JPS6342954B2 - - Google Patents

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Publication number
JPS6342954B2
JPS6342954B2 JP57046566A JP4656682A JPS6342954B2 JP S6342954 B2 JPS6342954 B2 JP S6342954B2 JP 57046566 A JP57046566 A JP 57046566A JP 4656682 A JP4656682 A JP 4656682A JP S6342954 B2 JPS6342954 B2 JP S6342954B2
Authority
JP
Japan
Prior art keywords
water
group
oil
compound
test
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Expired
Application number
JP57046566A
Other languages
Japanese (ja)
Other versions
JPS58164672A (en
Inventor
Harumi Tatsu
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Nippon Mektron KK
Original Assignee
Nippon Mektron KK
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by Nippon Mektron KK filed Critical Nippon Mektron KK
Priority to JP57046566A priority Critical patent/JPS58164672A/en
Publication of JPS58164672A publication Critical patent/JPS58164672A/en
Publication of JPS6342954B2 publication Critical patent/JPS6342954B2/ja
Granted legal-status Critical Current

Links

Description

【発明の詳现な説明】[Detailed description of the invention]

本発明は、撥氎撥油剀に関する。曎に詳しく
は、偎鎖にパヌフルオロアルキル゚ヌテル基を有
する重合䜓よりなる撥氎撥油剀に関する。 偎鎖にパヌフルオロアルキル基を有する重合䜓
よりなる撥氎撥油剀は埓来から知られおおり、䟋
えば特公昭49−35348号公報には、フルオロアル
キル基含有重合性単量䜓にゞアセトンアクリルア
マむド化合物たたはそれの―CH2OR化誘導䜓お
よび必芁に応じお曎に塩化ビニルを共重合させた
共重合䜓よりなる撥氎撥油剀が、たた特公昭47−
9416号公報には、゚ステル基末端にパヌフルオロ
アルキル基を有するメタクリル酞゚ステルに―
゚チルヘキシルメタクリレヌト、゚ステル基䞭に
ヒドロキシル基を有するメタアクリル酞゚ス
テルおよび―メチロヌルアクリルアミドを共重
合させた共重合䜓よりなる撥氎撥油剀がそれぞれ
蚘茉されおいる。 これらの偎鎖にパヌフルオロアルキル基を有す
る共重合䜓は、パヌフルオロアルキル基の有する
特異性、即ちパヌフルオロアルキル基を有しない
物質ずの芪和性に欠けるずいう性質および衚面匵
力がきわめお小さいずいう性質を利甚し、曎に他
の共単量䜓を共重合させ、求められる他の物性を
改良した共重合䜓ずしお撥氎撥油剀に䜿甚されお
いるのである。䟋えば、前蚘特公昭47−9416号公
報蚘茉の共重合䜓の堎合には、パヌフルオロアル
キル基含有メタクリル酞゚ステルは撥氎撥油性
を、―゚チルヘキシルメタクリレヌトは撥氎性
および柔軟性を、たたヒドロキシル基含有メ
タアクリル酞゚ステルおよび―メチロヌルア
クリルアミドは繊維などぞの密着性を、それぞれ
共重合䜓に付䞎する目的で共重合させおいるので
ある。 䞀般に、撥氎撥油剀は繊維などの凊理剀ずしお
甚いられるが、偎鎖にパヌフルオロアルキル基を
有する単独重合䜓は、パヌフルオロアルキル基が
剛盎であり、か぀長鎖であるため結晶性であり、
かかる結晶性重合䜓を繊維などに塗垃するず、繊
維などがごわごわした状態ずなり、その颚合いを
損なう結果ずなる。たた、結晶性重合䜓であるが
ために、それを色ものの垃地などにこれを塗垃す
るず、也燥した撥氎撥油剀の被膜が透明ずなら
ず、垃地などの色合いを損なうこずになるので、
実際䞊は単独重合䜓の圢で甚いられるこずはな
い。 偎鎖にパヌフルオロアルキル基を有する単独重
合䜓を撥氎撥油剀に甚いたずきにみられるこうし
た欠点を避けるために、前蚘各特蚱公報に蚘茉さ
れる劂き他の共単量䜓ずの共重合による重合䜓の
改質が䞀般に行われおいる蚳であるが、改質の点
では成功しおも、共重合䜓䞭のパヌフルオロアル
キル基含有単量䜓成分の割合が䜎䞋する結果ずし
お、本来䞀番求められおいる撥氎撥油性が損われ
るこずも倚く、撥氎撥油性および他の物性の䞡者
を同時に満足させるような撥氎撥油剀は、埓来は
殆んど埗られおいないのが実情である。 本発明者は、撥氎撥油性を損わせる共重合䜓の
圢をずるこずなく、しかも単独重合䜓にみられる
剛盎性および結晶性を䜎䞋せしめた重合䜓を求め
お皮々怜蚎の結果、ポリパヌフルオロアルキレ
ングリコヌル基を偎鎖に有する重合䜓は、単独
重合䜓であ぀おも、それを垃地などに塗垃したず
き颚合いや色合いなどを損なうこずなく、しかも
十分な撥氎撥油性を瀺すこずを芋出した。たた、
この重合䜓は、その撥氎撥油性を損わない範囲内
においお、共重合䜓の圢をずるこずができ、この
堎合には耐掗濯性が曎に良奜ずなる。 埓぀お、本発明は、垃地などに塗垃したずき颚
合いや色合いなどを損なうこずなく、しかも十分
な撥氎撥油性を瀺す単独重合䜓たたは共重合䜓よ
りなる撥氎撥油剀を提䟛するこずを目的ずしおい
る。 かかる撥氎撥油剀は、単独重合䜓たたは共重合
䜓の圢でそれぞれ甚いられる。偎鎖にポリパヌ
フルオロプロピレングリコヌル基を有する重合
䜓よりなる。そしお、偎鎖にポリパヌフルオロ
プロピレングリコヌル基を有する重合䜓ずしお
は、䞀般匏 ここで、は䟡の有機結合基であり、
R′は氎玠原子たたはメチル基であり、はた
たは敎数、䞀般に50以䞋の敎数であり、は敎
数、䞀般に〜10の敎数であるで瀺されるビニ
ル化合物の単独重合䜓たたは共重合䜓が甚いられ
る。 かかるビニル化合物ずしおは、䟋えば
 The present invention relates to water and oil repellents. More specifically, the present invention relates to a water and oil repellent made of a polymer having a perfluoroalkyl ether group in its side chain. Water and oil repellents made of polymers having perfluoroalkyl groups in their side chains have been known for a long time. For example, in Japanese Patent Publication No. 49-35348, diacetone acrylamide is added to a polymerizable monomer containing a fluoroalkyl group. A water and oil repellent made of a copolymer obtained by copolymerizing a compound or its -CH 2 OR derivative and, if necessary, vinyl chloride, has also been disclosed in Japanese Patent Publication No. 1973-
No. 9416 discloses that a methacrylic ester having a perfluoroalkyl group at the end of the ester group is
