JP2006282420A - Emulsion for polymer cement-based coating waterproof material and cement composition - Google Patents

Emulsion for polymer cement-based coating waterproof material and cement composition Download PDF

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JP2006282420A
JP2006282420A JP2005101715A JP2005101715A JP2006282420A JP 2006282420 A JP2006282420 A JP 2006282420A JP 2005101715 A JP2005101715 A JP 2005101715A JP 2005101715 A JP2005101715 A JP 2005101715A JP 2006282420 A JP2006282420 A JP 2006282420A
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emulsion
cement
ethylene
mass
vinyl acetate
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JP4220977B2 (en
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Norihiro Ikeda
憲弘 池田
Hiroshi Takatsuki
洋 高月
Kimihiko Nakamura
公彦 中村
Takuya Isobe
卓也 磯部
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Resonac Holdings Corp
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Showa Highpolymer Co Ltd
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Abstract

<P>PROBLEM TO BE SOLVED: To provide an emulsion for a polymer cement-based coating waterproof material, which is relatively low in temperature dependence of the elongation degree of a coating while having excellent ground following property and an appropriate coating strength, that is to say, which has an excellent elongation degree of the coating even at a low temperature (-10 to 5°C) and a high temperature (28 to 60°C) and little surface tack, and a cement composition. <P>SOLUTION: The emulsion contains a copolymer comprising ethylene, vinyl acetate, and a polyfunctional monomer and having a glass transition temperature of -9 to +5°C, and an emulsifying stabilizer. The mass ratios of ethylene, vinyl acetate, and the polyfunctional monomer are 20-30, 80-70, and 0.35-0.8, respectively. The emulsion contains only polyvinyl alcohol as the emulsifying stabilizer. The cement composition contains, as essential components, the emulsion for the polymer cement-based coating waterproof material and cement. <P>COPYRIGHT: (C)2007,JPO&INPIT

Description

本発明はポリマーセメント系塗膜防水材用エマルジョンおよびセメント組成物に関する。さらに詳しくは下地追随性に優れ、塗膜の表面タックが少なく、適度な塗膜強度を有しながら塗膜伸度の温度依存性が比較的小さいポリマーセメント系塗膜防水材用エマルジョンおよびセメント組成物に関する。   The present invention relates to an emulsion for a polymer cement-based waterproofing coating film and a cement composition. More specifically, an emulsion and a cement composition for a polymer cement-based coating film waterproofing material, which have excellent surface followability, low surface tack of the coating film, and have a relatively small coating film strength while having a relatively small temperature dependence of coating film elongation. Related to things.

従来、アクリルエマルジョンや酢酸ビニル系エマルジョン等の合成高分子エマルジョンを用いたポリマーセメント組成物を防水材として使用することが良く知られている。
しかし、これらのポリマーセメント組成物は、セメントの硬化に伴う収縮、又は、例えば、温度変化、凍結融解および下地の動き等の外的要因により、硬化後にクラックが入り易いという課題を有しており、このクラック発生は防水材としての性能が損なわれる主要因であるため、その改良が望まれていた。
Conventionally, it is well known that a polymer cement composition using a synthetic polymer emulsion such as an acrylic emulsion or a vinyl acetate emulsion is used as a waterproof material.
However, these polymer cement compositions have a problem that they tend to crack after hardening due to shrinkage due to hardening of the cement or external factors such as temperature change, freezing and thawing, and movement of the base. Since the generation of cracks is a main factor that impairs the performance as a waterproof material, it has been desired to improve it.

このため、ポリマーセメント系塗膜防水材用エマルジョンとして、たとえば、共重合体なガラス転移温度(Tg)が−15〜15℃のエチレン−酢酸ビニル系共重合体エマルジョンに、アルミナセメントを添加することが提案されている(例えば、特許文献1参照)。しかし、この場合、Tgが0℃より高い時は塗膜の低温伸度が悪く、逆にTgが0℃より低い場合は塗膜の高温伸度が悪く、塗膜伸度の温度依存性が大きくバランスが取れないという欠点があった。   For this reason, as an emulsion for a polymer cement-based coating film waterproofing material, for example, an alumina cement is added to an ethylene-vinyl acetate copolymer emulsion having a glass transition temperature (Tg) of −15 to 15 ° C. Has been proposed (see, for example, Patent Document 1). However, in this case, when Tg is higher than 0 ° C., the low temperature elongation of the coating film is poor, and conversely, when Tg is lower than 0 ° C., the high temperature elongation of the coating film is poor, and the temperature dependence of the coating film elongation is low. There was a drawback that it was not well balanced.

また、Tgが−30℃以下のエチレン−アクリル酸エステル−酢酸ビニル共重合体のポリビニルアルコール含水水性エマルジョンを用いることが提案されている(例えば、特許文献2参照)。しかし、このエマルジョンは、低温時の塗膜伸びは優れるが、塗膜強度が低く塗膜の表面タックも強いという欠点があった。   In addition, it has been proposed to use an aqueous polyvinyl alcohol-containing emulsion of an ethylene-acrylic acid ester-vinyl acetate copolymer having a Tg of −30 ° C. or less (see, for example, Patent Document 2). However, this emulsion has the drawback that the coating film elongation at low temperatures is excellent, but the coating film strength is low and the coating film has a strong surface tack.

