JPS6157655A - Building protecting material and its preparation - Google Patents

Abstract

PURPOSE:To obtain the titled protecting material having excellent weather resistance, heat resistance, etc. and low volume shrinkage, resistant to solidification with time, and suitable as an elastic coating, etc., by adding a urethane prepolymer dropwise to an acrylic resin emulsion under agitation, adding a filler, etc., and kneading the mixture. CONSTITUTION:(A) A urethane prepolymer 1 is added dropwise to (B) an acrylic resin emulsion 2 and stirred 3. The component A is dispersed by stirring to effect the reaction of H2O which is a medium of the component B with the isocyanate group of the component A, and obtain (C) a latex 4 composed of urethane polymer particles dispersed in the component B. A filler, dispersing material, stabilizer, pigment, etc. are added to the component C, and kneaded 6 to obtain the objective protecting material.

Description

DETAILED DESCRIPTION OF THE INVENTION The present invention particularly relates to building protection materials such as elastic paints, painted floor materials, and waterproof materials (excluding sealants), and methods for producing the same.

Generally, this type of building protection material is used in various types of construction work, and its main roles can be summarized as follows.

a. Able to adhere or adhere to flooring or wall materials to ensure sufficient watertightness or elasticity.

b. Must maintain watertightness and elasticity against external impacts and other external forces.

C,1! ! Satisfy a and b above over a long period of time in the environment in which the building is exposed.

The types of building protection materials of this type are classified into elastic types and plastic types, and among the elastic types, urethane types are often used from the viewpoint of economy. However, urethane-based materials have drawbacks in terms of performance, such as poor ozone resistance, @f heat resistance, and heat resistance to ultraviolet rays.

In addition, plastic acrylic products have excellent weather resistance and heat resistance, but because they are based on emulsions,
It has the disadvantage that it shrinks by 23 to 25% when it is cured after being sprinkled with water as a medium.

As mentioned above, both urethane-based and acrylic-based materials meet the mission (a, b, c) of building protection materials mentioned above.
It is difficult to say that it is an appropriate material.

The present invention solves these conventional problems, and eliminates the weaknesses of urethane and acrylic systems, and creates a structure that has excellent weather resistance and heat resistance, has a low shrinkage rate, and prevents solidification over time. The purpose is to provide a material for protecting objects and a method for manufacturing the same.

Therefore, the first aspect of the present invention is characterized in that urethane polymer particles are mixed in a dispersed manner in the component consisting of an acrylic resin emulsion, and the second aspect of the present invention is characterized by However, the urethane prepolymer is added dropwise to the acrylic resin emulsion and stirred, and while the urethane prepolymer is dispersed by the stirring, F20, which is the medium of the acrylic resin emulsion, reacts with the isocyanate group of the urethane prepolymer. let me,
A raw latex in which urethane polymer particles are dispersed in the acrylic resin emulsion is obtained, and then fillers, dispersants, stabilizers, pigments, etc. are added to the latex and kneaded.

Hereinafter, the present invention will be explained in detail based on drawings showing examples.

The figure is a block diagram for explaining the method for manufacturing building protection materials such as elastic paints, painted floor materials, waterproof materials, etc. (excluding sealants) according to the present invention. As shown in 1 to 4 in the figure, in the present invention, a urethane prepolymer 2 is first dropped into an acrylic resin emulsion 1 and stirred 3 to produce a raw material latex 4. Here, acrylic resin emulsion 1 refers to various acrylic ester copolymer emulsions,
Styrene acrylic copolymer emulsion, ethylene acid biacrylic terpolymer emulsion, containing 50% or more of resin gold. In addition, urethane prepolymer refers to NG, which is used as a base material for urethane-based building protection.
Refers to one with an O content of 1.0 to 4.0%. The acrylic resin emulsion 1 is premixed by adding an auxiliary emulsifier, a protective colloid, etc. to the urethane prepolymer 2 dropwise and stirring 3 for about 5 minutes. Furthermore, urethane prepolymer 2 was also premixed by mixing a plasticizer and stirring for about 5 minutes. The above-mentioned auxiliary emulsifier is a nonionic emulsifier HLB-1
1 to 14, and the protective colloid is an aqueous solution of poval and hydroxymethyl cellulose. Furthermore, plasticizers include PPG and phthalate esters,
That is, it refers to DBP5DOP etc.

While stirring the acrylic resin emulsion 1 premixed in this way, urethane prepolymer 2 that was also premixed was added dropwise to the emulsion 1.
Stir 3 for 5 to 20 minutes.