A water and oil repellent agent comprising a copolymer of ethylhexyl methacrylate, a (meth)acrylic acid ester having a hydroxyl group in the ester group, and N-methylolacrylamide is described. These copolymers having perfluoroalkyl groups in their side chains have the specificity of perfluoroalkyl groups, that is, they lack affinity with substances that do not have perfluoroalkyl groups, and they have extremely low surface tension. It is used in water and oil repellents as a copolymer that has improved other required physical properties by copolymerizing it with other comonomers. For example, in the case of the copolymer described in Japanese Patent Publication No. 47-9416, perfluoroalkyl group-containing methacrylic ester provides water and oil repellency, 2-ethylhexyl methacrylate provides water repellency and flexibility, and hydroxyl group provides water and oil repellency. The (meth)acrylic acid ester and N-methylolacrylamide contained in the copolymer are copolymerized in order to impart adhesion to fibers and the like to the copolymer. Generally, water and oil repellents are used as treatment agents for fibers, etc., but homopolymers with perfluoroalkyl groups in their side chains are crystalline because the perfluoroalkyl groups are rigid and long chains. ,
When such a crystalline polymer is applied to fibers, etc., the fibers become stiff and their texture is impaired. In addition, since it is a crystalline polymer, if it is applied to colored fabrics, the dried water and oil repellent film will not become transparent and the color of the fabric will be damaged.
In practice, it is never used in the form of a homopolymer. In order to avoid these drawbacks that occur when a homopolymer having a perfluoroalkyl group in the side chain is used for a water and oil repellent, copolymerization with other comonomers as described in the above-mentioned patent publications is necessary. However, even if the modification is successful, the proportion of perfluoroalkyl group-containing monomer components in the copolymer decreases, resulting in In many cases, water and oil repellency, which is the most desired property, is impaired, and to date, there have been almost no water and oil repellents that can satisfy both water and oil repellency and other physical properties at the same time. This is the reality. The present inventor has conducted various studies in search of a polymer that does not take the form of a copolymer that impairs water and oil repellency, but also reduces the rigidity and crystallinity seen in homopolymers. Even if a polymer having a (perfluoroalkylene glycol) group in its side chain is a homopolymer, it does not impair the texture or color when applied to fabrics, etc., and also exhibits sufficient water and oil repellency. I discovered that. Also,
This polymer can be in the form of a copolymer within a range that does not impair its water and oil repellency, and in this case, the washing resistance will be even better. Therefore, an object of the present invention is to provide a water and oil repellent made of a homopolymer or a copolymer that exhibits sufficient water and oil repellency without impairing the texture or color when applied to fabric or the like. It is said that Such water and oil repellents are used in the form of homopolymers or copolymers, respectively. Consists of a polymer with poly(perfluoropropylene glycol) groups in the side chains. And, as a polymer having a poly(perfluoropropylene glycol) group in the side chain, the general formula is (Here, R is a divalent organic bonding group,
R' is a hydrogen atom or a methyl group, n is 0 or an integer, generally an integer of 50 or less, and m is an integer, generally an integer of 1 to 10). Consolidation is used. Examples of such vinyl compounds include:

【匏】基をRf基ずした ずき、 CH2CR′―COOCH2―Rf CH2CR′―OCO―Rf CH2CR′―CH2OCO―Rf CH2CR′―CH2OCH2―Rf CH2CR′―CONR″CO―Rf CH2CR′―COOCH2CH2NR″CO―Rf CH2CR′―COOCH2CHOHCH2OCO―Rf CH2CR′―COOCH2CHOHCH2OCH2―
Rf CH2CR′―CONR″CH2OCO―Rf CH2CR′―COOCH2CH2OCO―Rf ここで、R″は氎玠原子たたは䜎玚アルキル
基であるなどが挙げられる。 これらの各皮ビニル化合物の合成は、埌蚘参考
䟋に䟋瀺されるように、パヌフルオロプロピレン
オキサむドを単独で、たたはCF3COFCOF2な
どを反応の開始剀に甚いお、重合しお埗られるポ
リパヌフルオロプロピレングリコヌルの酞フ
ツ化物を、盞圓するカルボン酞、カルボン酞゚ス
テル、アルコヌル、―眮換酞アミドなどに倉換
し、これらの倉換化合物ずアクリル酞ハラむド、
ヒドロキシアルキルアクリレヌト、グリシゞルア
クリレヌトたたはそれらに盞圓するメタクリル酞
誘導䜓などずの瞮合反応たたは付加反応、曎には
酢酞ビニルなどずの゚ステル亀換反応などによ぀
お行われる。あるいは、酞フツ化物自䜓を、ヒド
ロキシル基含有化合物たたはそれの金属塩ず瞮合
反応させるこずもできる。 ビニル化合物の重合は、䞀般的なラゞカル重合
の手法が抂ねそのたた適甚できる。即ち、乳化重
合の堎合には、䟋えばオクタデシルゞメチルアミ
ン塩酞塩などが乳化剀ずしお、たたアゟビスむ゜
ブチルアミゞン塩酞塩などが重合開始剀ずしおそ
れぞれ甚いられ、溶液重合の堎合には、芳銙族化
合物、ケトン、アルコヌル、ハロゲン化炭化氎玠
などが重合溶剀ずしお、たたアゟビスむ゜ブチロ
ニトリル、過酞化物などが重合開始剀ずしおそれ
ぞれ甚いられ、重合反応が行われる。 これらのビニル化合物は、その単独重合䜓がそ
れ自身で所望の性質を備えた撥氎撥油剀ずなり埗
るが、他のビニル化合物ずの共重合䜓の圢でも撥
氎撥油剀ずしお甚いるこずができる。 共単量䜓ずなり埗る他のビニル化合物ずしお
は、次のような各皮のものが甚いられる。 (1) 炭玠数以䞊の炭化氎玠基を有するビニル化
合物、䟋えばブチルアクリレヌト、ブチルメタ
クリレヌト、オクチルアクリレヌト、オクチル
メタクリレヌト、―゚チルヘキシルアクリレ
ヌト、シクロヘキシルアクリレヌト、ベンゞル
アクリレヌトなどハロゲン含有ビニル化合
物、䟋えば塩化ビニル、塩化ビニリデン、―
クロル゚チルビニル゚ヌテル、臭化ビニル、フ
ツ化ビニル、フツ化ビニリデンなどゞ゚ン化
合物、䟋えばクロロプレン、む゜プレン、ブタ
ゞ゚ンなど これらのビニル化合物たたはゞ゚ン化合物
は、玄99重量以䞋、奜たしくは玄90重量以
䞋、曎に奜たしくは玄75重量以䞋の割合で甚
いられ、重合䜓の柔軟性の向䞊、ハロゲン化溶
剀ぞの溶解性の向䞊などに寄䞎する。 (2) ヒドロキシル基、アミド基、アミノ基、カル
ボキシル基、リン酞基、スルホン酞基などの掻
性基を有するビニル化合物、䟋えば―ヒドロ
キシ゚チルアクリレヌト、―ヒドロキシ゚チ
ルメタクリレヌト、―メチロヌルアクリルア
ミド、アクリルアミド、メタクリルアミド、
―アミノスチレン、アクリル酞、メタクリル
酞、マレむン酞、―アクリロむロキシ゚チル
アシツドホスプヌト、―スルホニルスチレ
ンなど これらのビニル化合物は、玄0.01〜10重量
、奜たしくは玄0.05〜重量、曎に奜たし
くは玄0.1〜重量の割合で甚いられ、ビニ
ル化合物䞭の掻性基の存圚は、重合䜓の繊維、
玙、皮革などぞの付着性を匷化させる。 (3) 䜎玚パヌフルオロアルキル基を有するビニル
化合物、䟋えば―トリフルオロ゚チ
ルアクリレヌト、―ヘ
キサフルオロ――プロピルアクリレヌトな
ど これらのビニル化合物は、玄10〜90重量、
奜たしくは玄20〜80重量、曎に奜たしくは玄
30〜60重量の割合で甚いられ、これらは重合
䜓の撥氎撥油性および柔軟性をそれぞれ曎に若
干向䞊させる。 撥氎撥油剀の調補は、重合䜓の合成を氎性媒䜓
䞭で乳化重合法たたはけん濁重合法で行な぀た堎
合には、それら重合液の垌釈氎溶液の圢にしお行
われ、たた塊状重合法たたは溶液重合法で行な぀
た堎合には、それらの有機溶剀の垌釈溶液の圢で
行われる。 撥氎撥油凊理は、このようにしお調補された撥
氎撥油剀を甚い、朚綿、矊毛、絹、ポリ゚ステ
ル、ポリアミド、再生セルロヌスなどの各皮繊維
たたはこれらの混玡の織垃、パルプ補品、皮革な
どの被凊理物に察しお行われる。 次に、本発明を実斜䟋に぀いお説明する。 参考䟋  特公昭40−10061号公報蚘茉の方法によ぀お、
次の反応を行な぀た。 この酞フツ化物を、觊媒の䞍存圚䞋に加氎分解
し、盞圓するカルボン酞に倉換した。 このカルボン酞を、パラトル゚ンスルホン酞觊
媒の存圚䞋で、゚タノヌルず反応させお゚ステル
化し、盞圓するカルボン酞゚チル゚ステルに倉換
した。 このカルボン酞゚チル゚ステルを、テトラヒド
ロフラン溶剀䞭、リチりムアルミニりムハむドラ
むドで還元し、盞圓するアルコヌルに倉換した。 たた、前蚘カルボン酞゚ステルを、觊媒の䞍存
圚䞋でヒドロキシ゚チルメチルアミンず反応さ
せ、盞圓する―眮換酞アミドに倉換した。 参考䟋  参考䟋で埗られたアルコヌル100
0.207モルにハむドロキノン0.1を加え、
この混合物䞭にアクリル酞クロラむド27
0.298モルを滎䞋する。70℃で時間反応させ
た埌、ピリゞン20ml0.210モルを滎䞋し、曎
に時間反応させる。反応終了埌、反応液を10
NaHCO3氎溶液で掗浄し、有機盞を分離する。
この盞を脱氎埌蒞留し、沞点55〜70℃0.1mm
の留分61収率74.4を埗た。 この留分に぀いおのNMRスペクトル、赀倖線
吞収スペクトルの枬定および元玠分析の結果か
ら、この留分は次匏で瀺される化合物ず考えられ
る。 ―NMRCF3COOH倖郚基準以䞋同じ 〜8ppmCF3CF2 55ppmCF3CF2CF2O 69.5ppmCF ―NMRTMS内郚基準以䞋同じ 5.5〜6.5ppmアクリル基 赀倖線吞収スペクトル 1740cm-1゚ステル基 元玠分析 蚈算倀 26.870.9360.26 実枬倀 26.310.8160.01 参考䟋  参考䟋で埗られた酞フツ化物100
0.210モルにハむドロキノン0.1およびフ
ツ化ナトリりム20を加え、この混合物に―ヒ
ドロキシ゚チルアクリレヌト250.216モル
を滎䞋する。60〜70℃で時間反応させた埌、反
応混合物をロ過し、ロ液を10NaHCO3氎溶液
で掗浄埌、有機盞を分離する。この盞を脱氎埌蒞
留し、沞点58〜70℃0.1mmの留分89収
率75を埗た。 この留分に぀いおのNMRスペクトル、赀倖線
吞収スペクトルの枬定および元玠分析の結果か
ら、この留分は次匏で瀺される化合物ず考えられ
る。 ―NMR参考䟋ず同じ ―NMR参考䟋ず同じ 赀倖線吞収スペクトル 1780cm-1゚ステル基[Formula] When the group is R f , CH 2 = CR'-COOCH 2 -R f CH 2 = CR'-OCO-R f CH 2 = CR'-CH 2 OCO-R f CH 2 = CR' ―CH 2 OCH 2 ―R f CH 2 CR′―CONR″CO―R f CH 2 CR′―COOCH 2 CH 2 NR″CO―R f CH 2 CR′―COOCH 2 CH(OH)CH 2 OCO―R f CH 2 = CR′―COOCH 2 CH(OH)CH 2 OCH 2 ―
R f CH 2 =CR′―CONR″CH 2 OCO―R f CH 2 =CR′―COOCH 2 CH 2 OCO―R f (Here, R'' is a hydrogen atom or a lower alkyl group.) These various vinyl compounds can be synthesized by using perfluoropropylene oxide alone or by using CF 3 Using COF, COF 2 , etc. as a reaction initiator, the acid fluoride of poly(perfluoropropylene glycol) obtained by polymerization is treated with the corresponding carboxylic acid, carboxylic acid ester, alcohol, N-substituted acid amide, etc. acrylic halide with these converted compounds,
This is carried out by condensation or addition reactions with hydroxyalkyl acrylate, glycidyl acrylate, or their corresponding methacrylic acid derivatives, and further by transesterification with vinyl acetate or the like. Alternatively, the acid fluoride itself can be subjected to a condensation reaction with a hydroxyl group-containing compound or a metal salt thereof. For the polymerization of vinyl compounds, general radical polymerization techniques can be applied as is. That is, in the case of emulsion polymerization, for example, octadecyldimethylamine hydrochloride or the like is used as an emulsifier, and azobisisobutyramidine hydrochloride or the like is used as a polymerization initiator. In the case of solution polymerization, aromatic compounds, ketones, The polymerization reaction is carried out using alcohol, halogenated hydrocarbon, etc. as a polymerization solvent, and azobisisobutyronitrile, peroxide, etc. as a polymerization initiator. These vinyl compounds can be used as water and oil repellents by themselves in the form of homopolymers having desired properties, but they can also be used as water and oil repellents in the form of copolymers with other vinyl compounds. Various other vinyl compounds that can be used as comonomers include the following. (1) Vinyl compounds having a hydrocarbon group having 4 or more carbon atoms, such as butyl acrylate, butyl methacrylate, octyl acrylate, octyl methacrylate, 2-ethylhexyl acrylate, cyclohexyl acrylate, benzyl acrylate, etc.; halogen-containing vinyl compounds, such as vinyl chloride, Vinylidene chloride, 2-
Chlorethyl vinyl ether, vinyl bromide, vinyl fluoride, vinylidene fluoride, etc.; diene compounds, such as chloroprene, isoprene, butadiene, etc.: These vinyl compounds or diene compounds are about 99% by weight or less, preferably about 90% by weight or less It is more preferably used in a proportion of about 75% by weight or less, and contributes to improving the flexibility of the polymer and the solubility in halogenated solvents. (2) Vinyl compounds having active groups such as hydroxyl group, amide group, amino group, carboxyl group, phosphoric acid group, sulfonic acid group, etc., such as 2-hydroxyethyl acrylate, 2-hydroxyethyl methacrylate, N-methylolacrylamide, acrylamide , methacrylamide, 4
-Aminostyrene, acrylic acid, methacrylic acid, maleic acid, 2-acryloyloxyethyl acid phosphate, 4-sulfonylstyrene, etc.: These vinyl compounds are contained in an amount of about 0.01 to 10% by weight, preferably about 0.05 to 5% by weight. %, more preferably from about 0.1 to 2% by weight, and the presence of active groups in the vinyl compound increases the polymeric fiber,
Strengthens adhesion to paper, leather, etc. (3) Vinyl compounds having a lower perfluoroalkyl group, such as 2,2,2-trifluoroethyl acrylate, 1,1,1,3,3,3-hexafluoro-2-propyl acrylate, etc.: These vinyl compounds is about 10-90% by weight,
Preferably about 20-80% by weight, more preferably about
Used in proportions of 30 to 60% by weight, they further slightly improve the water and oil repellency and flexibility, respectively, of the polymer. Water and oil repellents are prepared in the form of diluted aqueous solutions of polymers synthesized in an aqueous medium by emulsion polymerization or suspension polymerization, or by bulk polymerization. Alternatively, when the solution polymerization method is used, it is carried out in the form of a diluted solution of the organic solvent. Water and oil repellent treatment uses the water and oil repellent prepared in this way to treat various fibers such as cotton, wool, silk, polyester, polyamide, and regenerated cellulose, or woven fabrics made from blends thereof, pulp products, leather, etc. This is done on the workpiece. Next, the present invention will be described with reference to examples. Reference example 1 By the method described in Japanese Patent Publication No. 40-10061,
The following reaction was performed. The acid fluoride was hydrolyzed in the absence of a catalyst and converted to the corresponding carboxylic acid. This carboxylic acid was esterified by reaction with ethanol in the presence of a para-toluenesulfonic acid catalyst and converted to the corresponding carboxylic acid ethyl ester. This carboxylic acid ethyl ester was converted to the corresponding alcohol by reduction with lithium aluminum hydride in tetrahydrofuran solvent. The carboxylic acid ester was also converted to the corresponding N-substituted acid amide by reacting with hydroxyethylmethylamine in the absence of a catalyst. Reference example 2 Alcohol obtained in reference example 1 (n=1) 100
g (0.207 mol) and add 0.1 g of hydroquinone,
27g of acrylic acid chloride in this mixture
(0.298 mol) was added dropwise. After reacting at 70° C. for 4 hours, 20 ml (0.210 mol) of pyridine was added dropwise and the reaction was continued for an additional hour. After the reaction is complete, reduce the reaction solution to 10%
Wash with aqueous NaHCO3 solution and separate the organic phase.
This phase is dehydrated and then distilled, with a boiling point of 55-70℃/0.1mmH.
61 g of fraction (yield 74.4%) was obtained. Based on the results of NMR spectrum, infrared absorption spectrum measurements, and elemental analysis of this fraction, this fraction is considered to be a compound represented by the following formula. F-NMR (CF 3 COOH external standard; same below): 6-8ppm (CF 3 , CF 2 ) 55ppm (CF 3 CF 2 CF 2 O) 69.5ppm (CF) H-NMR (TMS internal standard; same below) ; 5.5-6.5ppm (acrylic group) Infrared absorption spectrum: 1740cm -1 (ester group) Elemental analysis: Calculated values C: 26.87%, H: 0.93%, F: 60.26% Actual values C: 26.31%, H: 0.81% , F: 60.01% Reference Example 3 Acid fluoride obtained in Reference Example 1 (n=1) 100
g (0.210 mol), add 0.1 g of hydroquinone and 20 g of sodium fluoride, and add 25 g (0.216 mol) of 2-hydroxyethyl acrylate to this mixture.
drip. After reacting at 60-70° C. for 6 hours, the reaction mixture is filtered, and after washing the filtrate with 10% aqueous NaHCO 3 solution, the organic phase is separated. This phase was dehydrated and then distilled to obtain 89 g (75% yield) of a fraction with a boiling point of 58-70°C/0.1 mmHg. Based on the results of NMR spectrum, infrared absorption spectrum, and elemental analysis of this fraction, this fraction is considered to be a compound represented by the following formula. F-NMR: Same as Reference Example 2 H-NMR: Same as Reference Example 2 Infrared absorption spectrum: 1780 cm -1 (Ester group

〔撥氎性詊隓〕[Water repellency test]

凊理された朚綿垃䞊に䞀滎の氎を滎䞋し、分
間経過埌の状態を芳察した。 A drop of water was dropped onto the treated cotton cloth, and the condition was observed after 5 minutes.

【衚】 られる
〔撥油性詊隓〕 凊理された朚綿垃䞊に䞀滎の詊隓液次の衚に
瀺される特定割合の混合液を滎䞋し、分間経
過埌の状態を芳察する。滎䞋された詊隓液が垃䞊
に保持されおいる堎合には、曎に―ヘプタン含
量の倚い詊隓液で詊隓し、逆に垃䞊に保持されな
い堎合には、曎にヌゞペヌル含量の倚い詊隓液で
詊隓する。そしお、垃䞊に保持されるのに限界の
詊隓液を以぀お、次衚の撥油性評䟡に基いお評䟡
する。なお、撥油性評䟡においお、100ヌゞペ
ヌルを保持する堎合を50、100ヌゞペヌルを保
持しない堎合をずする。[Table] [Oil repellency test] Drop one drop of the test liquid (mixed liquid at a specific ratio shown in the table below) onto the treated cotton cloth and observe the condition after 5 minutes have elapsed. If the dropped test solution is retained on the cloth, test with a test solution with higher n-heptane content, and conversely, if it is not retained on the cloth, test with a test solution with higher n-heptane content. do. Then, using the test liquid that can be retained on the cloth at its limit, the oil repellency is evaluated based on the oil repellency evaluation shown in the table below. In the oil repellency evaluation, the case where 100% Nudyol is retained is 50, and the case where 100% Nudyol is not retained is 0.