更に、Tgが−30〜−10℃のエチレン−酢酸ビニル−多官能性単量体共重合体エマルジョンに、ポリビニルアルコールとノニオン系界面活性剤からなる乳化剤を用いて得られるエマルジョンを用いることも提案されている(例えば、特許文献3参照)。しかし、このエマルジョンは、低温での塗膜伸びは優れるが、高温での塗膜強度が不満足であった、さらに、ノニオン乳化剤を必須成分とするため、乳化剤の表面ブリードによる塗膜表面のタックが強いという欠点があった。
特公平1−39713号公報 特開平2−188459号公報 特開2003−221267号公報
Furthermore, it is also proposed to use an emulsion obtained by using an emulsifier composed of polyvinyl alcohol and a nonionic surfactant in an ethylene-vinyl acetate-polyfunctional monomer copolymer emulsion having a Tg of -30 to -10 ° C. (For example, see Patent Document 3). However, this emulsion has excellent coating elongation at low temperatures, but the coating strength at high temperatures was unsatisfactory. Furthermore, since the nonionic emulsifier is an essential component, the surface of the coating film due to the surface bleed of the emulsifier is There was a drawback of being strong.
Japanese Patent Publication No. 1-39713 JP-A-2-18859 Japanese Patent Laid-Open No. 2003-221267

以上、述べたように、ポリマーセメント組成物を防水材として使用することはよく知られているが、従来のポリマーセメント組成物は、温度変化、凍結、融解や下地の動き、セメント組成物の硬化に伴う収縮などにより硬化後にクラックの発生や表面タックが発生するなどの課題がある。
本発明の目的は、これらの従来技術の課題を解決し、優れた下地追随性と適度な塗膜強度を有しながら塗膜伸度の温度依存性が比較的小さい、すなわち低温(−10〜5℃)においても高温(28℃〜60℃)においても優れた塗膜伸度を有するとともに、表面タックの少ないポリマーセメント系塗膜防水材用エマルジョンおよびセメント組成物を提供することである。
As mentioned above, it is well known that polymer cement compositions are used as waterproofing materials, but conventional polymer cement compositions are used for temperature changes, freezing, thawing and substrate movement, hardening of cement compositions. There are problems such as generation of cracks and surface tack after curing due to shrinkage associated with.
The object of the present invention is to solve these problems of the prior art and have a relatively low temperature dependency of coating film elongation while having excellent base following ability and appropriate coating film strength, that is, low temperature (−10 to −10). It is an object of the present invention to provide an emulsion and a cement composition for a polymer cement-based coating film waterproofing material having excellent coating film elongation both at 5 ° C. and at a high temperature (28 ° C. to 60 ° C.) and having less surface tack.

本発明者らは、上記課題を解決すべく鋭意検討した結果、特定のガラス転移温度と組成とを有するエチレン−酢酸ビニル−多官能性単量体共重合体と、ポリビニルアルコールからなる乳化安定剤とを含むポリマーセメント系塗膜防水材用エマルジョンを用いることによって、上記課題を解決し、優れた性能を有する防水材が得られることを見出し、本発明に到達した。   As a result of intensive studies to solve the above problems, the present inventors have found that an emulsion stabilizer comprising an ethylene-vinyl acetate-polyfunctional monomer copolymer having a specific glass transition temperature and composition, and polyvinyl alcohol. The present inventors have found that a water-resistant material having excellent performance can be obtained by solving the above problems by using an emulsion for a water-resistant polymer cement-based coating film containing

すなわち、本発明は以下のポリマーセメント系塗膜防水材用エマルジョンおよびセメント組成物を提供するものである。
(1)、 ガラス転移温度が−9〜+5℃のエチレン−酢酸ビニル−多官能性単量体共重合体と乳化安定剤とを含むエマルジョンであって、エチレン:酢酸ビニル:多官能性単量体の質量比が、20〜30:80〜70:0.035〜0.8であり、且つ乳化安定剤としてポリビニルアルコールのみを含むことを特徴とするポリマーセメント系塗膜防水材用エマルジョン。
(2)、 エチレン−酢酸ビニル−多官能性単量体共重合体のガラス転移温度が−8〜0℃である(1)のポリマーセメント系塗膜防水材用エマルジョン。
(3)、 多官能性単量体がアクリレート系多官能性単量体及び/又はアリル系多官能性単量体である(1)又は(2)のポリマーセメント系塗膜防水材用エマルジョン。
(4)、 エチレン−酢酸ビニル−多官能性単量体共重合体100質量部当たり、ポリビニルアルコールを3〜10質量部の割合で含む請求項1〜3のいずれかに記載のポリマーセメント系塗膜防水材用エマルジョン。
(5)、 (1)〜(4)のいずれかに記載のポリマーセメント系塗膜防水材用エマルジョンとセメントとを必須成分とするセメント組成物。
That is, the present invention provides the following emulsion for a polymer cement-based coating film waterproofing material and a cement composition.
(1) An emulsion comprising an ethylene-vinyl acetate-polyfunctional monomer copolymer having a glass transition temperature of −9 to + 5 ° C. and an emulsion stabilizer, wherein ethylene: vinyl acetate: polyfunctional monomer A mass ratio of the body is 20 to 30:80 to 70: 0.035 to 0.8, and the emulsion for a polymer cement-based waterproofing film comprises only polyvinyl alcohol as an emulsion stabilizer.
(2) The emulsion for polymer cement-based coating film waterproofing material according to (1), wherein the glass transition temperature of the ethylene-vinyl acetate-polyfunctional monomer copolymer is -8 to 0 ° C.
(3) The polymer cement-based waterproofing film emulsion according to (1) or (2), wherein the polyfunctional monomer is an acrylate polyfunctional monomer and / or an allyl polyfunctional monomer.
(4) The polymer cement-based coating according to any one of claims 1 to 3, comprising polyvinyl alcohol at a ratio of 3 to 10 parts by mass per 100 parts by mass of the ethylene-vinyl acetate-polyfunctional monomer copolymer. Emulsion for waterproof membrane.
(5) A cement composition comprising the emulsion for a polymer cement-based coating film waterproofing material according to any one of (1) to (4) and cement as essential components.

