be made sufficiently high. Thus, the wear resistance of the inorganic molded body can be improved without removing the film, and when the inorganic molded body is coated, the adhesion of the coating film can be improved. In addition, since no solvent-based sealer is used, it is possible to prevent the working environment from deteriorating due to the volatilization of the solvent.

(Example 1, Comparative Examples 1 and 2)
After mixing an oily substance and an emulsifier with the composition shown in Table 1 below, water, organic fibers, a crosslinking agent, a polymerization initiator are added, and the mixture is mixed with a mixer to make an inverse emulsion, and further cemented, lightweight. Aggregate and silica-based aggregate were added and kneaded to prepare a cement-based molding material comprising a cement-containing inverse emulsion composition.

This cement-based molding material is molded with an extruder to form a plate-like molded body, and a concavo-convex pattern is formed on the surface thereof with a roll, and then the sealers shown in Table 1 below are sprayed on Example 1 and Comparative Example 1. The dry coating film was applied with a gun so that the coating amount was 4 g / m ² and dried at room temperature.

  Next, the molded body is loaded in a state of being placed in a closed tray, and is heated from room temperature to 60 ° C. over 1.5 hours by a heater curing using steam as a heat source in a steam curing chamber, and then 60 ° C. And then heated to 90 ° C. over 2 hours and then cured by curing at 90 ° C. for 10.5 hours, followed by drying to obtain an inorganic molded body.

(Evaluation test)
About the inorganic molded body obtained in each of the above Examples and Comparative Examples, after sticking the gum tape on the surface, the occurrence of dry-out by checking the presence or absence of peeling of the inorganic molded body when it was peeled off Investigate whether or not peeling is observed (no occurrence of dry-out) and evaluate that peeling is recognized (when dry-out occurs) as “x” did.

  Further, the appearance of this inorganic molded body was visually observed, and “◯” was evaluated when no efflorescence was observed, and “X” was evaluated when efflorescence was observed.

  The above results are also shown in Table 1 below.

  The self-emulsifying urethane emulsion and the O / W type water-based acrylic emulsion shown in Table 1 are both diluted with water so that the resin concentration becomes 10%.

  As is apparent from the above results, efflorescence was generated in Comparative Example 2 without using a sealer, and efflorescence was suppressed in Comparative Example 1 using an O / W-type aqueous acrylic emulsion as a sealer. However, dry out and efflorescence are both suppressed in Example 1 using a self-emulsifying urethane emulsion as a sealer.

Claims (2)

  In the method for producing an inorganic molded body in which a molded body formed from a cement-based molding material comprising a cement-containing inverse emulsion composition containing cement, water, an oily substance and an emulsifier is cured and cured, the surface of the molded body does not contain an emulsifier. A method for producing an inorganic molded body, comprising curing and curing in a state where a sealer made of a self-emulsifying resin emulsion is applied.   The method for producing an inorganic molded body according to claim 1, wherein the sealer is made of a self-emulsifying urethane emulsion.