【衚】【table】

〔剛盎性詊隓〕[Rigidity test]

JIS ―1096B法に基き、剛軟床を枬定し、そ
れから次匏に埓぀お柔軟床を算出する。この柔軟
床の倀がに近い皋未凊理垃に近く、たた数倀が
小さくなる皋硬くなるこずを瀺しおいる。 柔軟床未凊理垃の剛軟床凊理垃の剛軟床 埗られた結果は、次の第衚に瀺される。 第衚 è©Šéš“é …ç›® 詊隓結果 撥氎性 100 撥油性 150 耐掗濯性撥氎性 90 〃 撥油性 130 柔軟床 0.99 觊感 良奜 実斜䟋  実斜䟋においお、化合物′100郚の䞭の25郚
を―゚チルヘキシルアクリレヌトで眮換した。 実斜䟋  実斜䟋においお、化合物′の代りに、前蚘
参考䟋ず同様の方法で埗られた、次匏で瀺され
る化合物′の同量が甚いられた。 実斜䟋  実斜䟋においお、化合物′の代りに、前蚘
参考䟋ず同様の方法で埗られた、次匏で瀺され
る化合物′の同量が甚いられた。 実斜䟋  実斜䟋においお、化合物′の代りに、参考
䟋ず同様の方法で埗られた、次匏で瀺される化
合物′の同量が甚いられた。 実斜䟋  実斜䟋においお、化合物′の代りに、参考
䟋ず同様の方法で埗られた、次匏で瀺される化
合物′の同量が甚いられた。 比范䟋  実斜䟋においお、化合物′の代りに、次匏
で瀺される化合物の同量が甚いられた。重合反
応時に、倚くの析出物がみられた。 CH2CHCOOCH2CH2C8F17 〔化合物〕 比范䟋  実斜䟋においお、化合物′の代りに、化合
物の同量が甚いられた。 以䞊の実斜䟋〜および比范䟋〜でそれ
ぞれ埗られた氎性ラテツクスに぀いお、それに浞
挬した朚綿垃の撥氎性詊隓、撥油性詊隓、掗濯性
詊隓および剛盎性詊隓を、実斜䟋ず同様にしお
行な぀た。埗られた結果は、次の第衚に瀺され
る。 The bending resistance is measured based on the JIS L-1096B method, and then the flexibility is calculated according to the following formula. The closer the softness value is to 1, the closer it is to untreated cloth, and the smaller the value, the harder it is. Softness=bending resistance of untreated fabric/bending resistance of treated fabric The results obtained are shown in Table 1 below. Table 1 Test Item Test Results Water repellency 100 Oil repellency 150 Washing resistance (water repellency) 90 〃 (Oil repellency) 130 Softness 0.99 Texture Good Example 2 In Example 1, 25 parts out of 100 parts of compound ' Substitution was made with 2-ethylhexyl acrylate. Example 3 In Example 1, the same amount of compound ', which was obtained in the same manner as in Reference Example 5 and represented by the following formula, was used in place of compound '. Example 4 In Example 1, the same amount of Compound ', which was obtained in the same manner as in Reference Example 4 and represented by the following formula, was used in place of Compound '. Example 5 In Example 1, the same amount of Compound ', which was obtained in the same manner as in Reference Example 6 and represented by the following formula, was used in place of Compound '. Example 6 In Example 1, the same amount of Compound ', which was obtained in the same manner as in Reference Example 3 and represented by the following formula, was used in place of Compound '. Comparative Example 1 In Example 1, the same amount of Compound X represented by the following formula was used in place of Compound '. Many precipitates were observed during the polymerization reaction. CH 2 =CHCOOCH 2 CH 2 C 8 F 17 [Compound X] Comparative Example 2 In Example 2, the same amount of Compound X was used instead of Compound'. The water-based latex obtained in Examples 2 to 6 and Comparative Examples 1 to 2 above was subjected to a water repellency test, an oil repellency test, a washability test, and a stiffness test on cotton cloth soaked therein in the same manner as in Example 1. I did it. The results obtained are shown in Table 2 below.