本発明によれば、上記のガラス転移温度と組成を有するエチレン−酢酸ビニル−多官能性単量体共重合体と、ポリビニルアルコールからなる乳化安定剤とを含むポリマーセメント系塗膜防水材用エマルジョンを用いることによって、下地追随性に優れ、塗膜の表面タックが少なく、適度な塗膜強度を有しながら塗膜伸度の温度依存性が比較的小さいポリマーセメント系塗膜防水材用エマルジョンおよびセメント組成物を提供することができる。   According to the present invention, an emulsion for a polymer cement-based waterproofing coating material comprising an ethylene-vinyl acetate-polyfunctional monomer copolymer having the above glass transition temperature and composition, and an emulsion stabilizer comprising polyvinyl alcohol. By using the emulsion for a polymer cement-based waterproofing membrane with excellent surface followability, less surface tack of the coating, and relatively low temperature dependence of coating elongation while having appropriate coating strength and A cement composition can be provided.

本発明は、ポリマーセメント系塗膜防水材用エマルジョンとして、ガラス転移温度が−9〜+5℃のエチレン−酢酸ビニル−多官能性単量体共重合体を用いるものである。
当該共重合体で用いられる多官能性単量体としては、トリアリルシアヌレート、トリアリルイソシアヌレート、ジアリルフタレート、ペンタエリスリトールトリアクリレート、ペンタエリスリトールテトラアクリレート、ペンタエリスリトールヘキサアクリレート、トリメチロールプロパントリアクリレート、メタクリル酸ビニル、アクリル酸ビニル、クロトン酸ビニル、ソルビン酸ビニル、アジピン酸ビニル等を挙げることができ、アクリレート系多官能性単量体やアリル系多官能性単量体が好ましい。なお、多官能性単量体は、単独でも、二種以上を用いることもできる。
また、本発明においては、多官能性単量体の中でも、3官能性単量体を用いることが好ましい。特に3官能性単量体を用いることにより、下地追随性および低温時および高温時の強伸度がより優れたポリマーセメント系塗膜防水材用エマルジョンが得られる。
The present invention uses an ethylene-vinyl acetate-polyfunctional monomer copolymer having a glass transition temperature of -9 to +5 [deg.] C. as an emulsion for a polymer cement-based coating film waterproofing material.
As the polyfunctional monomer used in the copolymer, triallyl cyanurate, triallyl isocyanurate, diallyl phthalate, pentaerythritol triacrylate, pentaerythritol tetraacrylate, pentaerythritol hexaacrylate, trimethylolpropane triacrylate, Examples thereof include vinyl methacrylate, vinyl acrylate, vinyl crotonic acid, vinyl sorbate, vinyl adipate and the like, and acrylate polyfunctional monomers and allyl polyfunctional monomers are preferred. In addition, the polyfunctional monomer can be used alone or in combination of two or more.
Moreover, in this invention, it is preferable to use a trifunctional monomer among polyfunctional monomers. In particular, by using a trifunctional monomer, it is possible to obtain an emulsion for a water-resistant polymer cement-based coating film, which is superior in base followability and high elongation at low and high temperatures.

本発明のポリマーセメント系塗膜防水材用エマルジョンは、エチレン−酢酸ビニル−多官能性単量体共重合体を必須成分とするものであるが、当該共重合体は(メタ)アクリル酸エステル、ビニルエステル等の単量体を、更に共重合させたものであってもよい。ここで、(メタ)アクリル酸エステルとしては、メチルアクリレート、エチルアクリレート、イソプロピルアクリレート、n−プロピルアクリレート、n−ブチルアクリレート、イソブチルアクリレート、2−エチルヘキシルアクリレート、n−オクチルアクリレート、イソオクチルアクリレート、ノニルアクリレート等のアクリル酸エステル、メチルメタアクリレート、n−ブチルメタアクリレート、イソブチルメタアクリレート、2−エチルヘキシルメタアクリレート等のメタアクリル酸エステルが挙げられ、ビニルエステルとしては、酢酸ビニル、酪酸ビニル、プロピオン酸ビニル、ピバリン酸ビニル、ラウリン酸ビニル、バーサチック酸ビニルなどのアルキル酸ビニルエステル等が挙げられる。
これらのエチレン、酢酸ビニルおよび多官能性単量体以外の単量体は、全単量体中、
50質量%以下とすることが好ましい。
The polymer cement-based coating film waterproofing material emulsion of the present invention comprises an ethylene-vinyl acetate-polyfunctional monomer copolymer as an essential component, and the copolymer is a (meth) acrylic acid ester, A monomer such as vinyl ester may be further copolymerized. Here, as (meth) acrylic acid ester, methyl acrylate, ethyl acrylate, isopropyl acrylate, n-propyl acrylate, n-butyl acrylate, isobutyl acrylate, 2-ethylhexyl acrylate, n-octyl acrylate, isooctyl acrylate, nonyl acrylate And acrylic acid esters such as methyl methacrylate, n-butyl methacrylate, isobutyl methacrylate, 2-ethylhexyl methacrylate, etc., and vinyl esters include vinyl acetate, vinyl butyrate, vinyl propionate, Examples include vinyl acid alkyl esters such as vinyl pivalate, vinyl laurate, and vinyl versatate.
Monomers other than these ethylene, vinyl acetate and polyfunctional monomers are all monomers,
It is preferable to set it to 50 mass% or less.

