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JPH033691B2 - - Google Patents
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JPH033691B2 - - Google Patents

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Publication number
JPH033691B2
JPH033691B2 JP10673783A JP10673783A JPH033691B2 JP H033691 B2 JPH033691 B2 JP H033691B2 JP 10673783 A JP10673783 A JP 10673783A JP 10673783 A JP10673783 A JP 10673783A JP H033691 B2 JPH033691 B2 JP H033691B2
Authority
JP
Japan
Prior art keywords
meth
reaction
epsilon caprolactone
acrylate
parts
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
JP10673783A
Other languages
Japanese (ja)
Other versions
JPS59232114A (en
Inventor
Hideaki Hatsutori
Minoru Yokoshima
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 Kayaku Co Ltd
Original Assignee
Nippon Kayaku Co Ltd
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 Kayaku Co Ltd filed Critical Nippon Kayaku Co Ltd
Priority to JP10673783A priority Critical patent/JPS59232114A/en
Publication of JPS59232114A publication Critical patent/JPS59232114A/en
Publication of JPH033691B2 publication Critical patent/JPH033691B2/ja
Granted legal-status Critical Current

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  • Polyurethanes Or Polyureas (AREA)
  • Macromonomer-Based Addition Polymer (AREA)
  • Organic Low-Molecular-Weight Compounds And Preparation Thereof (AREA)

