JP2001031823A - Resin composition and laminate - Google Patents

Resin composition and laminate

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Publication number
JP2001031823A
JP2001031823A JP11205620A JP20562099A JP2001031823A JP 2001031823 A JP2001031823 A JP 2001031823A JP 11205620 A JP11205620 A JP 11205620A JP 20562099 A JP20562099 A JP 20562099A JP 2001031823 A JP2001031823 A JP 2001031823A
Authority
JP
Japan
Prior art keywords
evoh
ethylene
resin composition
mol
acid
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.)
Granted
Application number
JP11205620A
Other languages
Japanese (ja)
Other versions
JP4634555B2 (en
Inventor
Kenji Nimiya
賢二 仁宮
Masahiko Toyozumi
政彦 豊住
Hiroki Masumoto
博樹 増元
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Nippon Synthetic Chemical Industry Co Ltd
Original Assignee
Nippon Synthetic Chemical Industry Co Ltd
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Priority to JP20562099A priority Critical patent/JP4634555B2/en
Publication of JP2001031823A publication Critical patent/JP2001031823A/en
Application granted granted Critical
Publication of JP4634555B2 publication Critical patent/JP4634555B2/en
Anticipated expiration legal-status Critical
Expired - Lifetime legal-status Critical Current

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  • Compositions Of Macromolecular Compounds (AREA)
  • Laminated Bodies (AREA)

Abstract

PROBLEM TO BE SOLVED: To obtain the subject resin composition that shows excellent appear ance, gas-barrier properties and continuous moldability and is useful as a food- packaging material by using a saponified product of a specific ethylene-vinyl acetate copolymer. SOLUTION: The objective resin composition includes at least three kinds of saponified products of ethylene-vinyl acetate copolymer (A) through (C) and the components (A)-(C) satisfy the following formula: Et(C)>=Et(B)+3, Et(B) >=Et(A)+3, Tm(C)<=165 [Ets are each the ethylene content (in mole %) of the saponified products of ethylene-vinyl acetate copolymer; Tm is the fusing peak temperature in deg.C of the saponified product of ethylene-vinyl acetate at the heating rate of 10 deg.C/min in the differential scanning calorimeter. In addition, in individual components A through C, the ethylene content is adjusted to about 10-70 mol.%, while MFR (melt flow rate at 210 deg.C under the load of 2160 g) is adjusted to about 0.1-100 g/10 minutes.

Description

【発明の詳細な説明】DETAILED DESCRIPTION OF THE INVENTION

【0001】[0001]

【発明の属する技術分野】本発明は、エチレン−酢酸ビ
ニル共重合体ケン化物(以下、EVOHと略記する)の
ブレンド物(樹脂組成物)および積層体に関する。
The present invention relates to a blend (resin composition) of a saponified ethylene-vinyl acetate copolymer (hereinafter abbreviated as EVOH) and a laminate.

【0002】[0002]

【従来の技術】一般に、EVOHはその透明性、ガスバ
リア性、保香性、耐溶剤性、耐油性などに優れており、
かかる特性を生かして、食品包装材料、医薬品包装材
料、工業薬品包装材料、農薬包装材料等の各種包装材料
に用いられており、かかるEVOHは、その機械的強度
等の向上を目的として、加熱延伸処理されることも多
く、延伸性能も重要な要求性能となってくる。
2. Description of the Related Art In general, EVOH is excellent in transparency, gas barrier properties, fragrance retention, solvent resistance, oil resistance, and the like.
Utilizing such properties, it is used for various packaging materials such as food packaging materials, pharmaceutical packaging materials, industrial chemical packaging materials, agricultural chemical packaging materials, and the like. Such EVOH is heated and stretched for the purpose of improving its mechanical strength and the like. It is often processed, and the stretching performance is also an important required performance.

【0003】しかしながら、かかるEVOHは、ポリプ
ロピレンやポリスチレン等の熱可塑性樹脂に比べて加熱
延伸成形性に劣るため、かかる対策として、EVOHに
可塑剤を添加する方法(特開昭53−88067号公
報、特開昭59−20345号公報)やポリアミド系樹
脂をブレンドする方法(特開昭52−141785号公
報、特開昭58−36412号公報)などが提案されて
おり、また一方では、二種類以上の異なる組成のEVO
Hからなる樹脂組成物を用いる方法(特開昭61−47
52号公報、特開昭60−173038号公報、特開昭
63−196645号公報、特開昭63−230757
号公報、特開昭63−264656号公報、特開平2−
261847号公報)も提案されている。
However, such EVOH is inferior in heat drawability to thermoplastic resins such as polypropylene and polystyrene. As a countermeasure, a method of adding a plasticizer to EVOH (JP-A-53-88067, JP-A-59-20345) and a method of blending a polyamide resin (JP-A-52-141785 and JP-A-58-36412) have been proposed. EVO of different composition
H using a resin composition comprising H (JP-A-61-47)
No. 52, JP-A-60-173038, JP-A-63-196645, JP-A-63-230757
JP, JP-A-63-264656, JP-A-2-
261847) has also been proposed.