本発明の共重合体におけるエチレン:酢酸ビニル:多官能性単量体の各成分の質量比は、20〜30:80〜70:0.035〜0.8であり、好ましくは22〜28:78〜72:0.1〜0.3である。エチレンの質量比を20以上とすることにより、エマルジョンの耐アルカリ性が得られ、30以下とすることにより、エマルジョン状態が安定し、分子量が低下しない。酢酸ビニルの質量比を70以上とすることにより、適度な強度が得られ、80以下とすることにより、適度な伸度が得られる。
多官能性単量体の質量比を0.035以上とすることにより充分な強度が得られ、0.8以下とすることにより、充分な伸度で、安定なエマルジョンが得られる。
The mass ratio of each component of ethylene: vinyl acetate: polyfunctional monomer in the copolymer of the present invention is 20-30: 80-70: 0.035-0.8, preferably 22-28: 78-72: 0.1-0.3. By setting the mass ratio of ethylene to 20 or more, the alkali resistance of the emulsion can be obtained, and by setting it to 30 or less, the emulsion state is stabilized and the molecular weight does not decrease. By setting the mass ratio of vinyl acetate to 70 or more, an appropriate strength can be obtained, and by setting it to 80 or less, an appropriate elongation can be obtained.
By setting the mass ratio of the polyfunctional monomer to 0.035 or more, sufficient strength can be obtained, and by setting it to 0.8 or less, a stable emulsion can be obtained with sufficient elongation.

本発明において、エチレン−酢酸ビニル−多官能性単量体共重合体のガラス転移温度(Tg)は、−9〜+5℃の範囲、好ましくは−8〜0℃の範囲である。+5℃以下とすることにより低温での伸びおよび下地追随性が得られるようになり、−9℃以上とすることにより高温で充分な強度が得られる。   In the present invention, the glass transition temperature (Tg) of the ethylene-vinyl acetate-polyfunctional monomer copolymer is in the range of -9 to + 5 ° C, preferably in the range of -8 to 0 ° C. When the temperature is set to + 5 ° C. or lower, elongation at low temperature and ground following property can be obtained, and when the temperature is set to −9 ° C. or higher, sufficient strength can be obtained at high temperature.

本発明においては、塗膜防水材用エマルジョンの乳化剤に、ポリビニルアルコールを単独で用いる。乳化剤としてポリビニルアルコールを用いることにより、表面がべた付きを発生せずに、通常の乳化重合により製造することができる。ポリビニルアルコールは鹸化度88〜98、重合度500〜3000のものが好適に用いられる。なお、ポリビニルアルコールは、がカルボン酸、スルホン酸、シロキサン等の化合物で変性されたものを用いてもよい。また、二種以上のポリビニルアルコールの混合物を用いてエマルジョンの粘度を調整することができる。
ポリビニルアルコールからなる乳化剤の使用量は、エチレン−酢酸ビニル−多官能性単量体共重合体100質量部当たり、3〜8質量部が好ましく、4〜6質量部がさらに好ましい。3質量部以上とすることにより、エマルジョン状態が安定となり、8質量部以下とすることにより、適度な伸度が得られる。
In the present invention, polyvinyl alcohol is used alone as an emulsifier for the emulsion for waterproofing coating films. By using polyvinyl alcohol as an emulsifier, the surface can be produced by ordinary emulsion polymerization without causing stickiness. Polyvinyl alcohol having a saponification degree of 88 to 98 and a polymerization degree of 500 to 3000 is preferably used. Polyvinyl alcohol may be modified with a compound such as carboxylic acid, sulfonic acid, or siloxane. Moreover, the viscosity of an emulsion can be adjusted using the mixture of 2 or more types of polyvinyl alcohol.
The amount of the emulsifier made of polyvinyl alcohol is preferably 3 to 8 parts by mass, more preferably 4 to 6 parts by mass, per 100 parts by mass of the ethylene-vinyl acetate-polyfunctional monomer copolymer. By setting it to 3 parts by mass or more, the emulsion state becomes stable, and by setting it to 8 parts by mass or less, an appropriate elongation can be obtained.