Description

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

〔産業䞊の利甚分野〕 本発明は光硬化性組成物に関する。 〔埓来の技術〕 珟圚、皮々の垂堎においお各皮のりレタンポリ
メタアクリレヌトを含む光硬化性組成物が鋭
意研究され、補品化されおいる。 〔発明が解決しようずする課題〕 しかし、珟圚垂堎に提䟛されおいる光硬化性組
成物は、䞀般に高粘床の各皮のりレタンポリメ
タアクリレヌトを含んでいるため各皮甚途ぞの
適応が䞍十分なのが珟状である。このためこれら
垂堎では、䜎粘床の新芏なりレタンポリメタ
アクリレヌトを含む光硬化性組成物が匷く芁望さ
れおいる。よ぀お、新芏りレタンポリメタア
クリレヌトを含む光硬化性組成物をこれら垂堎に
提䟛するこずは、各皮甚途の進展のために非垞に
有甚である。 〔課題を解決するための手段〕 本発明は、 (A) 䞋蚘(a)成分、(b)成分及び(c)成分の反応生成物
よりなる゚ステルゞオヌルりレタンポリメ
タアクリレヌト (a) 次の〔〕の化合物 匏〔〕䞭、及びの平均倀はそれぞれ
〜10の数を瀺し、ずの和の平均合蚈倀は〜
20の数を瀺す。 (b) 有機ポリむ゜シアネヌト   〔〕 (c) 次の〔〕〔〕又は及び〔〕の化合
物 匏〔〕䞭、R1R2は又はCH3を瀺す。 匏〔〕䞭、R1R2は又はCH3を瀺し、
は〜20を瀺す。 ポリオヌルずメタアクリル酞ずの゚ステル
化物であ぀お、少なくずも個のOH基を有する
化合物   〔〕 及び (B) 光重合開始剀 を含むこずを特城ずする光硬化性組成物、に関す
る。 䞊蚘の゚ステルゞオヌルりレタンメタアク
リレヌト(A)は(a)成分ず(b)成分をりレタン化し、次
いで(c)成分でポリメタアクリレヌト化するこ
ずによ぀お補造される。 本発明に甚いる前蚘〔〕の化合物は、ヒドロ
オキシピバリルヒドロオキシピバレヌトず゚プシ
ロンカプロラクトンを付加させお埗られるもので
ある。 ヒドロオキシピバリルヒドロオキシピバレヌト
ず゚プシロンカプロラクトンずの反応䞭におい
お、奜たしくは觊媒的有効量の觊媒を䜿甚する。
その䜿甚量はカプロラクトンの重量を基準にしお
0.001〜1.0重量奜たしくは0.01〜0.2重量であ
る。 有甚な觊媒はラクトン付加物化孊分野における
圓業者に公知のものであり、それら有甚な觊媒の
䟋ずしおは、テトラむ゜プロピルチタネヌト、テ
トラブチルチタネヌト等の有機チタン化合物、テ
トラプニルすず、テトラオクチルすずゞプニ
ルすずゞラりレヌト、ゞラりリルすずオキサむド
等のすず化合物などを挙げるこずができる。ヒド
ロオキシピバリルヒドロオキシピバレヌトず゚プ
シロンカプロラクトンの反応は、50〜300℃、奜
たしくは130〜200℃の枩床においお、仕蟌み反応
物間の反応が完結するのに十分な時間にわた぀お
行う。反応に仕蟌む゚プシロンカプロラクトンの
量は、ヒドロオキシピバリルヒドロオキシピバレ
ヌトの仕蟌量モル圓り玄〜20モルである。酞
化副反応を最小化するために、該反応は窒玠等の
䞍掻然ガス雰囲気䞋においお、行うこずが奜たし
い。該ヒドロオキシピバリルヒドロオキシピバレ
ヌトず゚プシロンカプロラクトンずの付加物の混
合物からなる生成物はそのたた利甚するこずがで
きる。 たた、〔〕有機ポリむ゜シアネヌトの䟋ずし
おは、トリレンゞむ゜シアネヌト、キシリレンゞ
む゜シアネヌト、ゞむ゜シアネヌト、リゞンゞむ
゜シアネヌト、ゞプニルメタン−4′−ゞむ
゜シアネヌト、ヘキサメチレンゞむ゜シアネヌ
ト、む゜ホロンゞむ゜シアネヌト、ダむマ−酞ゞ
む゜シアネヌト等があげられる。特に奜たしい有
機ポリむ゜シアネヌトはヘキサメチレンゞむ゜シ
アネヌトおよびむ゜ホロンゞむ゜シアネヌトであ
る。 〔〕の化合物の䟋ずしおは、ヒドロキシ゚チ
ルメタアクリレヌト、ヒドロキシプロピル
メタアクリレヌトがある。 〔〕の化合物の䟋ずしおは、アクリレヌト又
はメタクリレヌト末端基を持぀たモノヒドロキシ
ポリカプロラクトンダむセル化孊工業瀟補プラ
クセルFA−FA−FM−FM−等
が挙げられる。 〔〕の化合物の䟋ずしおは、グリセリン、ト
リメチロヌルプロパン、−ブタントリ
オヌル、−ペンタントリオヌル、
−ヘキサントリオヌル、ペンタ゚リスリト
ヌル、ゞペンタ゚リスリトヌル、゜ルビツト、マ
ンニツト等のポリオヌルを甚いお埗られる少なく
ずも個のOH基を有するポリメタアクリレ
ヌト、たた、䞊蚘のポリオヌルにむプシロンカプ
ロラクトンを付加したポリカプロラクトンポリオ
ヌルを甚いお埗られる少なくずも個のOH基を
有するポリメタアクリレヌト等が挙げられ
る。 特に奜たしい〔〕の化合物はペンタ゚リスリ
トヌルトリアクリレヌトである。 前蚘のりレタン化反応は、む゜シアネヌト基ず
氎酞基ずの反応を促進させるために第玚アミ
ン、ゞブチルスズゞラりレヌト、ゞオクチルスズ
ゞラりレヌト等のりレタン圢成を助長する公知の
觊媒の存圚䞋においお行うこずができる。たた、
このりレタン化反応は、圓業者に公知の手順にお
いお所望により、いずれかの反応物のわずかに過
剰を䜿甚するこずができ、この反応条件䞋におい
お、䞍掻性であり、しかも粘床䜎䞋剀ずしおも䜜
甚する有機溶剀䞭においお行うこずができる。こ
れら有機溶剀ずしおは、アセトン、メチル゚チル
ケトン、シクロヘキサン等のケトン類、酢酞゚チ
ル、酢酞ブチル等の゚ステル類、トル゚ン、キシ
レン等の芳銙族炭化氎玠類、む゜プルピル゚ヌテ
ル、゚チル゚ヌテル等の゚ヌテル類等の倚数の奜
適な溶剀がある。倚くの堎合該反応は、凊方物䞭
に保持され、該光硬化し埗る組成物の配合物ずし
お䜿甚され、か぀該硬化される組成物䞭に組み入
れられるこずのできる゚チレン䞍飜和性モノマヌ
䞭においお行うこずができる。このような゚チレ
ン䞍飜和性モノマヌの䟋ずしおはスチレン、ビニ
ルアルコヌルの゚ステル、アクリレヌト゚ステ
ル、グリコヌルゞアクリレヌト、トリオヌル及び
テトラオヌル等のポリアクリレヌト等を挙げるこ
ずができる。 たた、このりレタン化反応枩床は垞枩〜100℃、
奜たしくは50〜80℃である。そしお、次にポリ
メタアクリレヌト化反応においおは、前蚘り
レタン化反応で埗られた末端む゜シアネヌト基を
有する化合物に察しお(c)成分のわずかに過剰を䜿
甚するこずができる。 この反応では、反応䞭のラゞカル重合によるゲ
ル化を防ぐ為に反応前に50〜2000ppm末端む゜
シアネヌト基を有する化合物に察しおのハむド
ロキノン、ハむドロキノンモノメチル゚ヌテル、
−メトキシプノヌル、−ベンゟキノン、フ
゚ノチアゞン等の重合犁止剀を添加しおおくこず
が奜たしい。このようにしお合成した新芏の゚ス
テルゞオヌルりレタンポリメタアクリレヌト
は、コヌテむング及びむンキ組成物のベヌスレン
ゞずしお、たたは他の単量䜓−ビニル−−
ピロリドン、スチレン、−ヘキサンゞオヌ
ルゞアクリレヌト等もしくは、重合䜓゚ポキ
シアクリレヌト、ポリ゚ステルアクリレヌト等、
充おん剀及びその他の添加剀ずの混合物ずしお䜿
甚するこずができる。(B)光重合開始剀は、䞀般的
に圓業者に公知でありその䟋ずしはベンゟプノ
ン、−メトキシベンゟプノン、アセトプノ
ン、−クロロアセトプノン、プロピオプノ
ン、キサントン、ベンゟむン、ベンゞル、ナフト
キノン、アントラキノン等の倚くの皮類を挙げる
こずができる。光重合開始剀は、玄0.1〜玄10重
量の濃床においお組成物に組み入れる。 本発明の組成物は、慣甚の手段で塗垃するこず
ができ、玫倖線等により光硬化を行うこずができ
る。 〔実斜䟋〕 以䞋、本発明を合成䟋及び実斜䟋により詳现に
説明する。 ヒドロオキシピバリルヒドロオキシピバレヌ
トを゚プシロンカプロラクトンの付加物の合成䟋
〜 合成䟋  撹拌噚、枩床調節噚、枩床蚈、凝瞮噚を備えた
1l反応噚に、ヒドロオキシピバリルヒドロオキシ
ピバレヌト408.5郚、゚プシロンカプロラクトン
228.3郚、む゜プロピルチタネヌト0.38郚を仕蟌
み、窒玠䞭で160〜170℃に加熱し、未反応の゚プ
シロンカプロラクトンが重量以䞋になるたで
反応させた。 埗られた付加物は液状物質で氎酞基䟡254.7、