【0004】[0004]

【発明が解決しようとする課題】しかしながら、上記の
ブレンド物を本発明者が詳細に検討したところ、上記の
特開昭53−88067号公報や特開昭59−2034
5号公報の開示技術では、ガスバリア性が大幅に低下し
てしまい、また特開昭52−141785号公報や特開
昭58−36412号公報開示技術では、ロングラン溶
融成形性が低下してしまい。更に特開昭61−4752
号公報、特開昭60−173038号公報、特開昭63
−196645号公報、特開昭63−230757号公
報、特開昭63−264656号公報、特開平2−26
1847号公報の開示技術でも、加熱延伸成形性の向上
はある程度認められるものの、組成や構造の異なるEV
OHのブレンドであるためその相溶性は完全に均一なも
のではなく、押出条件や加熱延伸成形条件の振れによっ
て影響を受けやすく、フィルムやカップ、トレイ、ボト
ル等を連続で延伸成形する場合、不良品の発生が避けら
れないと言う問題点を有しており、加熱延伸成形時の外
観性、ガスバリア性、連続成形性に優れた樹脂組成物が
望まれるところである。
However, the inventor of the present invention has examined the above-mentioned blends in detail and found that the above-mentioned JP-A-53-88067 and JP-A-59-2034 have been disclosed.
In the technology disclosed in Japanese Patent Application Laid-Open No. 5-141, the gas barrier properties are significantly reduced, and in the technology disclosed in Japanese Patent Application Laid-Open Nos. 52-141785 and 58-36412, the long-run melt moldability is reduced. Further, JP-A-61-4752
JP, JP-A-60-173038, JP-A-63
-196645, JP-A-63-230575, JP-A-63-264656, JP-A-2-26
Even with the technology disclosed in Japanese Patent No. 1847, improvement in heat stretch formability is recognized to some extent, but EVs having different compositions and structures are different.
Since it is an OH blend, its compatibility is not completely uniform and is easily affected by fluctuations in extrusion conditions and heat-stretching molding conditions, and it is difficult to continuously stretch-mold films, cups, trays, bottles, etc. There is a problem that the generation of non-defective products is unavoidable, and a resin composition having excellent appearance, gas barrier properties, and continuous moldability at the time of hot stretch molding is desired.

【0005】[0005]

【課題を解決するための手段】そこで、本発明者は、か
かる現況に鑑みて鋭意研究を重ねた結果、少なくとも3
種のEVOH(A)〜(C)を含有してなり、且つかか
る3種のEVOH(A)〜(C)が下記の(1)〜
(3)式の条件を満足するとき、上記の目的を達成でき
ることを見出して本発明を完成するに至った。
Means for Solving the Problems Accordingly, the present inventor has conducted intensive studies in view of the present situation, and as a result, at least 3
Comprising three kinds of EVOHs (A) to (C), and the three kinds of EVOHs (A) to (C) are as follows:
When the condition of the expression (3) is satisfied, the inventors have found that the above object can be achieved, and have completed the present invention.

【0006】 Et(C)≧Et(B)+3 ・・・(1) Et(B)≧Et(A)+3 ・・・(2) Tm(C)≦165 ・・・(3) 但し、EtはそれぞれのEVOHのエチレン含有量(モ
ル%)、Tmは示差走査熱量計で測定(昇温速度10℃
/min)されるEVOHの融解ピーク温度(℃)を表
す。
Et (C) ≧ Et (B) +3 (1) Et (B) ≧ Et (A) +3 (2) Tm (C) ≦ 165 (3) where Et Is the ethylene content (mol%) of each EVOH, and Tm is measured with a differential scanning calorimeter (heating rate 10 ° C.
/ Min) represents the melting peak temperature (° C.) of EVOH.

【0007】尚、本発明においては、樹脂組成物に配合
される3種のEVOHを便宜的に(A)、(B)、
(C)としており、実際に配合される3種のEVOHと
(A)〜(C)との対応は少なくとも6種類の場合が想
定されるが、かかる6種類の場合の少なくとも1種類が
上記の(1)〜(3)式の条件を満足すればよいことは
勿論である。
In the present invention, three types of EVOH to be mixed in the resin composition are conveniently referred to as (A), (B),
(C), and it is assumed that there are at least six types of correspondence between the three types of EVOH actually mixed and (A) to (C), and at least one of the six types corresponds to the above-described case. It goes without saying that the conditions of the expressions (1) to (3) should be satisfied.

【0008】[0008]

【発明の実施の形態】以下に、本発明を詳細に述べる。
本発明の樹脂組成物は、上記の如く少なくとも3種のE
VOHを含有してなるもので、かかる3種のEVOHが
上記の(1)〜(3)式を満足すればよく、各々のEV
OHについては特に限定されることはないが、エチレン
含有量が10〜70モル%(更には20〜60モル%、
特には25〜55モル%)、ケン化度が85モル%以上
(更には90モル%以上、特には95モル%以上)のも
のが好ましく、該エチレン含有量が10モル%未満では
高湿時のガスバリア性、溶融成形性が低下し、逆に70
モル%を越えると充分なガスバリア性が得られず、更に
ケン化度が85モル%未満ではガスバリア性、熱安定
性、耐湿性等が低下して好ましくない。
BEST MODE FOR CARRYING OUT THE INVENTION Hereinafter, the present invention will be described in detail.
The resin composition of the present invention contains at least three types of E as described above.
VOH is contained, and it is sufficient that these three types of EVOH satisfy the above formulas (1) to (3).
OH is not particularly limited, but ethylene content is 10 to 70 mol% (further 20 to 60 mol%,
In particular, those having a degree of saponification of 85 mol% or more (more preferably 90 mol% or more, particularly 95 mol% or more) are preferable. The gas barrier properties and melt moldability of
If it exceeds mol%, sufficient gas barrier properties cannot be obtained, and if the saponification degree is less than 85 mol%, the gas barrier properties, thermal stability, moisture resistance, etc. decrease, which is not preferable.

【0009】また、該EVOHのメルトフローレート
(MFR)(210℃、荷重2160g)、特に限定は
されないが、0.1〜100g/10分(更には0.5
〜50g/10分、特には1〜30g/10分)が好ま
しく、該メルトフローレートが該範囲よりも小さい場合
には、成形時に押出機内が高トルク状態となって押出加
工が困難となる傾向にあり、また該範囲よりも大きい場
合には、加熱延伸成形時の外観性やガスバリア性が低下
する恐れがあり好ましくない。
The melt flow rate (MFR) of the EVOH (210 ° C., load 2160 g) is not particularly limited, but may be 0.1 to 100 g / 10 min (further 0.5 min.).
-50 g / 10 min, particularly 1-30 g / 10 min). When the melt flow rate is smaller than the above range, the inside of the extruder tends to be in a high torque state at the time of molding, and the extrusion process tends to be difficult. If it is larger than the above range, the appearance and the gas barrier properties at the time of heat stretching may be undesirably reduced.

【0010】該EVOHは、エチレン−酢酸ビニル共重
合体のケン化によって得られ、該エチレン−酢酸ビニル
共重合体は、公知の任意の重合法、例えば、溶液重合、
懸濁重合、エマルジョン重合などにより製造され、エチ
レン−酢酸ビニル共重合体のケン化も公知の方法で行い
得る。
The EVOH is obtained by saponifying an ethylene-vinyl acetate copolymer. The ethylene-vinyl acetate copolymer can be produced by any known polymerization method, for example, solution polymerization,
It is produced by suspension polymerization, emulsion polymerization, or the like, and saponification of an ethylene-vinyl acetate copolymer can also be performed by a known method.