While dispersing the urethane prepolymer 2 through stirring 3, H2O, which is the medium of the acrylic resin emulsion 1, is reacted with the isocyanate groups of the urethane prepolymer 2, thereby creating a raw latex in which urethane polymer particles are dispersed in the acrylic resin emulsion 1. Get 4. The blending ratio of the resin (solid content) of the premixed acrylic resin emulsion 1 and the similarly premixed urethane prepolymer 2 is 1oo: (50 to 100
).

Thereafter, a predetermined amount of a pigment dispersant, a stabilizer, a film forming aid, and a freeze stabilizer were added to the obtained raw material latex 4 and stirred 5, and after these dispersions were completed, further:
Knead the filler, reinforcing agent, and pigment 6. This makes it easy to obtain the building protection material 7.

As a production condition, the mixing time of the filler and pigment is 4.
Requires 0 to 60 minutes. Then 60-65cm/)
A vacuum defoaming step for 1 g is performed for 25 to 30 minutes to remove the CO2 generated by the reaction, but if there is a large amount of CO2 remaining, it must be removed again by reduced pressure. Also,
When assembling the prescription, the solid content should be at least 85% and the specific gravity should be 1.
It is necessary to set it to 4 or less.

The performance of the urethane latex protective material produced as described above was evaluated based on JIS A 5758 "Sealing materials for construction", and the results were as shown in Table 3.

Table I Next, the results of comparison between the protective material of the present invention and conventional one-component and two-component urethane protective materials and water-based acrylic protective materials are shown in Tables 1, 2 and 3, respectively.

Table ■ Table ■ Table ■ and ttsu, Shisuke 1 life force) direction (Inuijobo 1 Otsu collection a hand also / J%
and t gold.

As is clear from the above Tables I, ■, ■, and ■, the performance of the urethane latex protective material of the present invention is excellent, and in particular, it is superior to the conventional urethane protective materials and acrylic protective materials. It can be seen that the shortcomings have been improved.

° In the above example, the raw material latex 4 was produced by dropping the premixed urethane prepolymer 2 into the premixed acrylic resin emulsion 1 while stirring. Without premixing the plasticizer, the plasticizer is mixed in advance with the premixed acrylic resin emulsion 1, and then this acrylic resin emulsion 1
It is also possible to make a latex by dropping the urethane prepolymer while stirring, but for comparison, both latexes were each coated on a glass plate at a thickness of 1.01 mm.
After dry-curing films were created under the conditions of °C, 45-65% RH, and 7211R, their shapes were observed and compared.The former latex film was transparent and uniform, but the latter latex film was It was a little cloudy and had a rough texture. Therefore, in the examples of the present invention, it was confirmed that the urethane polymer particles and the acrylic resin particles were well dispersed by the former method. In the present invention, the term "building protection material" is defined as referring to elastic paints, painted floor materials, waterproof materials, etc., excluding sealants.

The present invention has effectively achieved its initial objective with the configuration detailed above. In particular, the urethane prepolymer 2 is dropped into the acrylic resin emulsion 1 and stirred 3, and while the urethane prepolymer 2 is dispersed by the stirring, H2O, which is the medium of the acrylic resin emulsion 1, and the isocyanate groups of the urethane prepolymer 2 are mixed. As a result, it was possible to obtain raw material latex 4 in which urethane polymer particles were dispersed in an acrylic resin emulsion. Since the urethane latex-based protective material 7 manufactured from the latex 4 is of a -component type, no mixing or stirring steps are required when using it, and it can be filled into a wet surface. Furthermore, it has excellent heat resistance and weather resistance, as well as volumetric shrinkage rate (
(to 17-18%), and furthermore, it was possible to prevent solidification over time. As described above, this is a disappointing invention that eliminates the drawbacks of conventional urethane-based protective materials and acrylic-based protective materials, and highlights their advantages.

[Brief explanation of drawings]