本発明の塗膜防水材用エマルジョンには、さらに必要に応じて、PH調整剤、増粘剤、消泡剤、分散剤、防腐剤などを含有することができる。PH調整剤としてはアンモニア水、2−アミノ、2−メチル、1−プロパノール等があるが、好ましくはセメント混和時の揮発性物質の放出のない2−アミノ、2−メチル、1−プロパノール等の不揮発性のアルカリ化剤を用いるのが好ましい。増粘剤としてはポリビニルアルコール、メチルセルロース、ヒドロキシエチルセルロース、ウレタン系会合型、消泡剤としてはシリコン系、鉱物油系、分散剤としてはポリカルボン酸系、無機リン系などが挙げられる。   The emulsion for waterproofing coating film of the present invention may further contain a pH adjusting agent, a thickener, an antifoaming agent, a dispersing agent, an antiseptic, and the like, if necessary. PH adjusters include aqueous ammonia, 2-amino, 2-methyl, 1-propanol, etc., but preferably 2-amino, 2-methyl, 1-propanol, etc. that do not release volatile substances when mixed with cement. It is preferable to use a non-volatile alkalinizing agent. Examples of the thickener include polyvinyl alcohol, methyl cellulose, hydroxyethyl cellulose, urethane-based associative type, examples of the antifoaming agent include silicon-based, mineral oil-based, and examples of the dispersant include polycarboxylic acid-based and inorganic phosphorus-based.

塗膜防水材用エマルジョンの製造方法については特に制限はなく、乳化重合方法は公知の方法を使用することができる。また、重合条件にも特に制限はないが、一般的には重合温度は20〜80℃である。触媒としては、過硫酸カリウム等の過硫酸塩、過酸化水素及び各種有機過酸化物が挙げられる。レドソックス開始系の場合は、さらに還元物質としてホルムアルデヒドナトリウムスルホキシレートなどが組み合わせて用いられる。   There is no restriction | limiting in particular about the manufacturing method of the emulsion for coating-film waterproof materials, A well-known method can be used for an emulsion polymerization method. The polymerization conditions are not particularly limited, but generally the polymerization temperature is 20 to 80 ° C. Examples of the catalyst include persulfates such as potassium persulfate, hydrogen peroxide, and various organic peroxides. In the case of a red sox initiation system, formaldehyde sodium sulfoxylate or the like is further used in combination as a reducing substance.

次に本発明のセメント組成物は、上記のポリマーセメント系塗膜防水材用エマルジョンとセメントとを必須成分とするものである。該組成物に用いられるセメントは水和反応で硬化するものであれば良い。セメントには普通ポルトランドセメント、白色ポルトランドセメント、早強ポルトランドセメント、アルミナセメント、高炉セメント、フライアッシュセメント等があるが、アルミナセメントが好適に用いられる。
セメントとエマルジョンの質量比はエマルジョン100質量部に対して、セメントが10〜200質量部が好ましく、70〜150質量部の範囲がより好ましい。
Next, the cement composition of the present invention comprises the above emulsion for a polymer cement-based waterproofing coating film and cement as essential components. The cement used in the composition only needs to be hardened by hydration. Examples of the cement include ordinary Portland cement, white Portland cement, early-strength Portland cement, alumina cement, blast furnace cement, fly ash cement and the like, and alumina cement is preferably used.
The mass ratio of the cement and the emulsion is preferably 10 to 200 parts by mass, more preferably 70 to 150 parts by mass with respect to 100 parts by mass of the emulsion.

本発明のセメント組成物には、砂、けい砂、シリカ、酸化チタンなどの骨材や、ガラス繊維、ビニロン繊維、鉱物繊維、金属繊維などの各種補強繊維、カルシウムアルミネート、凝結調整剤等を含有してもよい。
セメントは施工時にエマルジョンと混合しても良いし、予め本発明のエマルジョン以外の材料をセメントに混合しておいてから、施工時にエマルジョンと混合してもよい。混合機は傾胴ミキサー、Vミキサー、ヘンシェルミキサー等の公知の方法で行うことができる。
The cement composition of the present invention includes aggregates such as sand, silica sand, silica, and titanium oxide, various reinforcing fibers such as glass fiber, vinylon fiber, mineral fiber, and metal fiber, calcium aluminate, and a setting modifier. You may contain.
The cement may be mixed with the emulsion at the time of construction, or a material other than the emulsion of the present invention may be mixed with the cement in advance and then mixed with the emulsion at the time of construction. A mixer can be performed by well-known methods, such as a tilting cylinder mixer, V mixer, and Henschel mixer.