ケン化䟡394.3、酞䟡4.09であ぀た。 分子量枬定の結果、該ヒドロオキシピバリルヒ
ドロオキシピバレヌトず゚プシロンカプロラクト
ンの付加物は分子䞭に゚プシロンカプロラクトン
平均玄個の付加量を有するこずが瀺された。 以埌これを「ヒドロオキシピバリルヒドロオキ
シピバレヌトず゚プシロンカプロラクトンの付加
物2M」ずする。 合成䟋  合成䟋ず同䞀の反応噚に、ヒドロオキシピバ
リルヒドロオキシピバレヌト204.3郚、゚プシロ
ンカプロラクトン456.6郚、む゜プロピルチタネ
ヌト0.40郚を仕蟌み、゚プシロンカプロラクトン
の残量が重量以䞋になるたで、合成䟋ず同
様に反応を行぀た。 埗られた付加物は、液状物質で、氎酞基䟡
166.1、ケン化䟡424.8、酞䟡1.90であ぀た。 分子量枬定の結果、該ヒドロオキシピバリルヒ
ドロオキシピバレヌトず゚プシロンカプロラクト
ンの付加物は分子䞭に゚プシロンカプロラクトン
平均玄個の付加量を有するこずが瀺された。 以埌これを「ヒドロオキシピバリルヒドロオキ
シピバレヌトず゚プシロンカプロラクトンの付加
物4M」ずする。 合成䟋  合成䟋ず同䞀の反応噚に、ヒドロオキシピバ
リルヒドロオキシピバレヌト143郚、゚プシロン
カプロラクトン639.2郚、む゜プロピルチタネヌ
ト0.38郚を仕蟌み、゚プシロンカプロラクトンの
残量が重量以䞋になるたで、合成䟋ず同様
に反応を行぀た。 埗られた付加物は、ワツクス状物質で、氎酞基
䟡95.1、ケン化䟡452.3、酞䟡2.73であ぀た。 分子量枬定の結果、該ヒドロオキシピバリルヒ
ドロオキシピバレヌトず゚プシロンカプロラクト
ンの付加物は分子䞭に゚プシロンカプロラクトン
平均玄個の付加量を有するこずが瀺された。 以埌これを「ヒドロオキシピバリルヒドロオキ
シピバレヌトず゚プシロンカプロラクトンの付加
物8M」ずする。 合成䟋  合成䟋ず同䞀の反応噚に、ヒドロオキシピバ
リルヒドロオキシピバレヌト123郚、゚プシロン
カプロラクトン684.8郚、む゜プロピルチタネヌ
ト0.41郚を仕蟌み、゚プシロンカプロラクトンの
残量が重量以䞋になるたで、合成䟋ず同様
に反応を行぀た。 埗られた付加物は、ワツクス状物質で、氎酞基
䟡78.7、ケン化䟡458.8、酞䟡2.34であ぀た。 分子量枬定の結果、該ヒドロオキシピバリルヒ
ドロオキシピバレヌトず゚プシロンカプロラクト
ンの付加物は分子䞭に゚プシロンカプロラクトン
平均玄10個の付加量を有するこずが瀺された。 以埌これを「ヒドロオキシピバリルヒドロオキ
シピバレヌトず゚プシロンカプロラクトンの付加
物10M」ずする。 ゚ステルゞオヌルりレタンメタアクリレ
ヌト(A)の合成䟋〜12 合成䟋  撹拌噚、枩床調節装眮、枩床蚈、凝瞮噚を備え
た1l反応噚に、前蚘ヒドロオキシピバリルヒドロ
オキシピバレヌトず゚プシロンカプロラクトンの
付加物2M213.5郚、ずむ゜ホロンゞむ゜シア
ネヌト222.3郚を仕蟌んだ。 この混合物の反応は反応枩床を、70ないし75℃
に保ちながら行぀た。 9.64の遊離む゜シアネヌト基により瀺される
反応の完了たで該反応を継続した。反応噚の最初
の仕蟌みから反応の完了たでの経過時間は時間
であ぀た。次いで撹拌しながらヒドロキシ゚チル
アクリレヌト127.7郚ずハむドロキノンモノメチ
ル゚ヌテル0.28郚ずゞラりリル酞ゞ−ブチル錫
0.11郚を仕蟌んだ。この反応は反応枩床を75ない
し80℃に保ちながら行぀た。 箄0.3以䞋の遊離む゜シアネヌト基により瀺
される反応の完了たで該反応を継続した。反応生
成物ずしおヒドロオキシピバリルヒドロオキシピ
バレヌトず゚プシロンカプロラクトンの付加物
2Mのむ゜ホロンゞむ゜シアネヌト付加のヒド
ロキシ゚チルアクリレヌト付加物を埗た。 合成䟋 〜12 合成䟋ず同様にしお第衚に瀺した仕蟌み成
分組成で反応を行い、゚ステルゞオヌルりレタン
ポリメタアクリレヌトを合成した。 合成䟋〜12で埗られた各゚ステルゞオヌルり
レタンポリメタアクリレヌトに぀いお枩床49
℃で粘床を枬定し、その結果を、チオコヌル瀟補
Uvithane893の粘床ず共に第衚に瀺した。 [Industrial Field of Application] The present invention relates to a photocurable composition. [Prior Art] Currently, photocurable compositions containing various urethane poly(meth)acrylates are being intensively researched and commercialized in various markets. [Problem to be solved by the invention] However, the photocurable compositions currently available on the market generally contain various types of urethane poly(meth)acrylates with high viscosity, and are therefore insufficiently applicable to various uses. That is the current situation. Therefore, in these markets, new low viscosity urethane poly(meth)
There is a strong need for photocurable compositions containing acrylates. Therefore, providing photocurable compositions containing novel urethane poly(meth)acrylates to these markets is extremely useful for the advancement of various applications. [Means for Solving the Problems] The present invention provides: (A) an ester diol urethane poly(meth)acrylate consisting of a reaction product of the following components (a), (b) and (c); (a) the following: Compound of [] (In formula [], the average values of m and n are each 0
〜10, and the average total value of the sum of m and n is 1〜
Showing the number 20. ) (b) Organic polyisocyanate...[] (c) Compounds of the following [], [] or/and [] (In formula [], R 1 and R 2 represent H or CH 3. ) (In formula [], R 1 and R 2 represent H or CH 3 ,
