JP2005041893A - Active ray-curable composition, image-forming method using the same and inkjet recording device - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide an active ray-curable composition which can very stably record a highly precise image excellent in letter qualities and suffering from no generation of color mixing on every recording material under various printing circumstances, an image-forming method using the same and an inkjet recording device. <P>SOLUTION: The active ray-curable composition comprises, as photo-polymerizable compounds, an oxetane ring-bearing compound and a new alicyclic epoxy compound and further at least one of an epoxidized fatty acid ester and an epoxidized fatty acid glyceride. The image-forming method comprises using the same. An inkjet recording device is also provided. <P>COPYRIGHT: (C)2005,JPO&NCIPI

Description

【００４０】
【化７】

【００４１】
本発明においては、光重合性化合物としてオキセタン環を有する化合物及びエステル結合を２つ以上有する脂環式エポキシ化合物を含有する。好ましくは、一般式（ＩＩＩ）又は（ＩＶ）のいずれかで表される化合物である。
【００４２】
以下に一般式（ＩＩＩ）又は（ＩＶ）で表される具体的化合物を示す。
【００４３】
【化８】

【００４４】
脂環式エポキシ化合物の添加量としては、１０〜８０質量％含有することが好ましい。１０質量％未満であると硬化環境（温度、湿度）により硬化性が著しく変わってしまい使えない。８０質量％を超えると、硬化後の膜物性が弱く、使えない。本発明では、脂環式エポキシ化合物の１種を単独で使用してもよいが、２種以上を適宜組み合わせて使用してもよい。
【００４５】
また、これらの脂環式エポキシ化合物は、その製法は問わないが、例えば、丸善ＫＫ出版、第四版実験化学講座２０有機合成ＩＩ、２１３〜、平成４年、Ｅｄ．ｂｙ Ａｌｆｒｅｄ Ｈａｓｆｎｅｒ，Ｔｈｅ ｃｈｅｍｉｓｔｒｙ ｏｆ ｈｅｔｅｒｏｃｙｃｌｉｃ ｃｏｍｐｏｕｎｄｓ−Ｓｍａｌｌ Ｒｉｎｇ Ｈｅｔｅｒｏｃｙｃｌｅｓ ｐａｒｔ３ Ｏｘｉｒａｎｅｓ，Ｊｏｈｎ ＆ Ｗｉｌｅｙ ａｎｄ Ｓｏｎｓ，Ａｎ Ｉｎｔｅｒｓｃｉｅｎｃｅ Ｐｕｂｌｉｃａｔｉｏｎ，Ｎｅｗ Ｙｏｒｋ， １９８５、吉村、接着、２９巻１２号、３２、１９８５、吉村、接着、３０巻５号、４２、１９８６、吉村、接着、３０巻７号、４２、１９８６、特開平１１−１００３７８号、特願平２−１４０７３２号、特願平２−１８２１２４号公報等の文献を参考にして合成できる。
【００４６】
本発明で用いることのできるオキセタン化合物としては、特開２００１−２２０５２６号、同２００１−３１０９３７号に紹介されているような公知のあらゆるオキセタン化合物を使用できる。
【００４７】
本発明においては、エポキシ化脂肪酸エステル、エポキシ化脂肪酸グリセライドの少なくとも一種を含有する。オキセタン化合物／脂環式エポキシ化合物の系に併用することにより、ＡＭＥＳ及び感作性、臭気などの安全・環境の観点で好ましいだけでなく、硬化環境（温度、湿度）により硬化収縮による皺の発生、硬化性・吐出性の不良などの従来からの問題点を解決することができる。２０質量％を超えると、硬化膜強度が不足し問題となる。
【００４８】
エポキシ化脂肪酸エステル、エポキシ化脂肪酸グリセライドは、脂肪酸エステル、脂肪酸グリセライドにエポキシ基を導入したものであれば、特に制限はなく用いられる。
【００４９】
エポキシ化脂肪酸エステルとしては、オレイン酸エステルをエポキシ化して製造されたもので、エポキシステアリン酸メチル、エポキシステアリン酸ブチル、エポキシステアリン酸オクチル等が用いられる。また、エポキシ化脂肪酸グリセライドは、同様に、大豆油、アマニ油、ヒマシ油等をエポキシ化して製造されたもので、エポキシ化大豆油、エポキシ化アマニ油、エポキシ化ヒマシ油等が用いられる。
【００５０】
本発明では、塩基性化合物が好ましく用いられる。塩基性化合物を含有することで、吐出安定性が良好となるばかりでなく、低湿下においても硬化収縮による皺の発生が抑制される。
【００５１】
塩基性化合物としては、公知のあらゆるものを用いることができるが、代表的なものとして、塩基性アルカリ金属化合物、塩基性アルカリ土類金属化合物、アミンなどの塩基性有機化合物などがあげられる。
【００５２】
前記の塩基性アルカリ金属化合物としては、アルカリ金属の水酸化物（水酸化リチウム、水酸化ナトリウム、水酸化カリウム等）、アルカリ金属の炭酸塩（炭酸リチウム、炭酸ナトリウム、炭酸カリウム等）、アルカリ金属のアルコラート（ナトリウムメトキシド、ナトリウムエトキシド、カリウムメトキシド、カリウムエトキシド等）が挙げられる。
【００５３】
前記の塩基性アルカリ土類金属化合物としては、同様に、アルカリ土類金属の水酸化物（水酸化マグネシウム、水酸化カルシウム等）、アルカリ土類金属の炭酸塩（炭酸マグネシウム、炭酸カルシウム等）、アルカリ土類金属のアルコラート（マグネシウムメトキシド等）が挙げられる。
【００５４】
塩基性有機化合物としては、アミンならびにキノリンおよびキノリジンなど含窒素複素環化合物などが挙げられるが、これらの中でも、光重合成モノマーとの相溶性の面からアミンが好ましく、例えば、オクチルアミン、ナフチルアミン、キシレンジアミン、ジベンジルアミン、ジフェニルアミン、ジブチルアミン、ジオクチルアミン、ジメチルアニリン、キヌクリジン、トリブチルアミン、トリオクチルアミン、テトラメチルエチレンジアミン、テトラメチル−１，６−ヘキサメチレンジアミン、ヘキサメチレンテトラミンおよびトリエタノールアミンなどが挙げられる。
【００５５】
塩基性化合物を存在させる際のその濃度は、光重合性モノマーの総量に対して１０〜１０００質量ｐｐｍ、特に２０〜５００質量ｐｐｍの範囲であることが好ましい。なお、塩基性化合物は単独で使用しても複数を併用して使用してもよい。
【００５６】
本発明の活性光線硬化型インクには、公知のあらゆる光酸発生剤を用いることができる。
【００５７】
光酸発生剤としては、例えば、化学増幅型フォトレジストや光カチオン重合に利用される化合物が用いられる（有機エレクトロニクス材料研究会編、「イメージング用有機材料」、ぶんしん出版（１９９３年）、１８７〜１９２ページ参照）。本発明に好適な化合物の例を以下に挙げる。
【００５８】
【化９】

【００５９】
【化１０】

【００６０】
【化１１】

【００６１】
【化１２】

【００６２】
本発明の活性光線硬化型インクは、上述の活性光線硬化型組成物と共に、各種公知の染料及び／または顔料を含有しているが、好ましくは顔料を含有する。
【００６３】
本発明で好ましく用いることのできる顔料を、以下に列挙する。
Ｃ．Ｉ Ｐｉｇｍｅｎｔ Ｙｅｌｌｏｗ−１、３、１２、１３、１４、１７、８１、８３、８７、９５、１０９、４２、
Ｃ．Ｉ Ｐｉｇｍｅｎｔ Ｏｒａｎｇｅ−１６、３６、３８、
Ｃ．Ｉ Ｐｉｇｍｅｎｔ Ｒｅｄ−５、２２、３８、４８：１、４８：２、４８：４、４９：１、５３：１、５７：１、６３：１、１４４、１４６、１８５、１０１、
Ｃ．Ｉ Ｐｉｇｍｅｎｔ Ｖｉｏｌｅｔ−１９、２３、
Ｃ．Ｉ Ｐｉｇｍｅｎｔ Ｂｌｕｅ−１５：１、１５：３、１５：４、１８、６０、２７、２９、
Ｃ．Ｉ Ｐｉｇｍｅｎｔ Ｇｒｅｅｎ−７、３６、
Ｃ．Ｉ Ｐｉｇｍｅｎｔ Ｗｈｉｔｅ−６、１８、２１、
Ｃ．Ｉ Ｐｉｇｍｅｎｔ Ｂｌａｃｋ−７、
また、本発明において、プラスチックフィルムのような透明基材での色の隠蔽性を上げる為に、白インクを用いることが好ましい。特に、軟包装印刷、ラベル印刷においては、白インクを用いることが好ましいが、吐出量が多くなるため、前述した吐出安定性、記録材料のカール・しわの発生の観点から、自ずと使用量に関しては制限がある。
【００６４】
上記顔料の分散には、例えば、ボールミル、サンドミル、アトライター、ロールミル、アジテータ、ヘンシェルミキサ、コロイドミル、超音波ホモジナイザー、パールミル、湿式ジェットミル、ペイントシェーカー等を用いることができる。また、顔料の分散を行う際に、分散剤を添加することも可能である。分散剤としては、高分子分散剤を用いることが好ましく、高分子分散剤としてはＡｖｅｃｉａ社のＳｏｌｓｐｅｒｓｅシリーズや、味の素ファインテクノ社のＰＢシリーズが挙げられる。また、分散助剤として、各種顔料に応じたシナージストを用いることも可能である。これらの分散剤および分散助剤は、顔料１００質量部に対し、１〜５０質量部添加することが好ましい。分散媒体は、溶剤または重合性化合物を用いて行うが、本発明に用いる照射線硬化型インクでは、インク着弾直後に反応・硬化させるため、無溶剤であることが好ましい。溶剤が硬化画像に残ってしまうと、耐溶剤性の劣化、残留する溶剤のＶＯＣの問題が生じる。よって、分散媒体は溶剤では無く重合性化合物、その中でも最も粘度の低いモノマーを選択することが分散適性上好ましい。
【００６５】
顔料の分散は、顔料粒子の平均粒径を０．０８〜０．５μｍとすることが好ましく、最大粒径は０．３〜１０μｍ、好ましくは０．３〜３μｍとなるよう、顔料、分散剤、分散媒体の選定、分散条件、ろ過条件を適宜設定する。この粒径管理によって、ヘッドノズルの詰まりを抑制し、インクの保存安定性、インク透明性および硬化感度を維持することができる。
【００６６】
本発明に係るインクにおいては、色材濃度としては、インク全体の１質量％乃至１０質量％であることが好ましい。
【００６７】
本発明の活性光線硬化型インクには、上記説明した以外に様々な添加剤を用いることができる。例えば、界面活性剤、レベリング添加剤、マット剤、膜物性を調整するためのポリエステル系樹脂、ポリウレタン系樹脂、ビニル系樹脂、アクリル系樹脂、ゴム系樹脂、ワックス類を添加することができる。また、保存安定性を改良する目的で、公知のあらゆる塩基性化合物を用いることができるが、代表的なものとして、塩基性アルカリ金属化合物、塩基性アルカリ土類金属化合物、アミンなどの塩基性有機化合物などがあげられる。また、ラジカル重合性モノマーと開始剤を組み合わせ、ラジカル・カチオンのハイブリッド型硬化インクとすることも可能である。
【００６８】
本発明のインクにおいては、２５℃における粘度が７〜５０ｍＰａ・ｓであることが、硬化環境（温度・湿度）に関係なく吐出が安定し、良好な硬化性を得るために好ましい。
【００６９】
本発明で用いることのできる記録材料としては、通常の非コート紙、コート紙などの他、いわゆる軟包装に用いられる各種非吸収性のプラスチックおよびそのフィルムを用いることができ、各種プラスチックフィルムとしては、例えば、ＰＥＴフィルム、ＯＰＳフィルム、ＯＰＰフィルム、ＯＮｙフィルム、ＰＶＣフィルム、ＰＥフィルム、ＴＡＣフィルムを挙げることができる。その他のプラスチックとしては、ポリカーボネート、アクリル樹脂、ＡＢＳ、ポリアセタール、ＰＶＡ、ゴム類などが使用できる。また、金属類や、ガラス類にも適用可能である。
【００７０】
これら、各種プラスチックフィルムの表面エネルギーは大きく異なり、記録材料によってインク着弾後のドット径が変わってしまうことが、従来から問題となっていた。本発明の構成では、表面エネルギーの低いＯＰＰフィルム、ＯＰＳフィルムや表面エネルギーの比較的大きいＰＥＴまでを含む、表面エネルギーが３５〜６０ｍＮ／ｍの広範囲の記録材料に良好な高精細な画像を形成できる。
【００７１】
本発明において、包装の費用や生産コスト等の記録材料のコスト、プリントの作製効率、各種のサイズのプリントに対応できる等の点で、長尺（ウェブ）な記録材料を使用する方が有利である。
【００７２】
次に、本発明の画像形成方法について説明する。
本発明の画像形成方法においては、上記のインクをインクジェット記録方式により記録材料上に吐出、描画し、次いで紫外線などの活性光線を照射してインクを硬化させる方法が好ましい。
【００７３】
（インク着弾後の総インク膜厚）
本発明では、記録材料上にインクが着弾し、活性光線を照射して硬化した後の総インク膜厚が２〜２０μｍであることが好ましい。スクリーン印刷分野の活性光線硬化型インクジェット記録では、総インク膜厚が２０μｍを越えているのが現状であるが、記録材料が薄いプラスチック材料であることが多い軟包装印刷分野では、前述した記録材料のカール・皺の問題でだけでなく、印刷物全体のこし・質感が変わってしまうという問題が有るため、過剰な膜厚のインク吐出は好ましくない。
【００７４】
尚、ここで「総インク膜厚」とは記録材料に描画されたインクの膜厚の最大値を意味し、単色でも、それ以外の２色重ね（２次色）、３色重ね、４色重ね（白インクベース）のインクジェット記録方式で記録を行った場合でも総インク膜厚の意味するところは同様である。
【００７５】
（インクの吐出条件）
インクの吐出条件としては、記録ヘッド及びインクを３５〜１００℃に加熱し、吐出することが吐出安定性の点で好ましい。活性光線硬化型インクは、温度変動による粘度変動幅が大きく、粘度変動はそのまま液滴サイズ、液滴射出速度に大きく影響を与え、画質劣化を起こすため、インク温度を上げながらその温度を一定に保つことが必要である。インク温度の制御幅としては、設定温度±５℃、好ましくは設定温度±２℃、更に好ましくは設定温度±１℃である。
【００７６】
また、本発明では、各ノズルより吐出する液滴量が２〜１５ｐｌであることが好ましい。
【００７７】
本来、高精細画像を形成するためには、液滴量がこの範囲であることが必要であるが、この液滴量で吐出する場合、前述した吐出安定性が特に厳しくなる。本発明によれば、インクの液滴量が２〜１５ｐｌのような小液滴量で吐出を行っても吐出安定性は向上し、高精細画像が安定して形成出来る。
【００７８】
（インク着弾後の光照射条件）
本発明の画像形成方法においては、活性光線の照射条件として、インク着弾後０．００１秒〜１．０秒の間に活性光線が照射されることが好ましく、より好ましくは０．００１秒〜０．５秒である。高精細な画像を形成するためには、照射タイミングが出来るだけ早いことが特に重要となる。
【００７９】
活性光線の照射方法として、その基本的な方法が特開昭６０−１３２７６７号に開示されている。これによると、ヘッドユニットの両側に光源を設け、シャトル方式でヘッドと光源を走査する。照射は、インク着弾後、一定時間を置いて行われることになる。更に、駆動を伴わない別光源によって硬化を完了させる。米国特許第６，１４５，９７９号では、照射方法として、光ファイバーを用いた方法や、コリメートされた光源をヘッドユニット側面に設けた鏡面に当て、記録部へＵＶ光を照射する方法が開示されている。本発明の画像形成方法においては、これらの何れの照射方法も用いることが出来る。
【００８０】
また、活性光線を照射を２段階に分け、まずインク着弾後０．００１〜２．０秒の間に前述の方法で活性光線を照射し、かつ、全印字終了後、更に活性光線を照射する方法も好ましい態様の１つである。活性光線の照射を２段階に分けることで、よりインク硬化の際に起こる記録材料の収縮を抑えることが可能となる。
【００８１】
従来、ＵＶインクジェット方式では、インク着弾後のドット広がり、滲みを抑制のために、光源の総消費電力が１ｋＷ・ｈｒを超える高照度の光源が用いられるのが通常であった。しかしながら、これらの光源を用いると、特に、シュリンクラベルなどへの印字では、記録材料の収縮があまりにも大きく、実質上使用出来ないのが現状であった。
【００８２】
本発明では、２５４ｎｍの波長領域に最高照度をもつ活性光線を用いることが好ましく、総消費電力が１ｋＷ・ｈｒ以上の光源を用いても、高精細な画像を形成出来、且つ、記録材料の収縮も実用上許容レベル内に収められる。
【００８３】
本発明においては、更に活性光線を照射する光源の総消費電力が１ｋＷ・ｈｒ未満であることが好ましい。総消費電力が１ｋＷ・ｈｒ未満の光源の例としては、蛍光管、冷陰極管、熱陰極管、ＬＥＤなどがあるが、これらに限定されない。
【００８４】
次いで、本発明のインクジェット記録装置（以下、単に記録装置という）について説明する。
【００８５】
以下、本発明の記録装置について、図面を適宜参照しながら説明する。尚、図面の記録装置はあくまでも本発明の記録装置の一態様であり、本発明の記録装置はこの図面に限定されない。
【００８６】
図１は、本発明の記録装置の要部の構成を示す正面図である。インクジェット記録装置１は、ヘッドキャリッジ２、インクジェット記録ヘッド３、照射手段４、プラテン部５等を備えて構成される。このインクジェット記録装置１は、記録材料Ｐの下にプラテン部５が設置されている。プラテン部５は、紫外線を吸収する機能を有しており、記録材料Ｐを通過してきた余分な紫外線を吸収する。その結果、高精細な画像を非常に安定に再現できる。
【００８７】
記録材料Ｐは、ガイド部材６に案内され、搬送手段（図示せず）の作動により、図１における手前から奥の方向に移動する。ヘッド走査手段（図示せず）は、ヘッドキャリッジ２を図１におけるＹ方向に往復移動させることにより、ヘッドキャリッジ２に保持されたインクジェット記録ヘッド３の走査を行なう。
【００８８】
ヘッドキャリッジ２は記録材料Ｐの上側に設置され、記録材料Ｐ上の画像印刷に用いる色の数に応じて後述するインクジェット記録ヘッド３を複数個、インク吐出口３１を下側に配置して収納する。ヘッドキャリッジ２は、図１におけるＹ方向に往復自在な形態でインクジェット記録装置１本体に対して設置されており、ヘッド走査手段の駆動により、図１におけるＹ方向に往復移動する。
【００８９】
尚、図１ではヘッドキャリッジ２がホワイト（Ｗ）、イエロー（Ｙ）、マゼンタ（Ｍ）、シアン（Ｃ）、ブラック（Ｋ）、ライトイエロー（Ｌｙ）、ライトマゼンタ（Ｌｍ）、ライトシアン（Ｌｃ）、ライトブラック（Ｌｋ）、ホワイト（Ｗ）のインクジェット記録ヘッド３を収納するものとして描図を行なっているが、実施の際にはヘッドキャリッジ２に収納されるインクジェット記録ヘッド３の色数は適宜決められるものである。
【００９０】
インクジェット記録ヘッド３は、インク供給手段（図示せず）により供給された活性光線硬化型インク（例えばＵＶ硬化インク）を、内部に複数個備えられた吐出手段（図示せず）の作動により、インク吐出口３１から記録材料Ｐに向けて吐出する。インクジェット記録ヘッド３により吐出されるＵＶインクは色材、重合性モノマー、開始剤等を含んで組成されており、紫外線の照射を受けることで開始剤が触媒として作用することに伴なうモノマーの架橋、重合反応によって硬化する性質を有する。
【００９１】
インクジェット記録ヘッド３は記録材料Ｐの一端からヘッド走査手段の駆動により、図１におけるＹ方向に記録材料Ｐの他端まで移動するという走査の間に、記録材料Ｐにおける一定の領域（着弾可能領域）に対してＵＶインクをインク滴として吐出し、該着弾可能領域にインク滴を着弾させる。
【００９２】
上記走査を適宜回数行ない、１領域の着弾可能領域に向けてＵＶインクの吐出を行なった後、搬送手段で記録材料Ｐを図１における手前から奥方向に適宜移動させ、再びヘッド走査手段による走査を行ないながら、インクジェット記録ヘッド３により上記着弾可能領域に対し、図１における奥方向に隣接した次の着弾可能領域に対してＵＶインクの吐出を行なう。
【００９３】
上述の操作を繰り返し、ヘッド走査手段及び搬送手段と連動してインクジェット記録ヘッド３からＵＶインクを吐出することにより、記録材料Ｐ上にＵＶインク滴の集合体からなる画像が形成される。
【００９４】
照射手段４は特定の波長領域の紫外線を安定した露光エネルギーで発光する紫外線ランプ及び特定の波長の紫外線を透過するフィルターを備えて構成される。ここで、紫外線ランプとしては、水銀ランプ、メタルハライドランプ、エキシマーレーザー、紫外線レーザー、熱陰極管、冷陰極管、ブラックライト、ＬＥＤ（ｌｉｇｈｔ ｅｍｉｔｔｉｎｇ ｄｉｏｄｅ）等が適用可能であり、帯状のメタルハライドランプ、冷陰極管、水銀ランプもしくはブラックライトが好ましい。特に、波長２５４ｎｍの紫外線を発光する低圧水銀ランプ、熱陰極管、冷陰極管及び殺菌灯は、滲み防止、ドット径制御を効率よく行うことができる点で好ましい。熱陰極管を照射手段４の放射線源に用いることで、ＵＶインクを硬化するための照射手段４を安価に作製することができる。
【００９５】
照射手段４は、インクジェット記録ヘッド３がヘッド走査手段の駆動による１回の走査によってＵＶインクを吐出する着弾可能領域のうち、記録装置（ＵＶインクジェットプリンタ）１で設定できる最大のものとほぼ同じ形状か、着弾可能領域よりも大きな形状を有する。
【００９６】
照射手段４はヘッドキャリッジ２の両脇に、記録材料Ｐに対してほぼ平行に、固定して設置される。
【００９７】
前述したようにインク吐出部の照度を調整する手段としては、インクジェット記録ヘッド３全体を遮光することはもちろんであるが、加えて照射手段４と記録材料Ｐの距離ｈ１より、インクジェット記録ヘッド３のインク吐出口３１と記録材料Ｐとの距離ｈ２を大きくしたり（ｈ１＜ｈ２）、インクジェット記録ヘッド３と照射手段４との距離ｄを離したり（ｄを大きく）することが有効である。又、インクジェット記録ヘッド３と照射手段４の間を蛇腹構造７にすると更に好ましい。
【００９８】
ここで、照射手段４で照射される紫外線の波長は、照射手段４に備えられた紫外線ランプ又はフィルターを交換することで適宜変更することができる。
【００９９】
本発明のインクは、非常に吐出安定性が優れており、ラインヘッドタイプの記録装置を用いて画像形成する場合に、特に有効である。
【０１００】
図２は、インクジェット記録装置の要部の構成の他の一例を示す上面図である。
【０１０１】
図２で示したインクジェット記録装置は、ラインヘッド方式と呼ばれており、ヘッドキャリッジ２に、各色のインクジェット記録ヘッド３を、記録材料Ｐの全幅をカバーするようにして、複数個、固定配置されている。
【０１０２】
一方、ヘッドキャリッジ２の下流側には、同じく記録材料Ｐの全幅をカバーするようにして、インク印字面全域をカバーするように配置されている照射手段４が設けられている。照明手段４に用いられる紫外線ランプは、図１に記載したのと同様のものを用いることができる。
【０１０３】
このラインヘッド方式では、ヘッドキャリッジ２及び照射手段４は固定され、記録材料Ｐのみが、搬送されて、インク出射及び硬化を行って画像形成を行う。
【０１０４】
【実施例】
以下に本発明の実施例を挙げて具体的に説明するが、本発明の実施態様はこれらの例に限定されるものではない。
【０１０５】
《インク組成物の調製》
インク組成
表１〜６記載のインク組成で下記のようにインクを作製した。尚、表中の量を示す数値はｇ数を表す。
【０１０６】
分散剤 表に示す種類、量
光重合性化合物 表に示す種類、量
以上をステンレスビーカーに入れ、６５℃ホットプレート上で加熱しながら１時間撹拌混合し溶解させる。
【０１０７】
これに、表に示す種類・量の色材を入れて、直径１ｍｍのジルコニアビーズ２００ｇと共にポリ瓶に入れ密栓し、ペイントシェーカーにて２時間分散処理した後、ジルコニアビーズを取り除き、表に示すその他の化合物を加えて撹拌混合した。
【０１０８】
これをプリンター目詰まり防止のため０．８μｍメンブランフィルターで濾過してインク組成物セット１〜６を得た。表中のＫ〜Ｌｙ及び色材は下記の通り。
【０１０９】
Ｋ：濃ブラックインク
Ｃ：濃シアンインク
Ｍ：濃マゼンタインク
Ｙ：濃イエローインク
Ｗ：ホワイト
Ｌｋ：淡ブラックインク
Ｌｃ：淡シアンインク
Ｌｍ：淡マゼンタインク
Ｌｙ：淡イエローインク
色材１：Ｃ．Ｉ．ｐｉｇｍｅｎｔ Ｂｌａｃｋ−７
色材２：Ｃ．Ｉ．ｐｉｇｍｅｎｔ Ｂｌｕｅ−１５：３
色材３：Ｃ．Ｉ．ｐｉｇｍｅｎｔ Ｒｅｄ−５７：１
色材４：Ｃ．Ｉ．ｐｉｇｍｅｎｔ Ｙｅｌｌｏｗ− １３
色材５：酸化チタン（アナターゼ型 平均粒径０．２０μｍ）
【０１１０】
【表１】