次に、本発明を実施例により、さらに詳細に説明するが、本発明はこれらの実施例によってなんら限定されるものではない。
以下の実施例および比較例において得られたセメント組成物の性能評価を次のように行った。
(1)塗膜強度および塗膜伸度
平面上に置いた離型紙上にエマルジョンを塗布し、23℃で乾燥し、膜厚が1mmになるように塗膜を形成した。14日間養生後、塗膜を2号ダンベルで打ち抜き試験片とした。この試験片を、0℃、60℃および常温(23℃)の各雰囲気下に4時間放置後、同雰囲気下で引張速度200mm/min、チャック間距離60mmで塗膜強度および塗膜伸度を測定した。
(2)表面タック
上記の如くして作製した塗膜の表面のベタツキ(タック)を指触で確認した。
EXAMPLES Next, although an Example demonstrates this invention further in detail, this invention is not limited at all by these Examples.
Performance evaluation of the cement compositions obtained in the following examples and comparative examples was performed as follows.
(1) Coating film strength and coating film elongation An emulsion was applied on a release paper placed on a flat surface, dried at 23 ° C., and a coating film was formed so as to have a film thickness of 1 mm. After curing for 14 days, the coating film was punched out with a No. 2 dumbbell and used as a test piece. The test piece was left in each atmosphere at 0 ° C., 60 ° C. and normal temperature (23 ° C.) for 4 hours, and the coating strength and elongation were measured at a tensile speed of 200 mm / min and a chuck distance of 60 mm in the same atmosphere. It was measured.
(2) Surface tack The stickiness (tack) of the surface of the coating film produced as described above was confirmed by touch.

実施例1
いかり型攪拌機を備えた内容量1.5リットルのステンレス型オートクレーブに、蒸留水45質量部、酢酸ビニル35質量部、ポリビニルアルコール(株式会社クラレ製、「ポバール205」、けん化度88モル%、平均重合度500)1.1質量部、ポリビニルアルコール(株式会社クラレ製、「ポバール217」けん化度88モル%、平均重合度1700)1.5質量部およびアスコルビン酸0.05質量部を仕込んだ。続いてオートクレーブ内の空気をエチレンで十分置換した。攪拌下、重合温度を60℃に、エチレン圧を5.0MPaに昇圧し、過酸化水素0.06質量部を8時間かけて均一に添加した。また、同時に6時間かけて酢酸ビニル15質量部、ペンタエリスリトールトリアクリレート0.1質量部を均一に添加した。エチレン圧は酢酸ビニル添加後5.7MPaまで昇圧し、酢酸ビニル添加終了後まで5.7MPaを保った。過酸化水素の添加終了後に冷却して、消泡剤、防腐剤、防黴剤及びpH調整剤を添加し、エチレン−酢酸ビニル−ペンタエリスリトールトリアクリレート共重合体エマルジョンを得た。
得られたエマルジョンは共重合体中のエチレン含有量28質量%、不揮発分56質量%、粘度6000mPa・s、pH 5.0、ガラス転移温度(Tg)−5℃であった。このエマルジョン90部にアルミナセメント17.5部、ケイ砂7号52.5部、水10部を加え、ディスパーで混練してポリマーセメント系塗膜防水材としてのセメント組成物を調製した。得られたセメント組成物の塗膜を作製し、0〜60℃の雰囲気下においてセメント組成物の性能評価を行った。結果を第1表に示す。
Example 1
In a 1.5-liter stainless steel autoclave equipped with an irrigation type stirrer, 45 parts by mass of distilled water, 35 parts by mass of vinyl acetate, polyvinyl alcohol (manufactured by Kuraray Co., Ltd., “Poval 205”, degree of saponification 88 mol%, average 1.1 parts by mass of polymerization degree 500), 1.5 parts by mass of polyvinyl alcohol (manufactured by Kuraray Co., Ltd., “Poval 217” saponification degree 88 mol%, average degree of polymerization 1700) and 0.05 part by mass of ascorbic acid were charged. Subsequently, the air in the autoclave was sufficiently replaced with ethylene. Under stirring, the polymerization temperature was increased to 60 ° C., the ethylene pressure was increased to 5.0 MPa, and 0.06 part by mass of hydrogen peroxide was uniformly added over 8 hours. At the same time, 15 parts by mass of vinyl acetate and 0.1 part by mass of pentaerythritol triacrylate were uniformly added over 6 hours. The ethylene pressure was increased to 5.7 MPa after the addition of vinyl acetate and maintained at 5.7 MPa until after the addition of vinyl acetate. After completion of the addition of hydrogen peroxide, the mixture was cooled and an antifoaming agent, an antiseptic, an antifungal agent and a pH adjuster were added to obtain an ethylene-vinyl acetate-pentaerythritol triacrylate copolymer emulsion.
The obtained emulsion had an ethylene content of 28% by mass in the copolymer, a non-volatile content of 56% by mass, a viscosity of 6000 mPa · s, a pH of 5.0, and a glass transition temperature (Tg) of −5 ° C. To 90 parts of the emulsion, 17.5 parts of alumina cement, 52.5 parts of silica sand 7 and 10 parts of water were added and kneaded with a disper to prepare a cement composition as a polymer cement-based coating waterproofing material. A coating film of the obtained cement composition was prepared, and performance evaluation of the cement composition was performed in an atmosphere of 0 to 60 ° C. The results are shown in Table 1.

実施例2
エチレン−酢酸ビニル−ペンタエリスリトールトリアクリレート共重合体エマルジョン作製中にポリビニルアルコール「ポバール205」の量を2.0質量部に、「ポバール217」の量を0.5質量部に、過酸化水素の量を0.08質量部に各々変更した以外は、実施例1と同様に実施した。
得られたエマルジョンはエチレン含有量30質量%、不揮発分56質量%、粘度800mPa・s、pH5.0、ガラス転移温度(Tg)−7℃であった。セメント組成物の評価結果を第1表に示す。
Example 2
During the preparation of the ethylene-vinyl acetate-pentaerythritol triacrylate copolymer emulsion, the amount of polyvinyl alcohol “Poval 205” is 2.0 parts by mass, the amount of “Poval 217” is 0.5 parts by mass, It implemented similarly to Example 1 except having changed each to 0.08 mass part.
The obtained emulsion had an ethylene content of 30% by mass, a nonvolatile content of 56% by mass, a viscosity of 800 mPa · s, a pH of 5.0, and a glass transition temperature (Tg) of −7 ° C. The evaluation results of the cement composition are shown in Table 1.