n represents 1 to 20. ) A photocurable composition comprising an esterified product of a polyol and (meth)acrylic acid and having at least one OH group...[] and (B) a photopolymerization initiator; Regarding. The above ester diol urethane (meth)acrylate (A) is produced by converting components (a) and (b) into urethanes, and then converting them into poly(meth)acrylates with component (c). The compound [] used in the present invention is obtained by adding hydroxypivalyl hydroxypivalate and epsilon caprolactone. During the reaction of hydroxypivalyl hydroxypivalate and epsilon caprolactone, a catalytically effective amount of catalyst is preferably used.
The amount used is based on the weight of caprolactone.
0.001-1.0% by weight, preferably 0.01-0.2% by weight. Useful catalysts are known to those skilled in the art of lactone adduct chemistry; examples of useful catalysts include organotitanium compounds such as tetraisopropyl titanate, tetrabutyl titanate, tetraphenyltin, tetraoctyltin diphenyltin dilaurate. and tin compounds such as dilauryltin oxide. The reaction of hydroxypivalyl hydroxypivalate and epsilon caprolactone is carried out at a temperature of 50 to 300°C, preferably 130 to 200°C, for a period of time sufficient to complete the reaction between the charged reactants. The amount of epsilon caprolactone charged in the reaction is about 1 to 20 moles per mole of hydroxypivalyl hydroxypivalate charged. In order to minimize oxidative side reactions, the reaction is preferably carried out under an inert gas atmosphere such as nitrogen. The product consisting of the adduct mixture of hydroxypivalyl hydroxypivalate and epsilon caprolactone can be used as is. Examples of organic polyisocyanates include tolylene diisocyanate, xylylene diisocyanate, diisocyanate, lysine diisocyanate, diphenylmethane-4,4'-diisocyanate, hexamethylene diisocyanate, isophorone diisocyanate, and dimer acid diisocyanate. Particularly preferred organic polyisocyanates are hexamethylene diisocyanate and isophorone diisocyanate. Examples of the compound [ ] include hydroxyethyl (meth)acrylate and hydroxypropyl (meth)acrylate. Examples of compounds in [] include monohydroxypolycaprolactone with acrylate or methacrylate end groups (Plaxel FA-1, FA-2, FM-1, FM-2, etc. manufactured by Daicel Chemical Industries, Ltd.)
can be mentioned. Examples of compounds in [] include glycerin, trimethylolpropane, 1,2,4-butanetriol, 1,2,5-pentanetriol, 1,
Poly(meth)acrylates having at least one OH group obtained using polyols such as 2,6-hexanetriol, pentaerythritol, dipentaerythritol, sorbitol, mannitol, etc., and also poly(meth)acrylates having at least one OH group added to the above polyols. Examples include poly(meth)acrylate having at least one OH group obtained using polycaprolactone polyol. A particularly preferred compound [ ] is pentaerythritol triacrylate. The above-mentioned urethanization reaction can be carried out in the presence of a known catalyst that promotes urethane formation, such as a tertiary amine, dibutyltin dilaurate, dioctyltin dilaurate, etc., in order to promote the reaction between isocyanate groups and hydroxyl groups. Also,
This urethanization reaction can be carried out in procedures known to those skilled in the art, if desired using a slight excess of either reactant, which under the reaction conditions is inert and also acts as a viscosity-lowering agent. It can be carried out in an organic solvent. These organic solvents include ketones such as acetone, methyl ethyl ketone, and cyclohexane, esters such as ethyl acetate and butyl acetate, aromatic hydrocarbons such as toluene and xylene, and ethers such as isopropyl ether and ethyl ether. There are many suitable solvents. Often the reaction is carried out in an ethylenically unsaturated monomer that can be retained in the formulation, used as a formulation of the photocurable composition, and incorporated into the composition to be cured. be able to. Examples of such ethylenically unsaturated monomers include polyacrylates such as styrene, vinyl alcohol esters, acrylate esters, glycol diacrylates, triols and tetraols. In addition, this urethanization reaction temperature is room temperature to 100℃,