The figure is a block diagram for explaining the manufacturing method of the present invention. ■ Acrylic resin emulsion, 2 Urethane prepolymer, 3 stirring, 4 Raw material latex, 6
...Kneading, 7...Building protection material. Patent applicant Nitto Bolimar Kogyo Co., Ltd. Procedural Manual (Spontaneous snoring May 17, 1960-'''' Insects 1 Patent Application No. 241528 of 1982 2, Title of Invention Structure Enclosure Material Relationship between the manufacturing method 3 and the case of the person making the amendment Patent applicant name Nitto Bolimae Gyo Co., Ltd. 4, agent [Co., Ltd.] 530 Nozomi (06) 344-0177 No.
Issuance/Amendment Description 1. Title of the invention: Building protection material and method for producing the same. 2. Claim 1. A component consisting of an acrylic resin emulsion 1, characterized in that urethane polymer particles are mixed in a dispersed state. Protective material for buildings. 2. Add urethane prepolymer 2 dropwise to acrylic resin emulsion 1 and stir 3. While dispersing urethane prepolymer 2 by stirring 3, mix Hρ, which is the medium of the acrylic resin emulsion 1, with urethane prepolymer 2.
isocyanate groups to obtain a raw material latex 4 in which urethane polymer particles are dispersed in the acrylic resin emulsion 1, and then a filler,
A method for producing a building protection material, which comprises adding a dispersant, a stabilizer, a pigment, etc. and kneading (6). 3. Detailed Description of the Invention The present invention particularly relates to building protection materials (excluding sealants) such as elastic paints, painted flooring materials, and waterproofing materials, and methods for producing the same. Generally, this type of building protection material is used in various types of construction work, and its main roles can be summarized as follows. a. Able to adhere or adhere to flooring or wall materials to ensure sufficient watertightness and elasticity. b. Must maintain watertightness and elasticity against external impacts and other external forces. c, 11! The above a and b can be maintained for a long period of time in the environment in which the building is exposed. The types of building protection materials of this type are classified into elastic types and plastic types, and among the elastic types, urethane types are often used from the viewpoint of economy. However, urethane-based materials have the disadvantage of being inferior in ozone resistance, heat resistance, and resistance to heat ultraviolet rays in terms of performance. In addition, plastic acrylic products have excellent weather resistance and heat resistance, but because they are based on emulsions,
It has the disadvantage that water, which is a medium, evaporates and hardening progresses, resulting in solidification over time. As mentioned above, both urethane-based and acrylic-based materials meet the mission (a, b, c) of building protection materials mentioned above.
It is difficult to say that it is an appropriate material. The present invention solves these conventional problems, and eliminates the weaknesses of urethane and acrylic systems, and creates buildings that have excellent weather resistance and heat resistance, have low volumetric shrinkage, and prevent solidification over time. The purpose is to provide a protective material and its manufacturing method. Therefore, the first aspect of the present invention is characterized in that urethane polymer particles are mixed in a dispersed manner in the component consisting of an acrylic resin emulsion, and the second aspect of the present invention is characterized by However, the urethane prepolymer is dropped into an acrylic resin emulsion and stirred, and while the urethane prepolymer is dispersed by the stirring, H and O, which are the medium of the acrylic resin emulsion, and the isocyanate groups of the urethane prepolymer are mixed. Let it react.”
A raw material latex is obtained in which urethane polymer particles are dispersed in the acrylic resin emulsion as described above, and then fillers, additives, stabilizers, pigments, etc. are added to the latex and kneaded. Hereinafter, the present invention will be explained in detail based on drawings showing examples. The figure is a block diagram for explaining the method for manufacturing building protection materials such as elastic paints, painted floor materials, waterproof materials, etc. (excluding sealants) according to the present invention. As shown in 1 to 4 in the figure, in the present invention, a urethane prepolymer 2 is first dropped into an acrylic resin emulsion 1 and stirred 3 to produce a raw material latex 4. Here, acrylic resin emulsion 1 refers to various acrylic ester copolymer emulsions,
Styrene acrylic copolymer emulsion, ethylene acetate biacrylic ternary copolymer emulsion, with a resin content of 50% or more. Moreover, the urethane prepolymer refers to a urethane prepolymer containing 1.0 to 4.0% NGO and used as a base material for urethane-based building protection materials. The acrylic resin emulsion 1 is premixed by adding an auxiliary emulsifier, a protective colloid, etc. to the urethane prepolymer 2 dropwise and stirring 3 for about 5 minutes. Furthermore, urethane prepolymer 2 was also premixed by mixing a plasticizer and stirring for about 5 minutes. The above-mentioned auxiliary emulsifiers are nonionic emulsifiers HLB-11 to
I4, and the protective colloids are poval,
This is an aqueous solution of hydroxymethylcellulose. moreover,
Plasticizers include PPG and phthalate esters, that is, D
Refers to BP, DOP, etc. While stirring the acrylic resin emulsion 1 premixed in this way, the same (premixed urethane prepolymer 2) was added dropwise to the emulsion 1.