実施例3
エチレン−酢酸ビニル−ペンタエリスリトールトリアクリレート共重合体エマルジョン作製中に過酸化水素の量を0.04質量部に変更した以外は、実施例1と同様に実施した。
得られたエマルジョンはエチレン含有量26質量%、不揮発分56質量%、粘度3200mPa・s、pH5.0、ガラス転移温度(Tg)0℃であった。セメント組成物の評価結果を第1表に示す。
Example 3
The same procedure as in Example 1 was performed except that the amount of hydrogen peroxide was changed to 0.04 parts by mass during the preparation of the ethylene-vinyl acetate-pentaerythritol triacrylate copolymer emulsion.
The obtained emulsion had an ethylene content of 26 mass%, a nonvolatile content of 56 mass%, a viscosity of 3200 mPa · s, a pH of 5.0, and a glass transition temperature (Tg) of 0 ° C. The evaluation results of the cement composition are shown in Table 1.

比較例1
エチレン圧を重合開始時に4.5MPaまで昇圧し、酢酸ビニル添加終了後まで4.5MPaを保った以外は、実施例1と同様に実施した。
得られたエマルジョンは共重合体中のエチレン含有量16質量%、不揮発分56質量%、粘度3000mPa・s、pH 5.0、ガラス転移温度(Tg)10℃であった。セメント組成物の性能評価結果を第1表に示す。
Comparative Example 1
The same procedure as in Example 1 was performed except that the ethylene pressure was increased to 4.5 MPa at the start of polymerization and maintained at 4.5 MPa until after the addition of vinyl acetate.
The obtained emulsion had an ethylene content of 16% by mass in the copolymer, a nonvolatile content of 56% by mass, a viscosity of 3000 mPa · s, a pH of 5.0, and a glass transition temperature (Tg) of 10 ° C. The performance evaluation results of the cement composition are shown in Table 1.

比較例2
エチレン−酢酸ビニル−ペンタエリスリトールトリアクリレート共重合体エマルジョン作製中にペンタエリスリトールトリアクリレートを用いなかった以外は、実施例1と同様に実施した。
得られたエマルジョンは共重合体中のエチレン含有量28質量%、不揮発分56質量%、粘度3000mPa・s、pH 5.0、ガラス転移温度(Tg)−5℃であった。セメント組成物の性能評価結果を第1表に示す。
Comparative Example 2
This was carried out in the same manner as in Example 1 except that pentaerythritol triacrylate was not used during the preparation of the ethylene-vinyl acetate-pentaerythritol triacrylate copolymer emulsion.
The obtained emulsion had an ethylene content of 28% by mass in the copolymer, a nonvolatile content of 56% by mass, a viscosity of 3000 mPa · s, a pH of 5.0, and a glass transition temperature (Tg) of −5 ° C. The performance evaluation results of the cement composition are shown in Table 1.

比較例3
ペンタエリスリトールトリアクリレートの使用量を0.01質量部とした以外は、実施例1と同様に実施した。
得られたエマルジョンは共重合体中のエチレン含有量28質量%、不揮発分56質量%、粘度3000mPa・s、pH 5.0、ガラス転移温度(Tg)−5℃であった。セメント組成物の性能評価結果を第1表に示す。
Comparative Example 3
It implemented like Example 1 except the usage-amount of pentaerythritol triacrylate having been 0.01 mass part.
The obtained emulsion had an ethylene content of 28% by mass in the copolymer, a nonvolatile content of 56% by mass, a viscosity of 3000 mPa · s, a pH of 5.0, and a glass transition temperature (Tg) of −5 ° C. The performance evaluation results of the cement composition are shown in Table 1.

比較例4
ペンタエリスリトールトリアクリレートの使用量を0.5質量部とした以外は、実施例1と同様に実施した。
得られたエマルジョンは共重合体中のエチレン含有量28質量%、不揮発分56質量%、粘度8000mPa・s、pH 5.0、ガラス転移温度(Tg)−5℃であった。セメント組成物の性能評価結果を第1表に示す。
Comparative Example 4
The same operation as in Example 1 was carried out except that the amount of pentaerythritol triacrylate used was 0.5 parts by mass.
The obtained emulsion had an ethylene content of 28% by mass in the copolymer, a nonvolatile content of 56% by mass, a viscosity of 8000 mPa · s, a pH of 5.0, and a glass transition temperature (Tg) of −5 ° C. The performance evaluation results of the cement composition are shown in Table 1.