【０１１１】
【表２】

【０１１２】
【表３】

【０１１３】
【表４】

【０１１４】
【表５】

【０１１５】
【表６】

【０１１６】
【化１３】

【０１１７】
《インクジェット画像形成方法》
《インクジェット画像形成方法》
ピエゾ型インクジェットノズルを備えた図１に記載の構成からなるインクジェット記録装置に、上記調製した各インク組成物セット１〜３を装填し、表７に記載の各表面エネルギーを有する巾６００ｍｍ、長さ５００ｍの長尺の各記録材料へ、下記の画像記録を連続して行った。インク供給系は、インクタンク、供給パイプ、ヘッド直前の前室インクタンク、フィルター付き配管、ピエゾヘッドからなり、前室タンクからヘッド部分まで断熱して５０℃の加温を行った。ピエゾヘッドは、２〜１５ｐｌのマルチサイズドットを７２０×７２０ｄｐｉの解像度で吐出できるよう駆動して、各インクを連続吐出した。着弾した後、キャリッジ両脇のランプユニットにより瞬時（着弾後０．５秒未満）に硬化される。記録後、トータルインク膜厚を測定したところ、２．３〜１３μｍの範囲であった。本発明でいうｄｐｉとは、２．５４ｃｍ当たりのドット数を表す。なお、インクジェット画像の形成は、上記方法に従って、１０℃、２０％ＲＨの環境下、２５℃、５０％ＲＨの環境下及び２７℃、８０％ＲＨの環境下でそれぞれ行った。
【０１１８】
また、全く同様に図２に記載のラインヘッド記録方式のインクジェット記録装置を用い、インク組成物セット４〜６を用いて、画像を形成した。
【０１１９】
【表７】

【０１２０】
なお、表７に記載の各記録材料の略称の詳細は、以下の通りである。
ＯＰＰ：ｏｒｉｅｎｔｅｄ ｐｏｌｙｐｒｏｐｙｌｅｎｅ
ＰＥＴ：ｐｏｌｙｅｔｈｙｌｅｎｅ ｔｅｒｅｐｈｔｈａｌａｔｅ
ＰＶＣ：ｐｏｌｙｖｉｎｙｌｃｈｌｏｒｉｄｅ
《インクジェット記録画像の評価》
上記画像形成方法で記録した各画像について、下記の各評価を行った。
【０１２１】
（文字品質）
Ｙ、Ｍ、Ｃ、Ｋ各色インクを用いて、目標濃度で６ポイントＭＳ明朝体文字を印字し、文字のガサツキをルーペで拡大評価し、下記の基準に則り文字品質の評価を行った。
【０１２２】
◎：ガサツキなし
○：僅かにガサツキが見える
△：ガサツキが見えるが、文字として判別でき、ギリギリ使えるレベル
×：ガサツキがひどく、文字がかすれていて使えないレベル。
【０１２３】
（色混じり（滲み、皺））
７２０ｄｐｉで、Ｙ、Ｍ、Ｃ、Ｋ各色１ドットが隣り合うように印字し、隣り合う各色ドットをルーペで拡大し、滲み及び皺の具合を目視観察し、下記の基準に則り色混じりの評価を行った。
【０１２４】
◎：隣り合うドット形状が真円を保ち、滲みがない
○：隣り合うドット形状はほぼ真円を保ち、ほとんど滲みがない
△：隣り合うドットが少し滲んでいてドット形状が少しくずれているが、ギリギリ使えるレベル
×：隣り合うドットが滲んで混じりあっており、また、重なり部に皺の発生があり、使えないレベル
以上により得られた各評価結果を、表８に示す。
【０１２５】
【表８】

【０１２６】
表８から、本発明は、様々な印字環境下においても、文字品質に優れ、色混じりの発生がなく、高精細な画像を非常に安定に記録することができる画像形成方法であることがわかる。
【０１２７】
【発明の効果】
本発明により、様々な印字環境下においても、皺の発生無く、文字品質に優れ色混じりの発生がない、高精細な画像を非常に安定に記録することができる活性光線硬化型組成物と、それを用いた画像形成方法及びインクジェット記録装置を提供することができた。
【図面の簡単な説明】
【図１】本発明のインクジェット記録装置の要部の構成の一例を示す正面図である。
【図２】本発明のインクジェット記録装置の要部の構成の他の一例を示す上面図である。
【符号の説明】
１ インクジェット記録装置
２ ヘッドキャリッジ
３ インクジェット記録ヘッド
３１ インク吐出口
４ 照射手段
５ プラテン部
６ ガイド部材
７ 蛇腹構造
Ｐ 記録材料[0001]
BACKGROUND OF THE INVENTION
The present invention relates to an actinic ray curable composition that can stably reproduce a high-definition image on various recording materials even under various printing environments, and an image forming method and an ink jet recording apparatus using the composition.
[0002]
[Prior art]
In recent years, the ink jet recording system can create images easily and inexpensively, and thus has been applied to various printing fields such as photographs, various printing, marking, and special printing such as color filters. In particular, a recording device that emits and controls fine dots, ink that has improved color reproduction gamut, durability, and emission suitability, and ink absorbability, coloring material color development, surface gloss, etc. have been dramatically improved. It is also possible to obtain image quality comparable to silver halide photography using special paper. The image quality improvement of today's ink jet recording system is achieved only when all of the recording apparatus, ink, and special paper are available.
[0003]
However, in an inkjet system that requires dedicated paper, the recording medium is limited, and the cost of the recording medium increases. Therefore, many attempts have been made to record on a transfer medium different from dedicated paper by an ink jet method. Specifically, a phase change ink jet method using a wax ink solid at room temperature, a solvent ink jet method using an ink mainly composed of a fast-drying organic solvent, a UV ink jet method in which crosslinking is performed by ultraviolet (UV) light after recording, etc. It is.
[0004]
Among these, the UV inkjet method has been attracting attention in recent years because it has a relatively low odor compared to the solvent-based inkjet method, and can be recorded on a recording medium having no quick drying and no ink absorption. It is disclosed (for example, see Patent Documents 1 and 2).
[0005]
However, even if these inks are used, the dot diameter after landing greatly changes depending on the type of recording material and the working environment, and it is not possible to form high-definition images on various recording materials. Is possible.
[0006]
In particular, in an ultraviolet curable ink-jet ink, an ink using a cationically polymerizable compound (for example, see Patent Documents 3 to 6) does not receive an oxygen inhibition effect, but is affected by moisture (humidity) at a molecular level. There is a problem that it is easy to receive. In addition, generation of wrinkles due to curing shrinkage becomes a problem depending on the curing environment.
[0007]
[Patent Document 1]
JP-A-6-200204 (Claims, Examples)
[0008]
[Patent Document 2]
JP 2000-504778 (Claims, Examples)
[0009]
[Patent Document 3]
JP 2001-220526 A (Claims, Examples)
[0010]
[Patent Document 4]
JP 2002-188025 A (Claims, Examples)
[0011]
[Patent Document 5]
JP 2002-317139 A (Claims, Examples)
[0012]
[Patent Document 6]
JP 2003-55449 A (Claims, Examples)
[0013]
[Problems to be solved by the invention]
The present invention has been made in view of the above problems, and its purpose is to produce a very high-definition image that has no wrinkles and excellent character quality and no color mixing even under various printing environments. An actinic ray curable composition capable of stably recording, an image forming method using the composition, and an ink jet recording apparatus.
[0014]
[Means for Solving the Problems]
The above object of the present invention has been achieved by the following constitutions.
[0015]
1. Containing a compound having an oxetane ring as a photopolymerizable compound and the alicyclic epoxy compound represented by the general formula (A), and containing at least one of an epoxidized fatty acid ester or an epoxidized fatty acid glyceride An actinic ray curable composition characterized.
[0016]
2. 2. The actinic ray curable composition as described in 1 above, wherein the alicyclic epoxy compound represented by formula (A) has a molecular weight of 250 to 600.
[0017]
3. The alicyclic epoxy compound represented by the general formula (A) is selected from at least one of the alicyclic epoxide compounds represented by the general formula (I) or (II). 2. The actinic ray curable composition according to 1 or 2 above.
[0018]
4). It contains a compound having an oxetane ring as a photopolymerizable compound and an alicyclic epoxy compound having two or more ester bonds, and at least one of an epoxidized fatty acid ester or an epoxidized fatty acid glyceride. Actinic ray curable composition.
[0019]
5. 5. The actinic ray curable composition as described in 4 above, wherein the alicyclic epoxy compound having two or more ester bonds is represented by any one of the general formulas (III) and (IV).
[0020]
6). Furthermore, at least 1 sort (s) of basic compound is contained, The actinic-light curable composition of any one of said 1-5 characterized by the above-mentioned.
[0021]
7. The actinic ray curable composition according to any one of 1 to 5 above, wherein the viscosity at 7.25 ° C. is 7 to 50 mPa · s.
[0022]
8). 8. The actinic radiation curable ink according to any one of 1 to 7, wherein the actinic radiation curable composition contains a pigment.
[0023]
9. 8. An image forming method in which the actinic ray curable ink described in 8 above is jetted onto a recording material from an inkjet recording head, and printing is performed on the recording material. An image forming method of irradiating actinic rays during 0.001 to 1.0 seconds.
[0024]
10. 9. An image forming method in which the actinic ray curable ink described in 8 above is jetted onto a recording material from an ink jet recording head, and printing is performed on the recording material. The total ink film thickness after being cured by irradiating is 2 to 25 μm.
[0025]
11. 9. An image forming method in which the actinic ray curable ink described in 8 above is jetted onto a recording material from an ink jet recording head and printing is performed on the recording material, the ink liquid being ejected from each nozzle of the ink jet recording head An image forming method, wherein the droplet volume is 2 to 15 pl.
[0026]
12 9. An image forming method for printing on a recording material by ejecting the actinic ray curable ink described in 8 above onto a recording material from an inkjet recording head, wherein the image is ejected from a line head type recording head. An image forming method comprising forming the image.
[0027]
13. 13. An ink jet recording apparatus for use in the image forming method according to any one of 9 to 12, wherein the actinic ray curable ink and the recording head are heated to 35 to 100 ° C. and then discharged. Inkjet recording device.
[0028]
The present invention will be described in more detail. In actinic ray curable compositions, inks containing a compound having an oxetane ring and an alicyclic epoxy compound as a photopolymerizable compound as in conventional patent documents 3 to 6 are well known, but the curing environment (temperature , Humidity), wrinkles due to curing shrinkage, and problems such as poor curability and dischargeability.
[0029]
The present inventor used a novel alicyclic epoxy compound different from the conventionally used UVR6110 manufactured by Dow Chemical Co., Ltd. and Celoxide 2021P / Celoxide 3000 manufactured by Daicel Chemical Industries, Ltd., and epoxidized fatty acid ester or It has been found that the inclusion of at least one epoxidized fatty acid glyceride can not only reduce the sensitization and odor, which have been conventionally known, but also can solve the above-mentioned problems.
[0030]
In particular, when the composition of the present invention contains a pigment and is used as an actinic ray curable inkjet ink, variation in ink viscosity due to differences in the storage environment (temperature / humidity) of the ink is reduced, and inkjet recording is performed. The discharge stability, which is the biggest problem in the process, is very good, and it is easy to control the dot diameter after the ink has landed on the recording material regardless of the curing environment (temperature and humidity). This is an epoch-making structure capable of forming high-quality images with high reproducibility.
[0031]
Furthermore, by using a basic compound, the ejection stability becomes better, and in particular when the photopolymerizable compound has the configuration of the present invention, it is very effective and can form a high-quality image with good reproducibility. .
[0032]
The alicyclic epoxy compound represented by the general formula (A), (I) or (II) will be described.
[0033]
In the general formula (A), (I) or (II), R ₁₀₀ , R ₁₀₁ , R ₁₀₂ represent a substituent. Examples of the substituent include a halogen atom (for example, a chlorine atom, a bromine atom, a fluorine atom, Etc.), an alkyl group having 1 to 6 carbon atoms (for example, methyl group, ethyl group, propyl group, isopropyl group, butyl group, etc.), an alkoxy group having 1 to 6 carbon atoms (for example, methoxy group, ethoxy group) N-propoxy group, iso-propoxy group, n-butoxy group, tert-butoxy group, etc.), acyl group (for example, acetyl group, propionyl group, trifluoroacetyl group, etc.), acyloxy group (for example, acetoxy group, propionyl) Oxy group, trifluoroacetoxy group, etc.), alkoxycarbonyl group (methoxycarbonyl group, ethoxycarbonyl group, tert-butoxy) Carbonyl group, etc.), and the like. As the substituent, an alkyl group, an alkoxy group, and an alkoxycarbonyl group are preferable.
[0034]
m0, m1, and m2 represent 0 to 2, and 0 or 1 is preferable.
L ₀ is an r0 + 1 valent linking group or a single bond having 1 to 15 carbon atoms which may contain an oxygen atom or a sulfur atom in the main chain, and L ₁ is a carbon number 1 to 1 which may contain an oxygen atom or a sulfur atom in the main chain. 15 r1 + 1 valent linking group or single bond, and L ₂ represents a C1-15 r2 + 1 valent linking group or single bond which may contain an oxygen atom or a sulfur atom in the main chain.
[0035]
Examples of the divalent linking group having 1 to 15 carbon atoms which may contain an oxygen atom or a sulfur atom in the main chain include the following groups, and these groups and —O— group, —S— group, —CO— group, Examples include groups formed by combining a plurality of —CS— groups.
Methylene group [—CH ₂ —]
An ethylidene group [> CHCH ₃ ],
Isopropylidene [> C (CH ₃ ) ₂ ]
1,2-ethylene group [—CH ₂ CH ₂ —],
1,2-propylene group [—CH (CH ₃ ) CH ₂ —],
1,3-propanediyl group [—CH ₂ CH ₂ CH ₂ —],
2,2-dimethyl-1,3-propanediyl group [—CH ₂ C (CH ₃ ) ₂ CH ₂ —],
2,2-dimethoxy-1,3-propanediyl group [—CH ₂ C (OCH ₃ ) ₂ CH ₂ —],
2,2-dimethoxymethyl-1,3-propanediyl group [—CH ₂ C (CH ₂ OCH ₃ ) ₂ CH ₂ —],
1-methyl-1,3-propanediyl group [—CH (CH ₃ ) CH ₂ CH ₂ —],
1,4-butanediyl group [—CH ₂ CH ₂ CH ₂ CH ₂ —],
1,5-pentanediyl group [—CH ₂ CH ₂ CH ₂ CH ₂ CH ₂ —],
An oxydiethylene group [—CH ₂ CH ₂ OCH ₂ CH ₂ —],
A thiodiethylene group [—CH ₂ CH ₂ SCH ₂ CH ₂ —],
3-oxo thiodiethylene group _{[-CH 2 CH 2 SOCH 2 CH} 2 -],
3,3-dioxothiodiethylene group [—CH ₂ CH ₂ SO ₂ CH ₂ CH ₂ —],
1,4-dimethyl-3-oxa-1,5-pentanediyl group [—CH (CH ₃ ) CH ₂ O—CH (CH ₃ ) CH ₂ —],
3-oxopentanediyl group [—CH ₂ CH ₂ COCH ₂ CH ₂ —],
1,5-dioxo-3-oxapentanediyl group [—COCH ₂ OCH ₂ CO—],
4-oxa-1,7-heptanediyl group [—CH ₂ CH ₂ CH ₂ OCH ₂ CH ₂ CH ₂ —],
3,6-dioxa-1,8-octanediyl group [—CH ₂ CH ₂ OCH ₂ CH ₂ OCH ₂ CH ₂ —],
1,4,7-trimethyl-3,6-dioxa-1,8-octanediyl group [—CH (CH ₃ ) CH ₂ O—CH (CH ₃ ) CH ₂ OCH (CH ₃ ) CH ₂ —],
5,5-dimethyl-3,7-dioxa-1,9-nonanediyl group [—CH ₂ CH ₂ OCH ₂ C (CH ₃ ) ₂ CH ₂ OCH ₂ CH ₂ —],
5,5-dimethoxy-3,7-dioxa-1,9-nonanediyl group [—CH ₂ CH ₂ OCH ₂ C (OCH ₃ ) ₂ CH ₂ OCH ₂ CH ₂ —],
5,5-dimethoxymethyl-3,7-dioxa-1,9-nonanediyl group [—CH ₂ CH ₂ OCH ₂ C (CH ₂ OCH ₃ ) ₂ CH ₂ OCH ₂ CH ₂ —],
4,7-dioxo-3,8-dioxa-1,10-decandiyl group [—CH ₂ CH ₂ O—COCH ₂ CH ₂ CO—OCH ₂ CH ₂ —],
3,8-dioxo-4,7-dioxa-1,10-decandiyl group [—CH ₂ CH ₂ CO—OCH ₂ CH ₂ O—COCH ₂ CH ₂ —],
1,3-cyclopentanediyl group [-1,3-C ₅ H ₈ —],
1,2-cyclohexanediyl group [-1,2-C ₆ H _10- ],
1,3-cyclohexanediyl group [-1,3-C ₆ H _10- ],
1,4-cyclohexanediyl group [-1,4-C ₆ H _10- ],
2,5-tetrahydrofurandiyl group [2,5-C ₄ H ₆ O—]
a p-phenylene group [-p-C6H4-],
m-phenylene group [-m-C6H4-],
α, α′-o-xylylene group [—o—CH ₂ —C ₆ H ₄ —CH ₂ —],
α, α'-m- xylylene group _{[-m-CH 2 -C 6 H} 4 -CH 2 -],
α, α'-p- xylylene group _{[-p-CH 2 -C 6 H} 4 -CH 2 -],
Furan-2,5-diyl - bismethylene group _{[2,5-CH 2 -C 4 H} 2 O-CH 2 -]
Thiophene-2,5-diyl - bismethylene group _{[2,5-CH 2 -C 4 H} 2 S-CH 2 -]
Isopropylidenebis -p- phenylene group _{[-p-C 6 H 4 -C} (CH 3) 2 -p-C 6 H 4 -]
Examples of the trivalent or higher linking group include groups formed by removing as many hydrogen atoms as necessary from the divalent linking groups listed above, and an —O— group, —S— group, —CO— group, Examples include groups formed by combining a plurality of —CS— groups.
[0036]
L ₀ , L ₁ and L ₂ may have a substituent. Examples of the substituent include a halogen atom (for example, a chlorine atom, a bromine atom, a fluorine atom, etc.), an alkyl group having 1 to 6 carbon atoms (for example, a methyl group, an ethyl group, a propyl group, an isopropyl group, a butyl group, Etc.), an alkoxy group having 1 to 6 carbon atoms (for example, methoxy group, ethoxy group, n-propoxy group, iso-propoxy group, n-butoxy group, tert-butoxy group, etc.), acyl group (for example, acetyl group) , Propionyl group, trifluoroacetyl group, etc.), acyloxy group (for example, acetoxy group, propionyloxy group, trifluoroacetoxy group, etc.), alkoxycarbonyl group (methoxycarbonyl group, ethoxycarbonyl group, tert-butoxycarbonyl group, etc.) ), And the like. As the substituent, an alkyl group, an alkoxy group, and an alkoxycarbonyl group are preferable.
[0037]
L ₀ , L ₁ and L ₂ are preferably divalent linking groups having 1 to 8 carbon atoms which may contain an oxygen atom or a sulfur atom in the main chain, and the main chain having 2 to 1 carbon atoms having only carbon. A valent linking group is more preferred.
[0038]
Specific examples of preferred alicyclic epoxides represented by general formula (A), (I) or (II) are shown below, but the present invention is not limited thereto.
[0039]
[Chemical 6]

[0040]
[Chemical 7]

[0041]
In the present invention, a photopolymerizable compound includes a compound having an oxetane ring and an alicyclic epoxy compound having two or more ester bonds. Preferably, it is a compound represented by either general formula (III) or (IV).
[0042]
Specific compounds represented by formula (III) or (IV) are shown below.
[0043]
[Chemical 8]

[0044]
As addition amount of an alicyclic epoxy compound, it is preferable to contain 10-80 mass%. If it is less than 10% by mass, the curability changes remarkably depending on the curing environment (temperature, humidity) and cannot be used. If it exceeds 80% by mass, the film physical properties after curing are weak and cannot be used. In the present invention, one type of alicyclic epoxy compound may be used alone, or two or more types may be used in appropriate combination.
[0045]
These alicyclic epoxy compounds may be produced by any method. For example, see Maruzen KK Publishing, 4th Edition Experimental Chemistry Course 20 Organic Synthesis II, 213, 1992, Ed. by Alfred Hasfner, The Chemistry of Heterocyclic compounds, Vol. 30, Advertisement, Small Ring Heterocycle part3 Oxilane, John & Wiley and Sons, An Inc. No. 5, 42, 1986, Yoshimura, Adhesion, Vol. 30, No. 7, 42, 1986, Japanese Patent Application No. 11-100308, Japanese Patent Application No. 2-140732, Japanese Patent Application No. 2-182124, etc. Can be synthesized.
[0046]
As the oxetane compound that can be used in the present invention, any known oxetane compound as introduced in JP-A Nos. 2001-220526 and 2001-310937 can be used.
[0047]
In this invention, at least 1 type of an epoxidized fatty acid ester and an epoxidized fatty acid glyceride is contained. Use in combination with an oxetane compound / alicyclic epoxy compound system is not only preferable from the viewpoint of safety and environment such as AMES, sensitization and odor, but also causes generation of wrinkles due to curing shrinkage depending on the curing environment (temperature, humidity). Conventional problems such as poor curability and dischargeability can be solved. If it exceeds 20% by mass, the cured film strength is insufficient, which causes a problem.
[0048]
The epoxidized fatty acid ester and the epoxidized fatty acid glyceride are not particularly limited as long as an epoxy group is introduced into the fatty acid ester or fatty acid glyceride.
[0049]
The epoxidized fatty acid ester is produced by epoxidizing an oleic acid ester, and examples thereof include methyl epoxy stearate, butyl epoxy stearate, octyl epoxy stearate and the like. Similarly, the epoxidized fatty acid glyceride is produced by epoxidizing soybean oil, linseed oil, castor oil and the like, and epoxidized soybean oil, epoxidized linseed oil, epoxidized castor oil and the like are used.
[0050]
In the present invention, a basic compound is preferably used. By containing the basic compound, not only the ejection stability becomes good, but also the generation of wrinkles due to curing shrinkage is suppressed even under low humidity.
[0051]
As the basic compound, any known compounds can be used, and typical examples include basic alkali metal compounds, basic alkaline earth metal compounds, and basic organic compounds such as amines.
[0052]
Examples of the basic alkali metal compound include alkali metal hydroxides (lithium hydroxide, sodium hydroxide, potassium hydroxide, etc.), alkali metal carbonates (lithium carbonate, sodium carbonate, potassium carbonate, etc.), alkali metals. Alcoholate (sodium methoxide, sodium ethoxide, potassium methoxide, potassium ethoxide, etc.).
[0053]
As the basic alkaline earth metal compound, alkaline earth metal hydroxides (magnesium hydroxide, calcium hydroxide, etc.), alkaline earth metal carbonates (magnesium carbonate, calcium carbonate, etc.), Examples include alkaline earth metal alcoholates (magnesium methoxide, etc.).
[0054]
Examples of the basic organic compound include amines and nitrogen-containing heterocyclic compounds such as quinoline and quinolidine. Among these, amines are preferable from the viewpoint of compatibility with the photopolymerization monomer, for example, octylamine, naphthylamine, Xylenediamine, dibenzylamine, diphenylamine, dibutylamine, dioctylamine, dimethylaniline, quinuclidine, tributylamine, trioctylamine, tetramethylethylenediamine, tetramethyl-1,6-hexamethylenediamine, hexamethylenetetramine and triethanolamine, etc. Is mentioned.
[0055]
The concentration when the basic compound is present is preferably in the range of 10 to 1000 ppm by mass, particularly 20 to 500 ppm by mass relative to the total amount of the photopolymerizable monomer. In addition, a basic compound may be used individually or may be used in combination of multiple.
[0056]
Any known photoacid generator can be used in the actinic ray curable ink of the present invention.
[0057]
As the photoacid generator, for example, a chemically amplified photoresist or a compound used for photocationic polymerization is used (edited by Organic Electronics Materials Research Group, “Organic Materials for Imaging”, Bunshin Publishing (1993), 187. To page 192). Examples of compounds suitable for the present invention are listed below.
[0058]
[Chemical 9]

[0059]
Embedded image

[0060]
Embedded image

[0061]
Embedded image

[0062]
The actinic ray curable ink of the present invention contains various known dyes and / or pigments together with the above-mentioned actinic ray curable composition, but preferably contains a pigment.
[0063]
The pigments that can be preferably used in the present invention are listed below.
C. I Pigment Yellow-1, 3, 12, 13, 14, 17, 81, 83, 87, 95, 109, 42,
C. I Pigment Orange-16, 36, 38,
C. I Pigment Red-5, 22, 38, 48: 1, 48: 2, 48: 4, 49: 1, 53: 1, 57: 1, 63: 1, 144, 146, 185, 101,
C. I Pigment Violet-19, 23,
C. I Pigment Blue-15: 1, 15: 3, 15: 4, 18, 60, 27, 29,
C. I Pigment Green-7, 36,
C. I Pigment White-6, 18, 21,
C. I Pigment Black-7,
In the present invention, it is preferable to use white ink in order to improve the color concealment property on a transparent substrate such as a plastic film. In particular, in soft packaging printing and label printing, it is preferable to use white ink, but since the discharge amount increases, the use amount is naturally from the viewpoint of the above-described discharge stability and the occurrence of curling and wrinkling of the recording material. There is a limit.
[0064]
For the dispersion of the pigment, for example, a ball mill, sand mill, attritor, roll mill, agitator, Henschel mixer, colloid mill, ultrasonic homogenizer, pearl mill, wet jet mill, paint shaker, or the like can be used. Further, a dispersing agent can be added when dispersing the pigment. As the dispersant, a polymer dispersant is preferably used, and examples of the polymer dispersant include Avecia's Solsperse series and Ajinomoto Fine-Techno's PB series. Moreover, it is also possible to use a synergist according to various pigments as a dispersion aid. These dispersants and dispersion aids are preferably added in an amount of 1 to 50 parts by mass with respect to 100 parts by mass of the pigment. The dispersion medium is used using a solvent or a polymerizable compound. However, the radiation curable ink used in the present invention is preferably solvent-free because it reacts and cures immediately after ink landing. If the solvent remains in the cured image, the solvent resistance deteriorates and the VOC of the remaining solvent arises. Therefore, it is preferable in view of dispersibility that the dispersion medium is not a solvent but a polymerizable compound, and among them, a monomer having the lowest viscosity is selected.
[0065]
The pigment is preferably dispersed so that the average particle diameter of the pigment particles is 0.08 to 0.5 μm, and the maximum particle diameter is 0.3 to 10 μm, preferably 0.3 to 3 μm. The selection of the dispersion medium, the dispersion conditions, and the filtration conditions are appropriately set. By controlling the particle size, clogging of the head nozzle can be suppressed, and ink storage stability, ink transparency, and curing sensitivity can be maintained.
[0066]
In the ink according to the present invention, the color material concentration is preferably 1% by mass to 10% by mass of the entire ink.
[0067]
Various additives other than those described above can be used in the actinic ray curable ink of the present invention. For example, surfactants, leveling additives, matting agents, polyester resins for adjusting film properties, polyurethane resins, vinyl resins, acrylic resins, rubber resins, and waxes can be added. In addition, for the purpose of improving storage stability, any known basic compound can be used, but representative examples include basic organic compounds such as basic alkali metal compounds, basic alkaline earth metal compounds, and amines. Compounds and the like. It is also possible to combine a radically polymerizable monomer and an initiator into a radical / cation hybrid type curable ink.
[0068]
In the ink of the present invention, it is preferable that the viscosity at 25 ° C. is 7 to 50 mPa · s in order to obtain stable discharge and good curability regardless of the curing environment (temperature / humidity).
[0069]
As a recording material that can be used in the present invention, in addition to ordinary uncoated paper, coated paper, etc., various non-absorbable plastics and films used for so-called soft packaging can be used. Examples thereof include PET film, OPS film, OPP film, ONy film, PVC film, PE film, and TAC film. As other plastics, polycarbonate, acrylic resin, ABS, polyacetal, PVA, rubbers and the like can be used. Moreover, it is applicable also to metals and glass.
[0070]
The surface energies of these various plastic films differ greatly, and it has been a problem in the past that the dot diameter after ink landing varies depending on the recording material. With the configuration of the present invention, a good high-definition image can be formed on a wide range of recording materials having a surface energy of 35 to 60 mN / m, including OPP films having a low surface energy, OPS films, and PET having a relatively large surface energy. .
[0071]
In the present invention, it is more advantageous to use a long (web) recording material in terms of the cost of the recording material such as packaging cost and production cost, the production efficiency of the print, and the ability to cope with printing of various sizes. is there.
[0072]
Next, the image forming method of the present invention will be described.
In the image forming method of the present invention, a method is preferred in which the ink is ejected and drawn on a recording material by an ink jet recording method, and then the ink is cured by irradiation with an actinic ray such as ultraviolet rays.
[0073]
(Total ink film thickness after ink landing)
In the present invention, the total ink film thickness after the ink has landed on the recording material and cured by irradiation with actinic rays is preferably 2 to 20 μm. In the actinic ray curable inkjet recording in the screen printing field, the total ink film thickness currently exceeds 20 μm, but in the flexible packaging printing field where the recording material is often a thin plastic material, the recording material described above is used. In addition to the problem of curling and wrinkles, there is a problem in that the entire printed material is changed in its strain and texture.
[0074]
Here, “total ink film thickness” means the maximum value of the film thickness of the ink drawn on the recording material, and even for a single color, other two colors are superimposed (secondary color), three colors are superimposed, four colors are used. Even when recording is performed by the overlapping (white ink base) inkjet recording method, the meaning of the total ink film thickness is the same.
[0075]
(Ink ejection conditions)
As the ink ejection conditions, it is preferable from the viewpoint of ejection stability that the recording head and ink are heated to 35 to 100 ° C. and ejected. Actinic radiation curable ink has a large viscosity fluctuation range due to temperature fluctuations, and the viscosity fluctuations directly affect the droplet size and droplet ejection speed, causing image quality degradation. It is necessary to keep. The control range of the ink temperature is set temperature ± 5 ° C., preferably set temperature ± 2 ° C., more preferably set temperature ± 1 ° C.
[0076]
Moreover, in this invention, it is preferable that the amount of droplets discharged from each nozzle is 2 to 15 pl.
[0077]
Originally, in order to form a high-definition image, it is necessary for the amount of droplets to be within this range, but when discharging with this amount of droplets, the above-described discharge stability becomes particularly severe. According to the present invention, even when ejection is performed with a small droplet amount such as 2 to 15 pl, the ejection stability is improved and a high-definition image can be stably formed.
[0078]
(Light irradiation conditions after ink landing)
In the image forming method of the present invention, the actinic ray is preferably irradiated for 0.001 second to 1.0 second after the ink landing, more preferably 0.001 second to 0. .5 seconds. In order to form a high-definition image, it is particularly important that the irradiation timing is as early as possible.
[0079]
As a method for irradiating actinic rays, the basic method is disclosed in JP-A-60-132767. According to this, the light source is provided on both sides of the head unit, and the head and the light source are scanned by the shuttle method. Irradiation is performed after a certain period of time after ink landing. Further, the curing is completed by another light source that is not driven. In US Pat. No. 6,145,979, as an irradiation method, a method using an optical fiber or a method of applying a collimated light source to a mirror surface provided on the side of the head unit and irradiating the recording unit with UV light is disclosed. Yes. Any of these irradiation methods can be used in the image forming method of the present invention.
[0080]
In addition, irradiation with actinic rays is divided into two stages. First, actinic rays are irradiated by the above-described method within 0.001 to 2.0 seconds after ink landing, and further, actinic rays are irradiated after all printing is completed. The method is also a preferred embodiment. By dividing the irradiation of actinic rays into two stages, it is possible to further suppress the shrinkage of the recording material that occurs during ink curing.
[0081]
Conventionally, in the UV ink jet system, a light source with high illuminance in which the total power consumption of the light source exceeds 1 kW · hr is usually used in order to suppress dot spreading and bleeding after ink landing. However, when these light sources are used, particularly in printing on a shrink label or the like, the shrinkage of the recording material is so large that it cannot be used practically.
[0082]
In the present invention, it is preferable to use an actinic ray having a maximum illuminance in a wavelength region of 254 nm, and a high-definition image can be formed even when a light source having a total power consumption of 1 kW · hr or more is used, and the recording material is contracted. Is also within a practically acceptable level.
[0083]
In the present invention, it is preferable that the total power consumption of the light source for irradiating actinic rays is less than 1 kW · hr. Examples of the light source having a total power consumption of less than 1 kW · hr include, but are not limited to, a fluorescent tube, a cold cathode tube, a hot cathode tube, and an LED.
[0084]
Next, an ink jet recording apparatus (hereinafter simply referred to as a recording apparatus) of the present invention will be described.
[0085]
The recording apparatus of the present invention will be described below with reference to the drawings as appropriate. Note that the recording apparatus of the drawings is merely one aspect of the recording apparatus of the present invention, and the recording apparatus of the present invention is not limited to this drawing.
[0086]
FIG. 1 is a front view showing a configuration of a main part of the recording apparatus of the present invention. The ink jet recording apparatus 1 includes a head carriage 2, an ink jet recording head 3, an irradiation unit 4, a platen unit 5, and the like. In the ink jet recording apparatus 1, a platen unit 5 is installed under a recording material P. The platen unit 5 has a function of absorbing ultraviolet rays, and absorbs excess ultraviolet rays that have passed through the recording material P. As a result, a high-definition image can be reproduced very stably.
[0087]
The recording material P is guided by the guide member 6 and moves from the near side to the far side in FIG. 1 by the operation of the conveying means (not shown). The head scanning means (not shown) scans the ink jet recording head 3 held by the head carriage 2 by reciprocating the head carriage 2 in the Y direction in FIG.
[0088]
The head carriage 2 is installed on the upper side of the recording material P, and accommodates a plurality of ink jet recording heads 3 to be described later and an ink discharge port 31 on the lower side according to the number of colors used for image printing on the recording material P. To do. The head carriage 2 is installed with respect to the main body of the inkjet recording apparatus 1 in such a manner that it can reciprocate in the Y direction in FIG. 1, and reciprocates in the Y direction in FIG. 1 by driving the head scanning means.
[0089]
In FIG. 1, the head carriage 2 is white (W), yellow (Y), magenta (M), cyan (C), black (K), light yellow (Ly), light magenta (Lm), and light cyan (Lc). In the drawing, the ink jet recording head 3 accommodated in the light carriage (Lk) and white (W) is drawn. It can be decided.
[0090]
The ink jet recording head 3 operates by operating an ejection means (not shown) provided with a plurality of actinic ray curable inks (for example, UV curable ink) supplied by an ink supply means (not shown). The ink is discharged from the discharge port 31 toward the recording material P. The UV ink ejected by the ink jet recording head 3 is composed of a coloring material, a polymerizable monomer, an initiator, and the like, and is a monomer associated with the initiator acting as a catalyst when irradiated with ultraviolet rays. It has the property of being cured by crosslinking and polymerization reactions.
[0091]
The ink jet recording head 3 is moved from one end of the recording material P to the other end of the recording material P in the Y direction in FIG. ) Is ejected as ink droplets, and the ink droplets are landed on the landable area.
[0092]
The above scanning is performed as many times as necessary, and after UV ink is ejected toward one landable area, the recording material P is appropriately moved from the front to the back in FIG. 1, the inkjet recording head 3 discharges UV ink to the next landable area adjacent in the depth direction in FIG.
[0093]
By repeating the above operation and ejecting UV ink from the ink jet recording head 3 in conjunction with the head scanning means and the conveying means, an image composed of an aggregate of UV ink droplets is formed on the recording material P.
[0094]
The irradiation unit 4 includes an ultraviolet lamp that emits ultraviolet light in a specific wavelength region with stable exposure energy and a filter that transmits ultraviolet light of a specific wavelength. Here, as the ultraviolet lamp, a mercury lamp, a metal halide lamp, an excimer laser, an ultraviolet laser, a hot cathode tube, a cold cathode tube, a black light, an LED (light emitting diode), etc. can be applied. Cathode tubes, mercury lamps or black lights are preferred. In particular, a low-pressure mercury lamp, a hot cathode tube, a cold cathode tube, and a germicidal lamp that emit ultraviolet rays having a wavelength of 254 nm are preferable in terms of efficient bleeding prevention and dot diameter control. By using a hot cathode tube as the radiation source of the irradiation means 4, the irradiation means 4 for curing the UV ink can be produced at low cost.
[0095]
The irradiating means 4 has substantially the same shape as the largest one that can be set by the recording apparatus (UV inkjet printer) 1 among the landable areas in which the inkjet recording head 3 ejects UV ink by a single scan driven by the head scanning means. Or it has a larger shape than the landable area.
[0096]
The irradiation means 4 is fixed on both sides of the head carriage 2 so as to be substantially parallel to the recording material P.
[0097]
As described above, as a means for adjusting the illuminance of the ink discharge portion, the entire inkjet recording head 3 is shielded from light, but in addition, the distance h1 between the irradiating means 4 and the recording material P is determined based on the distance of the inkjet recording head 3. It is effective to increase the distance h2 between the ink discharge port 31 and the recording material P (h1 <h2), or to increase the distance d between the inkjet recording head 3 and the irradiation unit 4 (d is increased). Further, it is more preferable that the bellows structure 7 is provided between the ink jet recording head 3 and the irradiation means 4.
[0098]
Here, the wavelength of the ultraviolet rays irradiated by the irradiation means 4 can be changed as appropriate by replacing the ultraviolet lamp or filter provided in the irradiation means 4.
[0099]
The ink of the present invention has excellent ejection stability and is particularly effective when an image is formed using a line head type recording apparatus.
[0100]
FIG. 2 is a top view illustrating another example of the configuration of the main part of the ink jet recording apparatus.
[0101]
The ink jet recording apparatus shown in FIG. 2 is called a line head system, and a plurality of ink jet recording heads 3 of each color are fixedly arranged on the head carriage 2 so as to cover the entire width of the recording material P. ing.
[0102]
On the other hand, on the downstream side of the head carriage 2, there is provided irradiation means 4 arranged so as to cover the entire width of the recording material P and cover the entire area of the ink printing surface. As the ultraviolet lamp used in the illuminating means 4, the same one as described in FIG. 1 can be used.
[0103]
In this line head system, the head carriage 2 and the irradiating means 4 are fixed, and only the recording material P is conveyed, and ink ejection and curing are performed to form an image.
[0104]
【Example】
Examples of the present invention will be specifically described below, but the embodiments of the present invention are not limited to these examples.
[0105]
<Preparation of ink composition>
Ink compositions Ink compositions were prepared as described below using the ink compositions described in Tables 1-6. In addition, the numerical value which shows the quantity in a table | surface represents g number.
[0106]
Dispersant Type and amount shown in the table Photopolymerizable compound The type and amount shown in the table are placed in a stainless beaker and stirred and mixed for 1 hour while being heated on a 65 ° C hot plate.
[0107]
Add the color material of the type and amount shown in the table, put it in a plastic bottle together with 200 g of zirconia beads with a diameter of 1 mm, disperse with a paint shaker for 2 hours, remove the zirconia beads, Was added and mixed with stirring.
[0108]
This was filtered through a 0.8 μm membrane filter to prevent printer clogging, and ink composition sets 1 to 6 were obtained. K to Ly and coloring materials in the table are as follows.
[0109]
K: dark black ink C: dark cyan ink M: dark magenta ink Y: dark yellow ink W: white Lk: light black ink Lc: light cyan ink Lm: light magenta ink Ly: light yellow ink Color material 1: C.I. I. pigment Black-7
Color material 2: C.I. I. pigment Blue-15: 3
Color material 3: C.I. I. pigment Red-57: 1
Color material 4: C.I. I. pigment Yellow-13
Coloring material 5: Titanium oxide (anatase type average particle size 0.20 μm)
[0110]
[Table 1]

[0111]
[Table 2]

[0112]
[Table 3]

[0113]
[Table 4]

[0114]
[Table 5]

[0115]
[Table 6]

[0116]
Embedded image

[0117]
<< Inkjet image forming method >>
<< Inkjet image forming method >>
Each ink composition set 1 to 3 prepared above is loaded into an ink jet recording apparatus having the structure shown in FIG. 1 equipped with a piezo type ink jet nozzle, and has a width of 600 mm and a length having each surface energy shown in Table 7. The following image recording was continuously performed on each long recording material of 500 m. The ink supply system was composed of an ink tank, a supply pipe, a front chamber ink tank immediately before the head, a pipe with a filter, and a piezo head. The ink was insulated from the front chamber tank to the head portion and heated at 50 ° C. The piezo head was driven so that 2 to 15 pl multi-size dots could be ejected at a resolution of 720 × 720 dpi, and each ink was ejected continuously. After landing, it is cured instantaneously (less than 0.5 seconds after landing) by the lamp units on both sides of the carriage. After recording, the total ink film thickness was measured and found to be in the range of 2.3 to 13 μm. In the present invention, dpi represents the number of dots per 2.54 cm. Inkjet images were formed according to the above method in an environment of 10 ° C. and 20% RH, an environment of 25 ° C. and 50% RH, and an environment of 27 ° C. and 80% RH, respectively.
[0118]
Further, in the same manner, an image was formed using the ink composition sets 4 to 6 using the line head recording type ink jet recording apparatus shown in FIG.
[0119]
[Table 7]

[0120]
The details of the abbreviations of the recording materials listed in Table 7 are as follows.
OPP: oriented polypropylene
PET: Polyethylene terephthalate
PVC: polyvinyl chloride
<Evaluation of inkjet recording image>
Each image recorded by the above image forming method was subjected to the following evaluations.
[0121]
(Character quality)
Using each color ink of Y, M, C, and K, a 6-point MS Mincho character was printed at a target density, and the character roughness was enlarged and evaluated with a loupe, and character quality was evaluated according to the following criteria.
[0122]
◎: No roughness ○: Slightly visible △: Slightly visible, but can be recognized as characters, but can be recognized as characters ×: Level that can be used at the last minute ×
[0123]
(Mixed colors (bleeds, wrinkles))
Print at 720 dpi so that each dot of Y, M, C, K colors is adjacent to each other, enlarge each adjacent color dot with a magnifying glass, visually observe the state of bleeding and wrinkles, and evaluate color mixing according to the following criteria Went.
[0124]
◎: Adjacent dot shape keeps perfect circle and no blurring ○: Adjacent dot shape keeps almost perfect circle and almost no blur △: Adjacent dots are slightly blurred and dot shape is slightly displaced Table 8 shows the evaluation results obtained when the use level is higher than the level where the adjacent dots are blurred and mixed, and the overlapping portion has wrinkles and the use is not possible.
[0125]
[Table 8]

[0126]
From Table 8, it can be seen that the present invention is an image forming method that is excellent in character quality, has no color mixing, and can record a high-definition image very stably even under various printing environments. .
[0127]
【The invention's effect】
According to the present invention, even under various printing environments, there is no wrinkle generation, excellent character quality and no color mixing, an actinic ray curable composition capable of recording a high-definition image very stably, An image forming method and an ink jet recording apparatus using the same can be provided.
[Brief description of the drawings]
FIG. 1 is a front view illustrating an example of a configuration of a main part of an ink jet recording apparatus of the present invention.
FIG. 2 is a top view showing another example of the configuration of the main part of the ink jet recording apparatus of the present invention.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 1 Inkjet recording device 2 Head carriage 3 Inkjet recording head 31 Ink ejection port 4 Irradiation means 5 Platen part 6 Guide member 7 Bellows structure P Recording material

Claims (13)

Containing a compound having an oxetane ring as a photopolymerizable compound and an alicyclic epoxy compound represented by the following general formula (A), and containing at least one of an epoxidized fatty acid ester or an epoxidized fatty acid glyceride An actinic ray curable composition characterized.

_{(Wherein, R 100} represents a substituent, m0 is .L ₀ is r0 + 1 of which may from 1 to 15 carbon atoms include an oxygen atom or a sulfur atom in the main chain that represents a 1-3 .r0 representing 0-2 Represents a valent linking group or a single bond.) 2. The actinic ray curable composition according to claim 1, wherein the alicyclic epoxy compound represented by the general formula (A) has a molecular weight of 250 to 600. The alicyclic epoxy compound represented by the general formula (A) is selected from at least one of the alicyclic epoxide compounds represented by the following general formula (I) or (II): The actinic ray curable composition according to claim 1 or 2.

_{(Wherein, R 101} represents a substituent, m1 represents 1 to 3 .r1 representing a 0 to 2 .L ₁ is r1 + 1 of which may from 1 to 15 carbon atoms include an oxygen atom or a sulfur atom in the main chain Represents a valent linking group or a single bond.)

_{(Wherein, R 102} represents a substituent, m2 represents 1 to 3 .r2 representing a 0 to 2 .L ₂ is r2 + 1 of which may from 1 to 15 carbon atoms include an oxygen atom or a sulfur atom in the main chain Represents a valent linking group or a single bond.) It contains a compound having an oxetane ring and an alicyclic epoxy compound having two or more ester bonds as a photopolymerizable compound, and contains at least one of an epoxidized fatty acid ester or an epoxidized fatty acid glyceride Actinic ray curable composition. The actinic ray curable composition according to claim 4, wherein the alicyclic epoxy compound having two or more ester bonds is represented by any one of the following general formulas (III) and (IV).

(In the formula, R ₂₀₀ represents an aliphatic group other than the α and β positions of the oxirane ring, m3 represents 0 to 2. X ₁ represents — (CH ₂ ) _n0 — or — (O) _n0 —, .P1 n0 is represents 0 or 1, q1 .L ₃ representing a is .r3 never 0 simultaneously each represents 0 or 1 1-3 may contain an oxygen atom or a sulfur atom in the main chain carbon This represents a linking group or a single bond having an r3 + 1 valent branched structure of formulas 1 to 15.)

(In the formula, R ₂₀₁ represents an aliphatic group other than α and β positions of the oxirane ring, m4 represents 0 to _2. X ₂ represents — (CH ₂ ) _n1 — or — (O) _n1 —, n1 represents 0 or 1. p2 and q2 each represent 0 or 1 and are not simultaneously 0. r4 represents 1 to 3. L ₄ is a carbon that may contain an oxygen atom or a sulfur atom in the main chain. This represents a linking group or a single bond having an r4 + 1 valent branched structure of formulas 1 to 15.) Furthermore, at least 1 sort (s) of basic compound is contained, The actinic-light curable composition of any one of Claims 1-5 characterized by the above-mentioned. The actinic ray curable composition according to any one of claims 1 to 5, wherein the viscosity at 25 ° C is 7 to 50 mPa · s. The actinic ray curable ink according to any one of claims 1 to 7, wherein the actinic ray curable ink contains a pigment. An actinic ray curable ink according to claim 8 is jetted onto a recording material from an inkjet recording head, and printing is performed on the recording material. After the actinic ray curable ink has landed, An image forming method, wherein actinic rays are irradiated for 0.001 to 1.0 seconds. An image forming method in which the actinic ray curable ink according to claim 8 is jetted onto a recording material from an ink jet recording head, and printing is performed on the recording material. An image forming method, wherein the total ink film thickness after being cured by irradiation with light is 2 to 25 μm. An image forming method in which the actinic ray curable ink according to claim 8 is jetted onto a recording material from an ink jet recording head, and printing is performed on the recording material. The ink is ejected from each nozzle of the ink jet recording head. An image forming method, wherein the droplet amount is 2 to 15 pl. An image forming method in which the actinic ray curable ink according to claim 8 is jetted onto a recording material from an ink jet recording head, and printing is performed on the recording material, the image being ejected from a line head type recording head. Forming an image. It is an inkjet recording device used for the image forming method of any one of Claims 9-12, Comprising: It discharges, after heating actinic-light curable ink and a recording head to 35-100 degreeC. Inkjet recording apparatus.

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