Stir 3 for 5 to 20 minutes. While dispersing the urethane prepolymer 2 by stirring 3, the medium of the acrylic resin emulsion 1, H-0, was reacted with the isocyanate groups of the urethane prepolymer 2, and the urethane polymer particles were dispersed in the acrylic resin emulsion 1. Raw material latex 4 is obtained. The blending ratio of the resin (solid content) of the premixed acrylic resin emulsion 1 and the urethane prepolymer 2 that was also premixed is 100: (50 to 100).
shall be. Thereafter, a predetermined amount of a pigment dispersant, a stabilizer, a film forming aid, and a freeze stabilizer were added to the obtained raw material latex 4 and stirred 5, and after these dispersions were completed, further:
Knead 6 the filler, reinforcing agent, and pigment. As a result, under the six production conditions for the building protection material 7, the kneading and stirring time of the filler and pigment is required to be 40 to 60 minutes. after that,
A vacuum degassing step of 60 to 65 cm/11 g is performed for 25 to 30 minutes to remove COrtt generated by the reaction.
If a large amount of CO2 remains, it must be removed again by reduced pressure. The performance of the urethane latex protective material manufactured as described above was evaluated according to JAS A 575B "Sealing materials for construction", JIS A 6910 "Multi-layer finishing coating materials", and JIS A 6021 "Roof waterproof coating materials 1". The performance was evaluated by applying the following formula, and the results were as shown in Table I, Table I', and Table I'', respectively. Evaluation table 1 (JIS 8 5758) as a building sealant ■
'Evaluation of multi-layer coating material E as a multi-layer finishing coating material,
(JIS A 6910) Table I 3rd page as Yahoo! The relative softness results are shown in Tables ■, Table ■, and Table ■, respectively. Table ■ Table ■ Table ■ Each of the above tables 1. As is clear from I, ■, ■, ■, and ■, the performance of the urethane latex-based protective material of the present invention is excellent, and in particular, the drawbacks of the conventional urethane-based protective materials and acrylic-based protective materials have been improved. I can see that it is being done. In the above example, the raw material latex 4 was produced by stirring the premixed acrylic resin emulsion Ieffl and then lowering the premixed urethane prepolymer 2. Instead of premixing the polymer and plasticizer, the plasticizer is mixed in advance with the premixed acrylic resin emulsion 1, and then the urethane prepolymer is added dropwise to the acrylic resin emulsion 1 while stirring to form latex. However, for comparison, both latexes were applied to a glass plate at a thickness of 1.0 am, and a dry and cured film was created under the conditions of 20°C, 45% to 65% RH, and 7211r. When their shapes were observed and compared, the former latex film was transparent and uniform, but the latter latex film was slightly cloudy and rough in texture. Therefore, in the examples of the present invention, it was confirmed that the urethane polymer particles and the acrylic resin particles were well dispersed by the former method. In the present invention, the term "building protection material" is defined as referring to coating materials that cover buildings, such as elastic paints, painted flooring materials, and waterproofing materials, excluding sealants. The present invention has effectively achieved its initial objective with the configuration detailed above. In particular, the urethane prepolymer 2 is dropped into the acrylic resin emulsion 1 and stirred 3, and while the urethane prepolymer 2 is dispersed by the stirring, I(,0, which is the medium of the acrylic resin emulsion 1) and the urethane prepolymer 2 As a result, a raw material latex 4 in which urethane and X'X polymer particles were dispersed in an acrylic resin emulsion 1 could be obtained.Urethane latex-based protective material 7 produced from the latex 4 Since it is a -component type, there is no need for mixing or stirring processes when using it, and it can be applied to wet surfaces.Moreover, it has excellent heat resistance and weather resistance, and has a shrinkage rate of (17~ 18%), and furthermore, it was possible to prevent solidification over time.As described above, the drawbacks of conventional urethane-based protective materials and acrylic-based protective materials were removed,
This is an excellent invention that highlights these advantages. 4: The explanatory diagram of the tII vehicle in the drawings is a block diagram for explaining the manufacturing method of the present invention. DESCRIPTION OF SYMBOLS 1... Acrylic resin emulsion, 2... Urethane prepolymer, 3... Stirring, 4... Raw material latex, 6... Kneading, 7... Building protection material. Patent applicant Nitto Bolimar Industries Co., Ltd.

Claims (1)

[Claims] 1. A building protection material characterized in that urethane polymer particles are mixed in a dispersed state in a component consisting of acrylic resin emulsion 1. 2. Add urethane prepolymer 2 dropwise to acrylic resin emulsion 1 and stir 3. While dispersing the urethane prepolymer 2 by stirring 3, mix H_2O, which is the medium of the acrylic resin emulsion 1, and the isocyanate of the urethane prepolymer 2. to obtain a raw material latex 4 in which urethane polymer particles are dispersed in the acrylic resin emulsion 1, and then add fillers, dispersants, stabilizers, pigments, etc. to the latex 4 and knead 6. A method for manufacturing a building protection material characterized by: