JP2619856B2 - Optical materials - Google Patents
Optical materialsInfo
- Publication number
- JP2619856B2 JP2619856B2 JP60134292A JP13429285A JP2619856B2 JP 2619856 B2 JP2619856 B2 JP 2619856B2 JP 60134292 A JP60134292 A JP 60134292A JP 13429285 A JP13429285 A JP 13429285A JP 2619856 B2 JP2619856 B2 JP 2619856B2
- Authority
- JP
- Japan
- Prior art keywords
- formula
- copolymer
- optical material
- monomer component
- optical
- 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 - Lifetime
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Classifications
-
- G—PHYSICS
- G02—OPTICS
- G02B—OPTICAL ELEMENTS, SYSTEMS OR APPARATUS
- G02B1/00—Optical elements characterised by the material of which they are made; Optical coatings for optical elements
- G02B1/04—Optical elements characterised by the material of which they are made; Optical coatings for optical elements made of organic materials, e.g. plastics
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- Physics & Mathematics (AREA)
- General Physics & Mathematics (AREA)
- Optics & Photonics (AREA)
- Addition Polymer Or Copolymer, Post-Treatments, Or Chemical Modifications (AREA)
- Optical Record Carriers And Manufacture Thereof (AREA)
Description
【発明の詳細な説明】 〔産業上の利用分野〕 本発明はとくに透明性、高屈折率を利用した光学材料
に関する。DETAILED DESCRIPTION OF THE INVENTION [Industrial Application Field] The present invention particularly relates to an optical material utilizing transparency and a high refractive index.
ポリスチレン、ポリメチルメタクリレートおよびポリ
カーボネートは、透明性、高屈折率のプラスチツクスと
して光デイスク基板や光フアイバーあるいはプラスチツ
クレンズとして検討され、一部では実用化がなされてい
る。しかし、ポリスチレンは熱変形温度が90℃程度と耐
熱性が悪いうえ屈折率も大きく、酢酸エチルや四塩化炭
素などに溶解し易くて耐溶剤性に劣り、これがために前
述したプラスチックスの中では光学材料分野への進出が
大幅に遅れ、実質的に行き詰まり状態である。ポリメチ
ルメタクリレートは成形が良好で透明性が大幅に優れ、
耐熱性もポリスチレンに比べれば優れるので、現在最も
光学材料分野への進出をはたしたプラスチツクである。
しかし、アセトンや酢酸エチルなどによりソルベントク
ラツクが発生し易く、また吸湿性が大きいので吸湿変形
が生じ易いなどの問題があり、さらに強酸に浸されて耐
薬品性に劣るし、耐熱性が優れるといつても熱変形温度
は110℃程度であつて実使用範囲が制限される。ポリカ
ーボネートの耐溶剤性は溶解し難いという面で得ると一
見良好であるかの如く思えるが、多くは白化現象を起こ
して、光学材料用途として見れば事実上耐溶剤性は不充
分である。しかも強アルカリに浸され易く耐薬品性に劣
るし、耐水性も不充分であるという問題もある。また、
複屈折率と収縮率が前2者に比べて大きいという問題も
ある。Polystyrene, polymethyl methacrylate and polycarbonate have been studied as optical disc substrates, optical fibers or plastic lenses as plastics having high transparency and high refractive index, and some of them have been put to practical use. However, polystyrene has a heat distortion temperature of about 90 ° C. and has poor heat resistance and a large refractive index, and is easily dissolved in ethyl acetate and carbon tetrachloride and has poor solvent resistance. The entry into the field of optical materials has been greatly delayed, and is substantially at a standstill. Polymethyl methacrylate has good molding and excellent transparency,
Since the heat resistance is superior to that of polystyrene, it is the most advanced plastic in the optical material field.
However, there is a problem that a solvent crack is easily generated by acetone, ethyl acetate, and the like, and a large hygroscopic property is liable to be deformed by hygroscopicity. In any case, the heat deformation temperature is about 110 ° C., which limits the practical use range. Although it seems at first glance that polycarbonate has good solvent resistance in terms of being difficult to dissolve, it appears to be good, but in many cases, whitening occurs, and solvent resistance is practically inadequate when used for optical materials. In addition, there is also a problem that it is easily immersed in a strong alkali, has poor chemical resistance, and has insufficient water resistance. Also,
There is also a problem that the birefringence and the shrinkage are larger than those of the former two.
以上説明したように、現在検討または使用されている
プラスチツクス系光学材料の原料として用いられている
前記の各種プラスチツクスは各長所および短所を有して
おり、その結果当然ながらこれらの原料から製造される
光学材料も従来の無機ガラス系に比べて長所を有するけ
れども短所も有してる。すなわち、光デイスクの用基板
の一例であるコンパクト・デイスク(CD)を例にとる
と、カーオーデイオ用CDは、真夏の車内温度が非常に高
い温度になるため、耐熱性が要求され、この点でポリス
チレンは使用できず、ポリメチルメタクリレートも使用
に際しての懸念がある。ポリカーボネートは耐熱性の面
では心配ないが、成形後の収縮あるいは複屈折の面で良
好なるデイスク基板が成形でき難いという問題がある。
そして以上述べてきたことは、追記型デイスクや書換型
デイスク用途ではもつと深刻な問題となる。さらに各耐
溶剤性、耐薬品性、耐水性に問題があり、使用場所や取
扱い方法に制限を受ける。そして、このような諸問題は
他の光学材料たとえば光フアイバーやプラスチツクレン
ズといつた透明性を利用した材料においても同様に発生
する。As described above, the above-mentioned various plastics used as raw materials for plastics-based optical materials currently studied or used have respective advantages and disadvantages. The resulting optical materials have advantages but also disadvantages compared to conventional inorganic glass systems. In other words, taking a compact disk (CD) as an example of an optical disk substrate, a car audio CD has a very high temperature inside the car in midsummer, so heat resistance is required. However, polystyrene cannot be used, and there is concern about use of polymethyl methacrylate. Although there is no concern about the heat resistance of polycarbonate, there is a problem that it is difficult to mold a disc substrate having good shrinkage or birefringence after molding.
What has been described above poses a serious problem for use in write-once discs and rewritable discs. In addition, there are problems with each solvent resistance, chemical resistance, and water resistance, and there are restrictions on the place of use and handling method. Such problems also occur in other optical materials such as optical fibers and plastic lenses that utilize transparency.
本発明者らは、かかる状況に鑑みて、耐熱性、耐薬品
性、耐溶剤性、耐水性に優れ、収縮が実質的に無くて寸
法安定性、成形性に優れ、また複屈折も実質的に無い光
学材料を提供するため研究を重ね、本発明に到達した。In view of such circumstances, the present inventors have excellent heat resistance, chemical resistance, solvent resistance, and water resistance, and have substantially no shrinkage, dimensional stability, excellent moldability, and substantial birefringence. In order to provide an optical material which is not present in the art, research has been repeated, and the present invention has been reached.
すなわち本発明は、 (A)炭素原子数が2ないし10のα−オレフィン成分
と、 (B)式(1)で示されるモノマー成分 とを含む共重合体であって、該共重合体中において前記
(B)モノマー成分が式(2)で示される構造をとる共
重合体からなることを特徴とする光学材料である。That is, the present invention relates to a copolymer comprising (A) an α-olefin component having 2 to 10 carbon atoms and (B) a monomer component represented by the formula (1), wherein the copolymer comprises (B) An optical material characterized in that the monomer component comprises a copolymer having a structure represented by the formula (2).
(式中RR1〜R12は水素、炭素原子数が1ないし4のアル
キル基又はハロゲンであつて各同一又は異なつていても
よく、更にR9又はR10とR11又はR12は互に環を形成して
いてもよい。nは0、1、2又は3であつて、R5〜R8が
複数回繰り返される場合にはこれらは各同一又は異なつ
ていてもよい。) 〔作用および効果〕 本発明の光学材料を構成する共重合体は、前述した式
(1)で示されるモノマー成分が主として式(2)で示
される構造をとつている。かかる共重合体として好まし
い態様は、式(1)のモノマー成分と共にα−オレフイ
ン及び/又は式(1)以外の環状オレフインとからなる
共重合体が例示でき、取り分けて好適なものとして共重
合体の必須成分として式(1)のモノマー及びエチレン
を含むものを挙げることができる。 (Wherein RR 1 to R 12 are hydrogen, an alkyl group having 1 to 4 carbon atoms or halogen, which may be the same or different, and R 9 or R 10 and R 11 or R 12 are each other May be a ring. N is 0, 1, 2, or 3, and when R 5 to R 8 are repeated a plurality of times, they may be the same or different.) Function and Effect] In the copolymer constituting the optical material of the present invention, the monomer component represented by the above formula (1) mainly has a structure represented by the formula (2). Preferred embodiments of such a copolymer include a copolymer comprising α-olefin and / or a cyclic olefin other than formula (1) together with the monomer component of the formula (1), and the copolymer is particularly preferable. Examples of the essential components include those containing a monomer of the formula (1) and ethylene.
共重合体中、式(1)のモノマー成分は少なくとも2
モル%以上含むべきであるが、エチレンを共存させる場
合にはエチレン/式(1)のモノマー成分のモル比が5/
95〜95/5、とくに40/60〜90/10の範囲が好ましく、更に
エチレン以外のα−オレフインや鎖状ジエンあるいは式
(1)以外の環状オレフイン等を共存させる場合にはこ
れらのモノマー合計量/式(1)のモノマー成分のモル
比が5/95〜95/5、とくに30/70〜90/10の範囲が好まし
い。また本発明においては式(1)のモノマー成分は単
品のみならず、式(1)で示される複数の成分が混合し
ていてもよいことは勿論である。In the copolymer, the monomer component of the formula (1) has at least 2
Mol% or more, but when ethylene coexists, the molar ratio of ethylene / the monomer component of the formula (1) is 5 /
The range is preferably from 95 to 95/5, particularly preferably from 40/60 to 90/10. When α-olefins other than ethylene, chain dienes or cyclic olefins other than the formula (1) coexist, the total of these monomers is used. The molar ratio of the amount / the monomer component of the formula (1) is preferably in the range of 5/95 to 95/5, particularly preferably 30/70 to 90/10. In the present invention, the monomer component of the formula (1) is not limited to a single component, and a plurality of components represented by the formula (1) may, of course, be mixed.
式(1)で示されるモノマー成分の具体例を示すと以
下のものを挙げることができるが、ここで示される例は
極めて限定されたものであつて、式(1)でしめされる
ものであれば如何なるものも本発明のモノマー成分にな
り得る。Specific examples of the monomer component represented by the formula (1) include the following, but the examples shown here are extremely limited and are represented by the formula (1). Anything can be the monomer component of the present invention.
これらの中では式(1)においてn=1のもの、すな
わち式(3)、 で示されるモノマー成分が、モノマーの入手し易さある
いはモノマー合成のし易い面で好ましい。 Among them, those in which n = 1 in equation (1), that is, equation (3), The monomer component represented by is preferred in terms of availability of the monomer or easy synthesis of the monomer.