比較例5
重合に用いる界面活性剤としてノニオン乳化剤(花王株式会社製、「エマルゲン1150S−70」)0.4質量部を併用した以外は、実施例1と同様に実施した。
得られたエマルジョンは共重合体中のエチレン含有量28質量%、不揮発分56質量%、粘度6000mPa・s、pH 5.0、ガラス転移温度(Tg)−6℃であった。セメント組成物の性能評価結果を第1表に示す。
Comparative Example 5
It implemented like Example 1 except having used together 0.4 mass part of nonionic emulsifier (the Kao Corporation make, "Emulgen 1150S-70") as surfactant used for superposition | polymerization.
The obtained emulsion had an ethylene content of 28% by mass in the copolymer, a nonvolatile content of 56% by mass, a viscosity of 6000 mPa · s, a pH of 5.0, and a glass transition temperature (Tg) of −6 ° C. The performance evaluation results of the cement composition are shown in Table 1.

Figure 2006282420
Figure 2006282420

第1表に示したように、本発明の実施例で得られたエマルジョンは、下地追随性があり適度な塗膜強度を有しながら塗膜伸度の温度依存性が比較的小さい、すなわち低温においても高温においても優れた塗膜伸度を有するとともに、表面タックの少ないポリマーセメント系塗膜防水材用エマルジョンおよびセメント組成物を提供することができる。
一方、比較例1ではガラス転移温度(Tg)が10℃と高く、低温時における下地追随性が悪い。比較例2では低温時における下地追随性はあるものの高温時の塗膜伸度が悪い。比較例3では少量の多官能性単量体を使用し、塗膜伸度が向上しているが高温(60℃)で充分ではない。比較例4では多量の多官能性単量体を使用しており、著しく塗膜伸度が低下している。比較例5では界面活性剤としてノニオン乳化剤を併用しており、充分な塗膜伸度が得られているものの、常温及び高温における塗膜強度が低く、且つ塗膜表面にタックを生じる。
As shown in Table 1, the emulsions obtained in the examples of the present invention have a background-following property and an appropriate coating strength, but the temperature dependence of coating film elongation is relatively small, that is, a low temperature. In addition, it is possible to provide an emulsion and a cement composition for a polymer cement-based coating film waterproofing material that have excellent coating film elongation at low temperatures and low surface tack.
On the other hand, in Comparative Example 1, the glass transition temperature (Tg) is as high as 10 ° C., and the background followability at low temperatures is poor. In Comparative Example 2, although there is a ground following property at a low temperature, the coating film elongation at a high temperature is poor. In Comparative Example 3, a small amount of polyfunctional monomer is used and the coating film elongation is improved, but high temperature (60 ° C.) is not sufficient. In Comparative Example 4, a large amount of polyfunctional monomer is used, and the coating film elongation is remarkably lowered. In Comparative Example 5, a nonionic emulsifier is used in combination as a surfactant, and although a sufficient film elongation is obtained, the film strength at normal temperature and high temperature is low, and tack occurs on the surface of the film.

Claims (5)

ガラス転移温度が−9〜+5℃のエチレン−酢酸ビニル−多官能性単量体共重合体と乳化安定剤とを含むエマルジョンであって、エチレン:酢酸ビニル:多官能性単量体の質量比が、20〜30:80〜70:0.035〜0.8であり、且つ乳化安定剤としてポリビニルアルコールのみを含むことを特徴とするポリマーセメント系塗膜防水材用エマルジョン。   An emulsion comprising an ethylene-vinyl acetate-polyfunctional monomer copolymer having a glass transition temperature of −9 to + 5 ° C. and an emulsion stabilizer, wherein the mass ratio of ethylene: vinyl acetate: polyfunctional monomer Is an emulsion for polymer cement-based coating film waterproofing material, characterized in that it is 20-30: 80-70: 0.035-0.8 and contains only polyvinyl alcohol as an emulsion stabilizer. エチレン−酢酸ビニル−多官能性単量体共重合体のガラス転移温度が−8〜0℃である請求項1に記載のポリマーセメント系塗膜防水材用エマルジョン。   The emulsion for a polymer cement-based waterproofing coating material according to claim 1, wherein the glass transition temperature of the ethylene-vinyl acetate-polyfunctional monomer copolymer is -8 to 0 ° C. 多官能性単量体がアクリレート系多官能性単量体及び/又はアリル系多官能性単量体である請求項1又は2に記載のポリマーセメント系塗膜防水材用エマルジョン。   The emulsion for a polymer cement-based waterproofing coating material according to claim 1 or 2, wherein the multifunctional monomer is an acrylate-based multifunctional monomer and / or an allyl-based multifunctional monomer. エチレン−酢酸ビニル−多官能性単量体共重合体100質量部当たり、ポリビニルアルコールを3〜10質量部の割合で含む請求項1〜3のいずれかに記載のポリマーセメント系塗膜防水材用エマルジョン。   The polymer cement coating film waterproofing material according to any one of claims 1 to 3, comprising polyvinyl alcohol at a ratio of 3 to 10 parts by mass per 100 parts by mass of the ethylene-vinyl acetate-polyfunctional monomer copolymer. Emulsion. 請求項1〜4のいずれかに記載のポリマーセメント系塗膜防水材用エマルジョンとセメントとを必須成分とするセメント組成物。


A cement composition comprising the emulsion for a polymer cement-based coating film waterproofing material according to any one of claims 1 to 4 and cement as essential components.


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CN1872886A (en) 2006-12-06
JP4220977B2 (en) 2009-02-04

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