【衚】【table】

【衚】 剀が垃地から脱着された
実斜䟋 〜10 実斜䟋においお、の平均倀の異なる皮々の
化合物′の同量が甚いられた。 埗られた氎性ラテツクスのそれぞれに぀いお、
それに浞挬した朚綿垃の撥氎性詊隓、撥油性詊
隓、掗濯性詊隓および剛盎性詊隓を、実斜䟋ず
同様にしお行な぀た。埗られた結果は、次の第
衚に瀺される。Table: Examples 7 to 10 in which agents were desorbed from fabrics In example 2, the same amounts of various compounds' with different average values of n were used. For each of the obtained aqueous latexes,
A water repellency test, an oil repellency test, a washability test, and a stiffness test of the cotton cloth soaked therein were conducted in the same manner as in Example 1. The results obtained are as follows:
Shown in the table.

【衚】【table】

Claims (1)

【特蚱請求の範囲】  ヒドロキシル基含有ビニル化合物を0.05〜
重量共重合させた、次の䞀般匏で瀺されるビニ
ル化合物の重合䜓の氎性ラテツクスよりなる撥氎
撥油剀。 䟡の有機基 R′氎玠原子たたはメチル基 たたは敎数 敎数。[Claims] 1. The hydroxyl group-containing vinyl compound is 0.05 to 5
A water- and oil-repellent agent comprising an aqueous latex of a polymer of a vinyl compound represented by the following general formula, which is copolymerized in a weight percent. R: divalent organic group R': hydrogen atom or methyl group n: 0 or an integer m: an integer.
JP57046566A 1982-03-24 1982-03-24 Water and oil repellent Granted JPS58164672A (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
JP57046566A JPS58164672A (en) 1982-03-24 1982-03-24 Water and oil repellent

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
JP57046566A JPS58164672A (en) 1982-03-24 1982-03-24 Water and oil repellent

Publications (2)

Publication Number Publication Date
JPS58164672A JPS58164672A (en) 1983-09-29
JPS6342954B2 true JPS6342954B2 (en) 1988-08-26

Family

ID=12750863

Family Applications (1)

Application Number Title Priority Date Filing Date
JP57046566A Granted JPS58164672A (en) 1982-03-24 1982-03-24 Water and oil repellent

Country Status (1)

Country Link
JP (1) JPS58164672A (en)

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JPH03177642A (en) * 1989-12-07 1991-08-01 Naoyuki Akamaru Chain type steel belt for continuously variable transmission

Families Citing this family (6)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JPS62178592A (en) * 1986-01-31 1987-08-05 Shin Etsu Chem Co Ltd Methacrylic acid ester
JPH05194322A (en) * 1992-01-17 1993-08-03 Shin Etsu Chem Co Ltd Fluorine-containing acrylic ester
JP5397519B2 (en) * 2011-10-19 2014-01-22 ダむキン工業株匏䌚瀟 Fluorine-containing composition and use thereof
KR20220125309A (en) * 2020-02-10 2022-09-14 유니마테크 가부시킀가읎샀 Flexible water and oil repellent agent containing fluorinated polymer as an active ingredient
KR102468147B1 (en) * 2020-02-14 2022-11-18 니칎윔늬아 죌식회사 Fluorine Based Stain-proofing Agent Composition with Improved Water-repellant, Oil-repellant and Antifouling Performance and Fabric Products Using the Same
CN116406388A (en) * 2020-11-16 2023-07-07 株匏䌚瀟 Water-repellent and oil-repellent agent composition, method for producing same, and article

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JPH03177642A (en) * 1989-12-07 1991-08-01 Naoyuki Akamaru Chain type steel belt for continuously variable transmission

Also Published As

Publication number Publication date
JPS58164672A (en) 1983-09-29

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