上述のモノマー成分を製造するには、たとえば米国特
許3557072号公報(特公昭46−14910号公報)や特開昭57
−154133号公報の方法を適用することができる。たとえ
ば式(3)のモノマー成分を製造するには、下記式にあ
るようにノルボルネンに対してシクロペンタジエンを縮
合する。To produce the above-mentioned monomer component, for example, US Pat. No. 3,557,072 (Japanese Patent Publication No. 46-14910) or
No. 154133 can be applied. For example, to produce the monomer component of the formula (3), cyclopentadiene is condensed with norbornene as shown in the following formula.
式(3)以外の式(1)で示されるモノマー成分も基本
的には上記の縮合反応の応用であり、ただ出発原料の違
いだけである。 The monomer component represented by the formula (1) other than the formula (3) is basically an application of the above condensation reaction, and is only different from the starting material.
式(1)のモノマー成分と共重合され得るα−オレフ
インとしては、炭素原子数2〜20、好適には2〜10のα
−オレフインであつて、たとえばエチレン、プロピレ
ン、1−ブテン、3−メチル−1−ブテン、1−ペンテ
ン、3−メチル−1−ペンテン、4−メチル−1−ペン
テン、1−ヘキサン、1−オクタン、1−デセン、1−
ドデセン、1−テトラデセン、1−ヘキサデカン、1−
イコセンなどを例示できる。これらの中ではとくにエチ
レンが共重合性の面から好ましく、他のα−オレフイン
(炭素原子数3以上)あるいは後述する環状オレフイン
を式(1)のモノマー成分と共重合させる場合にも、エ
チレンが存在したほうが共重合性は良好である。The α-olefin that can be copolymerized with the monomer component of the formula (1) includes α-olefin having 2 to 20 carbon atoms, preferably 2 to 10 carbon atoms.
Olefins such as ethylene, propylene, 1-butene, 3-methyl-1-butene, 1-pentene, 3-methyl-1-pentene, 4-methyl-1-pentene, 1-hexane, 1-octane , 1-decene, 1-
Dodecene, 1-tetradecene, 1-hexadecane, 1-
Ikosen etc. can be illustrated. Of these, ethylene is particularly preferred from the viewpoint of copolymerizability. Even when other α-olefin (having 3 or more carbon atoms) or a cyclic olefin described below is copolymerized with the monomer component of the formula (1), ethylene is preferred. The better the copolymerizability, the better.
式(1)のモノマー成分と共重合することのできる別
の成分である式(1)以外の環状オレフインは、架橋の
ないシクロオレフインやスチレン類があり、たとえばシ
クロペンテン、シクロヘキセン、3,4−ジメチルシクレ
ペンテン、3−メチルシクロヘキセン、2−(2−メチ
ルブチル)−1−シクロヘキセン、スチレン、α−メチ
ルスチレン、2,3,3a,7a−テトラヒドロ−4,7−メタノ−
1H−インデン、3a,5,6,7a−テトラヒドロ−4,7−メタノ
−1H−インデンなどを例示できる。ジシクロペンタジエ
ン、エチリデンノルボルネン、ビニルノルボルネンとい
ったポリエンも同様に共重合可能である。Cyclic olefins other than the formula (1), which are other components that can be copolymerized with the monomer component of the formula (1), include non-crosslinked cycloolefins and styrenes such as cyclopentene, cyclohexene, and 3,4-dimethyl. Ciclepentene, 3-methylcyclohexene, 2- (2-methylbutyl) -1-cyclohexene, styrene, α-methylstyrene, 2,3,3a, 7a-tetrahydro-4,7-methano-
Examples thereof include 1H-indene and 3a, 5,6,7a-tetrahydro-4,7-methano-1H-indene. Polyenes such as dicyclopentadiene, ethylidene norbornene and vinyl norbornene can also be copolymerized.
更に以上述べてきたモノマー成分のほかに、他の共重
合可能なモノマー成分を本発明の目的を損わない範囲内
で、共重合体中に少量含んでいてもよい。Further, in addition to the monomer components described above, other copolymerizable monomer components may be contained in the copolymer in a small amount as long as the object of the present invention is not impaired.
共重合体は、以上詳説してきた式(1)のモノマー成
分あるいは式(1)のモノマー成分及びα−オレフイン
及び/又は環状オレフインを、周知のチーグラー触媒と
にバナジウム系のチーグラー触媒を使用して重合するこ
とにより製造される。より詳しくは、出願人による先行
特許出願(たとえば特願昭59−16995号)に開示されて
いる。共重合体の特徴は、式(1)のモノマー成分が共
重合体中において主として式(2)で示される構造をと
つていることであり、これにより共重合体中の沃素価は
通常5以下、多くが1以下である。またこの構造をとる
ことは13C−NMRによつても裏付けられる。The copolymer is prepared by using the monomer component of the formula (1) or the monomer component of the formula (1) and α-olefin and / or cyclic olefin described in detail above with a well-known Ziegler catalyst and a vanadium-based Ziegler catalyst. It is produced by polymerizing. More details are disclosed in a prior patent application filed by the applicant (for example, Japanese Patent Application No. 59-16995). A feature of the copolymer is that the monomer component of the formula (1) has a structure mainly represented by the formula (2) in the copolymer, whereby the iodine value in the copolymer is usually 5 or less. , Many are 1 or less. The adoption of this structure is also supported by 13 C-NMR.
そして本構造をとることにより、共重合体は化学的に
安定であつて、耐水性及びアルカリや酸などの耐薬品性
に優れ、更に耐溶剤性、耐熱性、耐候性にも優れる。ま
た極めて低含率である。By adopting this structure, the copolymer is chemically stable, is excellent in water resistance, chemical resistance such as alkali and acid, and is also excellent in solvent resistance, heat resistance and weather resistance. Also, it has an extremely low content.
本発明において最も好適な共重合体の態様は、式
(1)のモノマー成分と少なくともエチレンを含み、必
要に応じて他のα−オレフインや環状オレフインを含む
ものである。この場合、式(1)のモノマー成分/エチ
レンとのモル比は5/95〜95/5、とくには40/60〜90/10の
範囲にあるのが好ましく、第3成分すなわち炭素原子数
3以上のα−オレフイン及び環状オレフインが存在する
場合には、式(1)のモノマー成分/第3成分とのモル
比が5/95〜95/5、とくには30/70〜90/10の範囲にあるの
が好ましい。The most preferred embodiment of the copolymer in the present invention contains the monomer component of the formula (1) and at least ethylene, and optionally contains other α-olefins and cyclic olefins. In this case, the molar ratio of the monomer component of formula (1) to ethylene is preferably in the range of 5/95 to 95/5, particularly preferably 40/60 to 90/10, and the third component, ie, 3 carbon atoms. When the above α-olefin and cyclic olefin are present, the molar ratio of the monomer component of formula (1) to the third component is in the range of 5/95 to 95/5, particularly 30/70 to 90/10. Is preferred.
本発明の光学材料に用いる場合、共重合体の分子量で
は135℃デカリン中で測定した固有粘度〔η〕で0.1〜20
dl/gとくに0.3〜10dl/gの範囲のものがよく、また結晶
化温度(X線回折法)が5%以下とくに0%のものが好
適である。以上の構成の共重合体は、実質的に非晶性な
ので透明性が良好であり、成形収縮がなくて寸法安定性
に優れている。しかも耐熱性にも優れている。すなわ
ち、ガラス転移温度(Tg)が通常10〜220℃、多くが60
〜200℃の範囲にあり、熱変形温度が通常0〜210℃、多
くが50〜200℃の範囲にある。また屈折率▲(n20 D)▼
が通常1.47〜1.58多くが1.50〜1.56の範囲内にあり、プ
ラスチツクスの中では高屈折率である。When used in the optical material of the present invention, the molecular weight of the copolymer is 0.1 to 20 at the intrinsic viscosity [η] measured in decalin at 135 ° C.
dl / g in the range of 0.3 to 10 dl / g is preferred, and those having a crystallization temperature (X-ray diffraction method) of 5% or less, particularly 0%, are preferred. The copolymer having the above structure is substantially amorphous and thus has good transparency, and has no molding shrinkage and is excellent in dimensional stability. Moreover, it has excellent heat resistance. That is, the glass transition temperature (Tg) is usually 10 to 220 ° C.,
The heat deformation temperature is usually in the range of 0 to 210 ° C, and most is in the range of 50 to 200 ° C. Refractive index ▲ (n 20 D ) ▼
However, 1.47 to 1.58 are usually in the range of 1.50 to 1.56, and have a high refractive index in plastics.
また共重合体の改良方法として、第3モノマー成分と
して、前記したポリエン系モノマーを使用し共重合体の
側鎖中に不飽和結合を導入したりして架橋させたもので
もよい。Further, as a method for improving the copolymer, the third monomer component may be one obtained by using the above-mentioned polyene-based monomer and introducing an unsaturated bond into a side chain of the copolymer to cause crosslinking.
このような共重合体を光学材料として用いると、 寸法精度が優れるので所期の目的寸法に沿つた製品
となり、 歪みによる光学特性の変調がなく、 耐熱性に優れるので、高温部ないしその付近での使
用が可能であり、 耐薬品性、耐溶剤性に優れるので取扱い性に優れ、 耐水性の優れるので防水処理を施こす必要がなく、 熱可塑性であるので通常のプラスチックス溶融成形
方法が適用できる といつた特徴を示す。When such a copolymer is used as an optical material, the product has excellent dimensional accuracy and conforms to the intended dimensions.There is no modulation of optical characteristics due to distortion, and it has excellent heat resistance. It has excellent chemical and solvent resistance, so it is easy to handle, and because it has excellent water resistance, it does not need to be waterproofed. Indicate the features that you can do.
たとえば、光デイスク用基板に用いると従来のポリメ
チルメタクリレート系の耐熱性や耐水性の問題、ホリカ
ーボネート系の複屈折性、寸法安定性、耐水性の問題を
一気に解決するディスク用基板を提供することになる。
したがつて、本発明のデイスク用基板に公知の種々の方
法で記録層を積層したものはコンパクトデイスク、ビデ
オデイスク、追記型光デイスク、書換型光デイスク、光
磁気デイスクとして利用できる。また同様な記録方法を
用いる光カードとしても利用できる。For example, when used for an optical disk substrate, a disk substrate is provided which can solve the conventional problems of heat resistance and water resistance of polymethyl methacrylate, and the problems of birefringence, dimensional stability, and water resistance of polycarbonate. Will be.
Therefore, the disk substrate of the present invention in which recording layers are laminated by various known methods can be used as a compact disk, a video disk, a write-once optical disk, a rewritable optical disk, and a magneto-optical disk. It can also be used as an optical card using a similar recording method.
より具体的に本発明の光デイスクについて説明する
と、前述の共重合体を情報ビツトに対応する凹凸を有し
たスタンパーをセツトした金型内に射出成形して得られ
た基板に、反射率の高い物質たとえばNi、Al、Au等をコ
ートして、レーザー光の反射を利用して情報を読み出す
再生専用のディスク、あるいは情報記録層として通常の
レコード板と同じように溝を用い、溝と接触して走査す
るヘツドと溝低部に設けられた情報ビツトとの間の静電
容量変化を利用して読み出す再生専用デイスク、さらに
光によつて変化する記録層を設けた光デイスクがある。
光変化型の記録層としては、As−Te−Ge系のようにレー
ザー光照射による非晶−結晶の相変化からくる光反射
率、光透過率の変化を利用するもの、同じく相変化を利
用するかTeOx(0<X<2)、あるいはGdCo、TbFe、Gd
TbFe、ThdyFeのように磁化反転を利用したもの、また別
には有機色素なども利用できる。More specifically, the optical disk of the present invention will be described. The substrate obtained by injection molding the above-described copolymer into a mold in which a stamper having irregularities corresponding to information bits is set has a high reflectance. Coated with a substance such as Ni, Al, Au, etc., a read-only disc that reads information using the reflection of laser light, or a groove as an information recording layer like a normal record board, There is a read-only disk for reading by utilizing a change in capacitance between a head to be scanned by scanning and an information bit provided at a lower portion of the groove, and an optical disk having a recording layer which is changed by light.
As a light-change type recording layer, one that uses changes in light reflectance and light transmittance resulting from an amorphous-crystal phase change by laser light irradiation, such as an As-Te-Ge system, and also uses a phase change Or TeOx (0 <X <2), or GdCo, TbFe, Gd
Those utilizing magnetization reversal, such as TbFe and ThdyFe, and also organic dyes can be used.
また、たとえば共重合体をコア層またはクラツド層と
し、公知の種々の光フアイバー材料と組合せ光フアイバ
ー、光フアイバー用コネクターア、アレイ状光フアイバ
ーとして利用してもよい。とくにクラツド層として用い
ると耐水性、耐熱性、耐薬品性、耐溶剤性に優れるので
コア層を充分に保護し、従来のポリメチルメタクリレー
ト系では到達不可能だつた高温部での使用が可能にな
る。光フアイバーを構成するときコア層またはクラツド
層となる他のプラスチツクスとしては、、ポリメチルメ
タクリレートおよびその誘導体、フツ沿系重合体、ポリ
4−メチルペンテン−1およびそのコポリマー、ポリア
リレーンなどがあり、接着性改良のため添加剤を配合し
たり、これらを変性したり、変性物を配合したりしても
よい。Further, for example, the copolymer may be used as a core layer or a clad layer and used as an optical fiber, an optical fiber connector, or an arrayed optical fiber in combination with various known optical fiber materials. In particular, when used as a clad layer, it has excellent water resistance, heat resistance, chemical resistance, and solvent resistance, so it fully protects the core layer and can be used in high-temperature areas that were impossible to reach with conventional polymethyl methacrylates. Become. Other plastics that become a core layer or a clad layer when constituting an optical fiber include polymethyl methacrylate and its derivatives, futsu-based polymers, poly-4-methylpentene-1 and its copolymers, and polyarylene. An additive may be blended for improving the adhesion, these may be modified, or a modified product may be blended.
その他の利用例としてプラスチツクレンズがある。こ
れは球面レンズ、平面レンズなど色々な形状が考えられ
る。このレンズは眼鏡用のほか天眼鏡、ルーペ、自動車
や自転車のライトまたはランプに使用するフルネルレン
ズなど各種の分野で利用される。Another use example is a plastic lens. Various shapes such as a spherical lens and a flat lens can be considered. This lens is used in various fields such as spectacles, sky glasses, loupes, and full-nel lenses used for lights or lamps of automobiles and bicycles.
また光の分波器、光導波路、OEIC用基板、光フイルタ
ーなどのオプトエレクトロニクス用の光学材料として利
用してもよい。さらには建築物の窓ガラス、自動車ガラ
ス、鉄道あるいは飛行機、船舶の窓ガラスといつた分野
へも利用できる。Further, it may be used as an optical material for optoelectronics such as a light splitter, an optical waveguide, an OEIC substrate, and an optical filter. Furthermore, it can be used in fields such as window glass of buildings, automobile glass, window glass of railways, airplanes, and ships.
以下本発明の内容を好適例でもつて詳説するが、本発
明はとくに断わりの無い限りこれらの例に制限されるも
のではない。Hereinafter, the contents of the present invention will be described in detail with preferred examples, but the present invention is not limited to these examples unless otherwise specified.
実施例 1 〔共重合体の製造〕 撹拌翼を備えた2ガラス製重合器を用いて、連続的
にエチレンと2−メチル−1,4,5,8−ジメタノ−1,2,3,
4,4a,5,8,8a−オクタヒドロナフタレン 以下M−DMONと略称)との共重合反応を以下の如く行つ
た。Example 1 [Production of copolymer] Using a two-glass polymerization vessel equipped with a stirring blade, ethylene and 2-methyl-1,4,5,8-dimethano-1,2,3,
4,4a, 5,8,8a-octahydronaphthalene (Hereinafter abbreviated as M-DMON) was carried out as follows.
すなわち、重合器内でのM−DMON濃度が60g/となる
ように重合器内上部からM−DMONのトルエン溶液を0.9
/hr、触媒として重合器内でのV濃度が0.5mmol/と
なるように VO(OC2H5)Cl2のトルエン溶液を0.7/hr、重合器内で
のAl濃度が2mmol/となるようにAl(C2H5)1.5Cl1.5の
トルエン溶液を0.4/hrの速度でそれぞれ重合器中に連
続的に供給し、一方重合器下部から重合器中に重合液が
常に1になるように連続的に抜き出す。また重合器上
部か5エチレンを25/hr、N280/hr、H2を2/hrの
速度で供給する。共重合反応は冷媒を用いることにより
10℃にコントロールして行つた。重合器下部か5連続的
に抜き出されたポリマー重合液にはメタノールを少量添
加して重合反応を停止させ、次いで大量のイソプロピル
アルコール中に投入して生成共重合体を析出させ、さら
にイソプロピルアルコールで洗浄した。この時共重合体
は30g/hrの速度で得られた。洗浄後の共重合体は100℃
で一昼夜減圧乾燥した。That is, a 0.9% toluene solution of M-DMON was added from the upper part of the polymerization vessel so that the M-DMON concentration in the polymerization vessel became 60 g /.