Preferably it is 50-80°C. Then, in the next poly(meth)acrylation reaction, a slight excess of component (c) can be used relative to the compound having terminal isocyanate groups obtained in the urethanization reaction. In this reaction, in order to prevent gelation due to radical polymerization during the reaction, 50 to 2000 ppm (based on the compound having a terminal isocyanate group) of hydroquinone, hydroquinone monomethyl ether,
It is preferable to add a polymerization inhibitor such as p-methoxyphenol, p-benzoquinone, or phenothiazine. The novel ester diol urethane poly(meth)acrylate thus synthesized can be used as a base range for coating and ink compositions or as a base range for other monomers (N-vinyl-2-
pyrrolidone, styrene, 1,6-hexanediol diacrylate, etc.) or polymers (epoxy acrylate, polyester acrylate, etc.),
It can be used as a mixture with fillers and other additives. (B) Photoinitiators are generally known to those skilled in the art and include benzophenone, p-methoxybenzophenone, acetophenone, m-chloroacetophenone, propiophenone, xanthone, benzoin, benzyl, Many types can be mentioned, such as naphthoquinone and anthraquinone. The photoinitiator is incorporated into the composition at a concentration of about 0.1 to about 10% by weight. The composition of the present invention can be applied by conventional means and can be photocured using ultraviolet rays or the like. [Example] Hereinafter, the present invention will be explained in detail with reference to Synthesis Examples and Examples. (Synthesis examples 1 to 4 of adducts of hydroxypivalyl hydroxypivalate and epsilon caprolactone) Synthesis example 1 Equipped with a stirrer, a temperature controller, a thermometer, and a condenser.
In a 1L reactor, 408.5 parts of hydroxypivalyl hydroxypivalate, epsilon caprolactone
228.3 parts of isopropyl titanate and 0.38 parts of isopropyl titanate were charged, heated to 160 to 170°C in nitrogen, and reacted until unreacted epsilon caprolactone became 1% by weight or less. The obtained adduct is a liquid substance with a hydroxyl value of 254.7,
The saponification value was 394.3 and the acid value was 4.09. As a result of molecular weight measurement, it was shown that the adduct of hydroxypivalyl hydroxypivalate and epsilon caprolactone had an average of about 2 epsilon caprolactone adducts in the molecule. Hereinafter, this will be referred to as "adduct of hydroxypivalyl hydroxypivalate and epsilon caprolactone (2M)." Synthesis Example 2 Into the same reactor as in Synthesis Example 1, 204.3 parts of hydroxypivalyl hydroxypivalate, 456.6 parts of epsilon caprolactone, and 0.40 parts of isopropyl titanate were charged, and the mixture was heated until the remaining amount of epsilon caprolactone became 1% by weight or less. The reaction was carried out in the same manner as in Synthesis Example 1. The obtained adduct is a liquid substance with a hydroxyl value
The saponification value was 166.1, the saponification value was 424.8, and the acid value was 1.90. As a result of molecular weight measurement, it was shown that the adduct of hydroxypivalyl hydroxypivalate and epsilon caprolactone had an average of about 4 epsilon caprolactone molecules in the molecule. Hereinafter, this will be referred to as "adduct of hydroxypivalyl hydroxypivalate and epsilon caprolactone (4M)." Synthesis Example 3 Into the same reactor as in Synthesis Example 1, 143 parts of hydroxypivalyl hydroxypivalate, 639.2 parts of epsilon caprolactone, and 0.38 parts of isopropyl titanate were charged, and the mixture was heated until the remaining amount of epsilon caprolactone became 1% by weight or less. The reaction was carried out in the same manner as in Synthesis Example 1. The obtained adduct was a wax-like substance with a hydroxyl value of 95.1, a saponification value of 452.3, and an acid value of 2.73. As a result of molecular weight measurement, it was shown that the adduct of hydroxypivalyl hydroxypivalate and epsilon caprolactone had an average of about 8 epsilon caprolactone adducts in the molecule. Hereinafter, this will be referred to as "adduct of hydroxypivalyl hydroxypivalate and epsilon caprolactone (8M)." Synthesis Example 4 Into the same reactor as in Synthesis Example 1, 123 parts of hydroxypivalyl hydroxypivalate, 684.8 parts of epsilon caprolactone, and 0.41 parts of isopropyl titanate were charged, and the mixture was heated until the remaining amount of epsilon caprolactone became 1% by weight or less. The reaction was carried out in the same manner as in Synthesis Example 1. The obtained adduct was a wax-like substance with a hydroxyl value of 78.7, a saponification value of 458.8, and an acid value of 2.34. The results of molecular weight measurements showed that the adduct of hydroxypivalyl hydroxypivalate and epsilon caprolactone had an average of about 10 epsilon caprolactone molecules in the molecule. Hereinafter, this will be referred to as "adduct of hydroxypivalyl hydroxypivalate and epsilon caprolactone (10M)." (Synthesis examples 5 to 12 of ester diol urethane (meth)acrylate (A)) Synthesis example 5 The above hydroxypivalyl hydroxypivalate was added to a 1L reactor equipped with a stirrer, a temperature controller, a thermometer, and a condenser. 213.5 parts of an adduct of epsilon caprolactone (2M) and 222.3 parts of isophorone diisocyanate were charged. The reaction temperature of this mixture is 70 to 75℃.
I went there while keeping it safe. The reaction was continued until completion as indicated by 9.64% free isocyanate groups. The elapsed time from initial charge of the reactor to completion of the reaction was 8 hours. Then, with stirring, 127.7 parts of hydroxyethyl acrylate, 0.28 parts of hydroquinone monomethyl ether, and di-n-butyltin dilaurate were added.
I prepared 0.11 parts. This reaction was carried out while maintaining the reaction temperature at 75 to 80°C. The reaction was continued until completion as indicated by less than about 0.3% free isocyanate groups. As a reaction product, a hydroxyethyl acrylate adduct of an adduct of hydroxypivalyl hydroxypivalate and epsilon caprolactone (2M) with isophorone diisocyanate was obtained. Synthesis Examples 6 to 12 Ester diol urethane poly(meth)acrylates were synthesized by carrying out reactions in the same manner as in Synthesis Example 5 using the feed component compositions shown in Table 1. Temperature 49 for each ester diol urethane poly(meth)acrylate obtained in Synthesis Examples 5 to 12
Measure the viscosity at °C and use the Thiokol
It is shown in Table 1 along with the viscosity of Uvitane893.

【衚】【table】

【衚】 実斜䟋  合成䟋で埗た゚ステルゞオヌルりレタンポリ
メタアクリレヌト70郚に30郚のテトラヒドロ
フルフリルアルコヌルのむプシロンカプロラクト
ンモル付加のモノアクリレヌト日本化薬補
TC−120Sずプニルグリオキシル酞゚ステル
ストりフアヌゞダパン瀟補ノアむキナア−55
10郚を加え光硬化性組成物を調補した。この組成
物を鋌板パネル䞊に塗垃し、2KWの高圧氎銀燈
オゟンレスタむプを甚いおcmの高さの距離
より光を照射した。 本組成物は0.42秒間照射するこずによりタツク
フリヌの状態に達しおいた。たた、2KWの高圧
氎銀燈オゟンタむプを甚いcmの高さの距離
より16.8秒間光を照射し硬化させた膜を䜿甚しお
その膜の䌞びず匕匵匷さKgcm2を枬定
した。枬定枩床23℃、JIS−号ダンペル䜿甚
本組成物の䌞びは23.5、匕匵匷さは205Kgcm2
であ぀た。 実斜䟋〜、比范䟋 実斜䟋においお、合成䟋で埗た゚ステルゞ
オヌルりレタンポリメタアクリレヌトの代り
に合成䟋〜12で埗た゚ステルゞオヌルりレタン
ポリメタアクリレヌト又はUvithane893をそ
れぞれ甚い、その他は実斜䟋ず同様にしお光硬
化性組成物を調補し、硬化速床、䌞び、匕
匵匷さKgcm2を枬定した。結果は第衚に瀺
した。[Table] Example 1 Monoacrylate obtained by adding 2 moles of epsilon caprolactone to 70 parts of ester diol urethane poly(meth)acrylate obtained in Synthesis Example 5 and 30 parts of tetrahydrofurfuryl alcohol (manufactured by Nippon Kayaku Co., Ltd.)
TC-120S) and phenylglyoxylic acid ester (Viquiure-55 manufactured by Stauffer Japan)
A photocurable composition was prepared by adding 10 parts. This composition was applied onto a steel plate panel, and irradiated with light from a distance of 8 cm using a 2KW high-pressure mercury lamp (ozone-less type). The composition reached a tack-free state by irradiation for 0.42 seconds. In addition, the elongation (%) and tensile strength (Kg/cm 2 ) of the film were measured using a film that was cured by irradiating light for 16.8 seconds from a distance of 8 cm using a 2KW high-pressure mercury lamp (ozone type ). was measured. (Measuring temperature 23℃, using JIS-3 damper)
The elongation of this composition is 23.5% and the tensile strength is 205Kg/cm 2
It was hot. Examples 2 to 8, Comparative Example 1 In Example 1, the ester diol urethane poly(meth)acrylate obtained in Synthesis Examples 6 to 12 or Uvitane893 was used instead of the ester diol urethane poly(meth)acrylate obtained in Synthesis Example 5. Using each of these, a photocurable composition was prepared in the same manner as in Example 1, and the curing rate, elongation (%), and tensile strength (Kg/cm 2 ) were measured. The results are shown in Table 2.

〔発明の効果〕〔Effect of the invention〕

本発明の組成物は䜎粘床の゚ステルゞオヌルり
レタンポリメタアクリレヌトを含み、各皮甚
途に適応できる。 The composition of the present invention contains a low viscosity ester diol urethane poly(meth)acrylate and is applicable to a variety of applications.

Claims (1)

【特蚱請求の範囲】  (A) 䞋蚘(a)成分、(b)成分及び(c)成分の反応生
成物よりなる゚ステルゞオヌルりレタンポリ
メタアクリレヌト (a) 次の〔〕の化合物 匏〔〕䞭、及びの平均倀はそれぞれ
〜10の数を瀺し、ずの和の平均合蚈倀は〜
20の数を瀺す。 (b) 有機ポリむ゜シアネヌト   〔〕 (c) 次の〔〕、〔〕又は及び〔〕の化合
物 匏〔〕䞭、R1R2は又はCH3を瀺す。 匏〔〕䞭、R1R2は又はCH3を瀺し、
は〜20を瀺す。 ポリオヌルずメタアクリル酞ずの゚ステル
化物であ぀お、少なくずも個のOH基を有する
化合物   〔〕 及び (B) 光重合開始剀 を含むこずを特城ずする光硬化性組成物。[Scope of Claims] 1 (A) Ester diol urethane poly(meth)acrylate consisting of a reaction product of the following components (a), (b) and (c) (a) The following compound [] (In formula [], the average values of m and n are each 0
〜10, and the average total value of the sum of m and n is 1〜
Showing the number 20. ) (b) Organic polyisocyanate...[] (c) Compounds of the following [], [] or/and [] (In formula [], R 1 and R 2 represent H or CH 3. ) (In formula [], R 1 and R 2 represent H or CH 3 ,
n represents 1 to 20. ) A photocurable composition comprising: a compound that is an esterified product of a polyol and (meth)acrylic acid and has at least one OH group; and (B) a photopolymerization initiator.
JP10673783A 1983-06-16 1983-06-16 New ester-diol urethane poly(meth)acrylate Granted JPS59232114A (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
JP10673783A JPS59232114A (en) 1983-06-16 1983-06-16 New ester-diol urethane poly(meth)acrylate

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
JP10673783A JPS59232114A (en) 1983-06-16 1983-06-16 New ester-diol urethane poly(meth)acrylate

Publications (2)

Publication Number Publication Date
JPS59232114A JPS59232114A (en) 1984-12-26
JPH033691B2 true JPH033691B2 (en) 1991-01-21

Family

ID=14441233

Family Applications (1)

Application Number Title Priority Date Filing Date
JP10673783A Granted JPS59232114A (en) 1983-06-16 1983-06-16 New ester-diol urethane poly(meth)acrylate

Country Status (1)

Country Link
JP (1) JPS59232114A (en)

Families Citing this family (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JPH0477515A (en) * 1990-07-13 1992-03-11 Hayakawa Rubber Co Ltd Radiation curing type oligomer
KR100690351B1 (en) 2005-07-15 2007-03-12 죌식회사 엘지화학 Hydroxy pivalyl hydroxy pivalate ester plasticizer composition and preparation method thereof
WO2007011126A1 (en) 2005-07-15 2007-01-25 Lg Chem, Ltd. Hydroxypivalyl hydroxypivalate ester plasticizer composition and method of preparing the same

Also Published As

Publication number Publication date
JPS59232114A (en) 1984-12-26

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