VO (OC 2 H 5 ) Cl 2 in a toluene solution of 0.7 / hr so that the V concentration in the polymerization reactor becomes 0.5 mmol / as the catalyst and the Al concentration in the polymerization reactor becomes 2 mmol / , A toluene solution of Al (C 2 H 5 ) 1.5 Cl 1.5 is continuously supplied into the polymerization reactor at a rate of 0.4 / hr, while the polymerization liquid is always 1 in the polymerization reactor from the lower part of the polymerization reactor. Extract continuously. Also, from the upper part of the polymerization vessel, 5 ethylene is supplied at a rate of 25 / hr, N 2 at 80 / hr, and H 2 at a rate of 2 / hr. The copolymerization reaction is performed by using a refrigerant.
Control was performed at 10 ° C. A small amount of methanol is added to the polymer polymerization liquid taken out from the lower part of the polymerization vessel or 5 times continuously to terminate the polymerization reaction, and then poured into a large amount of isopropyl alcohol to precipitate the produced copolymer. And washed. At this time, a copolymer was obtained at a rate of 30 g / hr. 100 ° C after washing
And dried under reduced pressure overnight.
尚、この重合に際し利用した装置、器具類はダストフ
リーのアセトンで洗浄し、利用した溶媒ははフイルター
処理後蒸溜精製したものを利用するなどダスト対策を行
つている。Dust countermeasures are taken, for example, by washing the equipment and instruments used in this polymerization with dust-free acetone, and using the solvent used after distillation and purification after filtration.
このようにして得られた共重合体は、13C−NMR分析に
よるとエチレンが55モル%含まれており、135℃デカリ
ン中で測定した〔η〕は0.64dl/g、デユポン社製DMAに
より損失弾性率(E″)を5℃/minの昇温速度で測定
し、そのピーク温度から求めたTgが139℃、アツベの屈
折率計で測定した▲n20 D▼が1.537であつた。According to 13 C-NMR analysis, the copolymer thus obtained contains 55 mol% of ethylene, and [η] measured in decalin at 135 ° C. is 0.64 dl / g. The loss elastic modulus (E ″) was measured at a heating rate of 5 ° C./min. The Tg determined from the peak temperature was 139 ° C., and the (n 20 D) measured with an Atsube refractometer was 1.537.
2層押出機により、前記共重合体をコア層、ポリメタ
クリル酸トリフルオロエチレ(▲n20 D▼=1.420、以下
PTFMMAをクラツド層としたフアイバーを製造した。得ら
れたフアイバーは、コアが1mmφ、クラツド厚さが0.2mm
であり、安立電気製光損失測定器により測定した伝送損
失は400dB/km(λ=780nm)であつた。Using a two-layer extruder, the above copolymer was used as a core layer and polytrifluoroethylene methacrylate (n 20 D) = 1.420,
Fibers with PTFMMA as clad layer were manufactured. The obtained fiber has a core of 1 mmφ and a cladding thickness of 0.2 mm.
The transmission loss measured by an optical loss measuring device manufactured by Anritsu Denki was 400 dB / km (λ = 780 nm).
実施例 2 実施例1の共重合体を280℃で直径0.6mmに紡糸し、ポ
リフツ化ビニリデン(PFVD)のメチルエチルケトン溶液
を被膜塗装して乾燥した。結果を表1に示す。Example 2 The copolymer of Example 1 was spun at 280 ° C. to a diameter of 0.6 mm, coated with a solution of polyvinylidene fluoride (PFVD) in methyl ethyl ketone, and dried. Table 1 shows the results.
実施例 3 実施例1の重合におけるM−DMONと代わりに、1,4,5,
8−ジメタノ−1,2,3,4,4a,5,8,8a−オクタヒドロナフタ
レン を用いる他には同様にした。結果を表1に示す。Example 3 Instead of M-DMON in the polymerization of Example 1, 1,4,5,
8-dimethano-1,2,3,4,4a, 5,8,8a-octahydronaphthalene The same operation was performed except for using. Table 1 shows the results.
実施例 4 実施例1の重合におけるM−DMONの代わりに、6−エ
チルビシクロ〔2,2,1〕ヘプト−2−エン を用いる他には同様にした。Example 4 Instead of M-DMON in the polymerization of Example 1, 6-ethylbicyclo [2,2,1] hept-2-ene The same operation was performed except for using.
結果を表1に示す。Table 1 shows the results.
実施例 5 実施例1におけるポリメタクリル酸トリフルオロエチ
ルの代わりに、ポリ4−メチルペンテン−1(▲n20 D
▼=1.46、TPX)を用いる他には同様にした。結果を表
1に示す。Example 5 Instead of polytrifluoroethyl methacrylate in Example 1, poly 4-methylpentene-1 (n 20 D
▼ = 1.46, TPX) was used in the same manner. Table 1 shows the results.
実施例 6 実施例1の環状オレフインモノマー成分とエチレンと
を共重合して得られた共重合体に、イルガツクス 1010
を0.1wt%、ステアリン酸亜鉛を0.07wt%配合し、260
℃、30mmφ押出機で造粒した。 Example 6 The cyclic olefin monomer component of Example 1 and ethylene
Irgatcus is added to the copolymer obtained by copolymerizing 1010
0.1% by weight and 0.07% by weight of zinc stearate
C. and granulated with a 30 mmφ extruder.
予め用意されたCD(コンパクトデイスク)のためのビ
ツト形成用スタンパーを金型に装着し、樹脂温度300℃
金型温度90℃射出圧力680kg/cm2で射出成形し、厚み1.2
mmの12cmφデイスク基板を得た。A stamper for forming a bit for a CD (compact disk) prepared in advance is mounted on a mold, and the resin temperature is 300 ° C.
A mold temperature of 90 ° C. Injection pressure 680 kg / cm 2, thickness 1.2
A 12 cmφ disk substrate of mm was obtained.
この基板のビツト形成面上に、真空蒸着装置(日本真
空技術社製)を用いて真空度2×10-6Torrの条件下Alを
1μ厚に蒸着した。次いでAl面上に紫外線硬化型のメチ
ルメタクリレート系モノマーを塗布し10μの硬化膜を形
成した。On a bit forming surface of this substrate, Al was vapor-deposited in a thickness of 1 μm under a vacuum degree of 2 × 10 −6 Torr using a vacuum vapor deposition device (manufactured by Nippon Vacuum Engineering Co., Ltd.). Next, a UV-curable methyl methacrylate-based monomer was applied on the Al surface to form a cured film of 10 μm.
上述のようにして得られた基板の複屈折、吸水率、光
線透過率を測定した結果を表2に示す。尚、ここで複屈
折率はHe−Neレーザーによりレーザー光源→偏光子→1/
4λ→試料→偏光子→ホトセンサーの測定系で測定し、
レターゼーシヨンR(ダブルパス値)で表現し表2に示
した。数値が小さい程複屈折が小さい良好な性質を示
す。また吸水率は30℃、飽和蒸気圧下で1ヶ月放置後の
重量変化による。光線透過率は自己分光光度計UV365
(島津製作所製)により700〜850nmの波長で測定した。Table 2 shows the results of measuring the birefringence, water absorption, and light transmittance of the substrate obtained as described above. Here, the birefringence was measured using a He-Ne laser from a laser light source → a polarizer → 1 /
4λ → sample → polarizer → photo sensor
The results are shown in Table 2 in terms of Lettuce R (double pass value). The smaller the value is, the better the birefringence is. Further, the water absorption is based on a change in weight after being left for one month at 30 ° C. and a saturated vapor pressure. Light transmittance is self-spectrophotometer UV365
(Manufactured by Shimadzu Corporation) at a wavelength of 700 to 850 nm.
またこのようにして得られたCDをパイオニア製デイス
クプレイヤーにかけたところ極めて良好な音質が得られ
た。When the thus obtained CD was played on a Pioneer disk player, extremely good sound quality was obtained.
実施例 7 実施例6と同様にして、レーザービジヨン用スタンパ
ーを用いて、1.2mm厚の30cmφデイスク板を成形した。
結果を表2に示す。Example 7 In the same manner as in Example 6, a 30 cmφ disk plate having a thickness of 1.2 mm was formed using a laser vision stamper.
Table 2 shows the results.
実施例 8 エチレンとDMONの共重合体を使用する以外は実施例6
と同様に行つた。結果を表2に示す。Example 8 Example 6 except that a copolymer of ethylene and DMON was used.
Went as well. Table 2 shows the results.
実施例 9 エチレンとEBHの共重合体を使用する以外は実施例6
と同様に行つた。結果を表2に示す。Example 9 Example 6 except that a copolymer of ethylene and EBH was used.
Went as well. Table 2 shows the results.
実施例 10 実施例6において、スパイラル状の溝(0.8μ幅、0.0
7μ深さ)付きスタンパーを用い厚さ1.2mm、20cmφのデ
イスクを成形した。このデイスクに日電アネルバ社製の
スパツター装置によりTeを100Å厚で形成した。結果を
表2に示す。Example 10 In Example 6, the spiral groove (0.8 μ width, 0.0 μm) was used.
A disk having a thickness of 1.2 mm and a diameter of 20 cm was formed using a stamper with a depth of 7 μm. Te was formed to a thickness of 100 mm on this disk using a sputter device manufactured by Nidec Anelva. Table 2 shows the results.
実施例 11 実施例10のデイスク基板に、Tb、Fe、Coのモザイクタ
ーゲツトを用いてスパツター装置にてアモルフアス磁化
膜を形成した。膜組成はTb30(Co17Fe83)70 atm%の
ものであつた。またHe−Neレーザーで測定したカー回転
角は0.3度であつた。Example 11 An amorphous magnetic film was formed on the disk substrate of Example 10 using a mosaic target of Tb, Fe, and Co with a sputter device. The film composition was Tb 30 (Co 17 Fe 83 ) 70 atm%. The Kerr rotation angle measured by a He-Ne laser was 0.3 degrees.
実施例 12 エチレンと2−エチル−1,4,5,8−ジメタノ−1,2,3,
4,4a,5,8,8a−オクタヒドロナフタレン の共重合体を原料に直径10mm、中心部厚3mmのレンズ金
型を用い、280℃で精密射出成形(金型温度80℃)を行
つた。中心部の複屈折(レターゼーシーヨン:シングル
パス)は小さく、光線透過率も極めて良好であつた。結
果を表3に示す。 Example 12 Ethylene and 2-ethyl-1,4,5,8-dimethano-1,2,3,
4,4a, 5,8,8a-octahydronaphthalene Using a lens mold having a diameter of 10 mm and a center part thickness of 3 mm using the above copolymer as a raw material, precision injection molding was performed at 280 ° C. (mold temperature 80 ° C.). The birefringence (letter plate: single pass) at the center was small, and the light transmittance was extremely good. Table 3 shows the results.
実施例 13 エチレンと2,3−ジメチル−1,4,5,8−イメタノ−1,2,
3,4,4a5,8,8a−オクタヒドロナフタレン の共重合体を用いて実施例12と同様に行つた。結果を表
3に示す。Example 13 Ethylene and 2,3-dimethyl-1,4,5,8-imetano-1,2,
3,4,4a5,8,8a-octahydronaphthalene Example 12 was carried out using the above copolymer. Table 3 shows the results.
実施例 14 エチレンと12−メチルヘキサシクロ〔6,6,1,13,61
10,1302,709,14〕−4−ヘプタデセン の共重合体を用いて実施例12と同様に行つた。結果を表
3に示す。EXAMPLE 14 Ethylene and 12-methyl hexa cyclo [6,6,1,1 3,6 1
10, 13 0 2,7 0 9,14] -4-heptadecene Example 12 was carried out using the above copolymer. Table 3 shows the results.
Claims (9)
フィン成分と、 (B)式(1)で示されるモノマー成分 とを含む共重合体であって、該共重合体中において前記
(B)モノマー成分が式(2)で示される構造をとる共
重合体からなることを特徴とする光学材料。 (式中R1〜R12は水素、炭素原子数が1ないし4のアル
キル基又はハロゲンであって各同一又は異なっていても
よく、更にR9又はR10とR11又はR12は互いに環を形成し
ていてもよい。nは0、1、2又は3であって、R5〜R8
が複数回繰り返される場合にはこれらは各同一又は異な
っていてもよい。)1. A copolymer comprising (A) an α-olefin component having 2 to 10 carbon atoms and (B) a monomer component represented by the formula (1), wherein: (B) An optical material, wherein the monomer component comprises a copolymer having a structure represented by the formula (2). (Wherein R 1 to R 12 are hydrogen, an alkyl group having 1 to 4 carbon atoms or halogen, which may be the same or different, and R 9 or R 10 and R 11 or R 12 are N is 0, 1, 2, or 3, and R 5 to R 8
Are repeated a plurality of times, they may be the same or different. )
フィン成分と、 (B)式(1)で示されるモノマー成分と、 (C)炭素原子数が5ないし11の前記式(1)以外の環
状オレフィン成分 とを含む共重合体からなる請求項1に記載の光学材料。(A) an α-olefin component having 2 to 10 carbon atoms, (B) a monomer component represented by the formula (1), and (C) a monomer component represented by the formula (C) having 5 to 11 carbon atoms. The optical material according to claim 1, comprising a copolymer containing a cyclic olefin component other than 1).
R12は水素、メチル基又はエチル基であり、nは0、1
又は2である特許請求の範囲第1項又は第2項に記載の
光学材料。3. In the formulas (1) and (2), R 1 to
R 12 is hydrogen, a methyl group or an ethyl group;
The optical material according to claim 1 or 2, wherein the optical material is (1) or (2).
ある特許請求の範囲第1項ないし第3項のいずれかに記
載の光学材料。4. The optical material according to claim 1, wherein said α-olefin component is an ethylene component.
いてn=1である特許請求の範囲第1項ないし第4項の
いずれかに記載の光学材料。5. The optical material according to claim 1, wherein n = 1 in the monomer component represented by the formula (1).
1項ないし第5項のいずれかに記載の光学材料。6. The optical material according to claim 1, which is used for an optical fiber.
1項ないし第5項のいずれかに記載の光学材料。7. The optical material according to any one of claims 1 to 5, which is used for a disk substrate.
範囲第1項ないし第5項のいずれかに記載の光学材料。8. The optical material according to claim 1, which is used for a plastic lens.
ないし第5項のいずれかに記載の光学材料。9. The optical material according to claim 1, which is used for window glass.
Priority Applications (1)
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JP60134292A JP2619856B2 (en) | 1985-06-21 | 1985-06-21 | Optical materials |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
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JP60134292A JP2619856B2 (en) | 1985-06-21 | 1985-06-21 | Optical materials |
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Family
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US7662445B2 (en) | 2007-09-25 | 2010-02-16 | Fujifilm Corporation | Cyclic olefin-based copolymer, film, and polarizing plate and liquid crystal display device including the same |
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Publication number | Priority date | Publication date | Assignee | Title |
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EP0733658B1 (en) * | 1987-05-01 | 2003-03-19 | Mitsui Chemicals, Inc. | Cycloolefin type random copolymer compositions and uses thereof |
JPS6431844A (en) * | 1987-07-27 | 1989-02-02 | Mitsui Petrochemical Ind | Polymer composition for spacer of information recording base plate |
JP2633572B2 (en) * | 1987-08-08 | 1997-07-23 | 三井石油化学工業株式会社 | Magneto-optical recording medium |
ATE133984T1 (en) * | 1987-10-08 | 1996-02-15 | Mitsui Petrochemical Ind | RANDOM CYCLOOLEFIN COPOLYMER COMPOSITION |
JPH0816129B2 (en) * | 1988-11-14 | 1996-02-21 | 日本ゼオン株式会社 | Method for producing norbornene ring-opening polymer |
KR100235089B1 (en) * | 1992-05-14 | 1999-12-15 | Mitsui Chemicals Inc | Ptp or blister packaging articles and packaging material therefor |
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CA573685A (en) * | 1959-04-07 | W. Anderson Arthur | Hydrocarbon polymer | |
US2883372A (en) * | 1957-03-14 | 1959-04-21 | Du Pont | Copolymers of ethylene and dihydrodicyclopentadiene |
JPS6026024A (en) * | 1983-07-21 | 1985-02-08 | Nippon Zeon Co Ltd | Optical material |
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CA573685A (en) * | 1959-04-07 | W. Anderson Arthur | Hydrocarbon polymer | |
US2883372A (en) * | 1957-03-14 | 1959-04-21 | Du Pont | Copolymers of ethylene and dihydrodicyclopentadiene |
JPS6026024A (en) * | 1983-07-21 | 1985-02-08 | Nippon Zeon Co Ltd | Optical material |
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US7662445B2 (en) | 2007-09-25 | 2010-02-16 | Fujifilm Corporation | Cyclic olefin-based copolymer, film, and polarizing plate and liquid crystal display device including the same |
Also Published As
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JPS61292601A (en) | 1986-12-23 |
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