【0011】また、本発明では、本発明の効果を阻害し
ない範囲で共重合可能なエチレン性不飽和単量体を共重
合していてもよく、かかる単量体としては、プロピレ
ン、1−ブテン、イソブテン等のオレフィン類、アクリ
ル酸、メタクリル酸、クロトン酸、(無水)フタル酸、
(無水)マレイン酸、(無水)イタコン酸等の不飽和酸
類あるいはその塩あるいは炭素数1〜18のモノまたは
ジアルキルエステル類、アクリルアミド、炭素数1〜1
8のN−アルキルアクリルアミド、N,N−ジメチルア
クリルアミド、2−アクリルアミドプロパンスルホン酸
あるいはその塩、アクリルアミドプロピルジメチルアミ
ンあるいはその酸塩あるいはその4級塩等のアクリルア
ミド類、メタクリルアミド、炭素数1〜18のN−アル
キルメタクリルアミド、N,N−ジメチルメタクリルア
ミド、2−メタクリルアミドプロパンスルホン酸あるい
はその塩、メタクリルアミドプロピルジメチルアミンあ
るいはその酸塩あるいはその4級塩等のメタクリルアミ
ド類、N−ビニルピロリドン、N−ビニルホルムアミ
ド、N−ビニルアセトアミド等のN−ビニルアミド類、
アクリルニトリル、メタクリルニトリル等のシアン化ビ
ニル類、炭素数1〜18のアルキルビニルエーテル、ヒ
ドロキシアルキルビニルエーテル、アルコキシアルキル
ビニルエーテル等のビニルエーテル類、塩化ビニル、塩
化ビニリデン、フッ化ビニル、フッ化ビニリデン、臭化
ビニル等のハロゲン化ビニル類、トリメトキシビニルシ
ラン等のビニルシラン類、酢酸アリル、塩化アリル、ア
リルアルコール、ジメチルアリルアルコール、トリメチ
ル−(3−アクリルアミド−3−ジメチルプロピル)−
アンモニウムクロリド、アクリルアミド−2−メチルプ
ロパンスルホン酸等が挙げられる。
In the present invention, a copolymerizable ethylenically unsaturated monomer may be copolymerized as long as the effects of the present invention are not impaired. Examples of such a monomer include propylene and 1-butene. , Olefins such as isobutene, acrylic acid, methacrylic acid, crotonic acid, (anhydrous) phthalic acid,
Unsaturated acids such as (anhydride) maleic acid and (anhydride) itaconic acid or salts thereof, mono- or dialkyl esters having 1 to 18 carbon atoms, acrylamide, 1 to 1 carbon atoms
8, acrylamides such as N-alkylacrylamide, N, N-dimethylacrylamide, 2-acrylamidopropanesulfonic acid or a salt thereof, acrylamidopropyldimethylamine or an acid salt thereof or a quaternary salt thereof, methacrylamide, having 1 to 18 carbon atoms Methacrylamides such as N-alkyl methacrylamide, N, N-dimethyl methacrylamide, 2-methacrylamidopropanesulfonic acid or a salt thereof, methacrylamidopropyldimethylamine or an acid salt thereof or a quaternary salt thereof, N-vinylpyrrolidone N-vinylamides such as, N-vinylformamide and N-vinylacetamide;
Vinyl cyanides such as acrylonitrile and methacrylonitrile; vinyl ethers such as alkyl vinyl ethers having 1 to 18 carbon atoms, hydroxyalkyl vinyl ethers and alkoxyalkyl vinyl ethers; vinyl chloride, vinylidene chloride, vinyl fluoride, vinylidene fluoride and vinyl bromide And vinylsilanes such as trimethoxyvinylsilane, allyl acetate, allyl chloride, allyl alcohol, dimethylallyl alcohol, trimethyl- (3-acrylamido-3-dimethylpropyl)-
Examples thereof include ammonium chloride and acrylamide-2-methylpropanesulfonic acid.

【0012】本発明の樹脂組成物は、上記の如きEVO
Hを少なくとも3種含有するものであるが、かかる3種
のEVOHが、下記の(1)〜(3)式を満足すること
が最大の特徴である。
[0012] The resin composition of the present invention comprises an EVO as described above.
Although it contains at least three types of H, the most characteristic feature is that these three types of EVOH satisfy the following equations (1) to (3).

【0013】 Et(C)≧Et(B)+3 ・・・(1) Et(B)≧Et(A)+3 ・・・(2) Tm(C)≦165 ・・・(3) 但し、EtはそれぞれのEVOHのエチレン含有量(モ
ル%)、Tmは示差走査熱量計で測定(昇温速度10℃
/min)されるEVOHの融解ピーク温度(℃)を表
す。
Et (C) ≧ Et (B) +3 (1) Et (B) ≧ Et (A) +3 (2) Tm (C) ≦ 165 (3) where Et Is the ethylene content (mol%) of each EVOH, and Tm is measured with a differential scanning calorimeter (heating rate 10 ° C.
/ Min) represents the melting peak temperature (° C.) of EVOH.

【0014】本発明の樹脂組成物においては、上記の
(1)〜(3)式の条件を共に満足することが必要で、
(1)及び(2)式において、EVOH(A)〜(C)
のエチレン含有量の差がそれぞれ3モル%以上でないと
きは、加熱延伸成形時の外観性や連続成形性が劣って本
発明の目的を達成することができず、更に好ましくは、
(1)式がEt(C)≧Et(B)+4、(2)式がE
t(B)≧Et(A)+4で、特に好ましくは、(1)
式がEt(C)≧Et(B)+5、(2)式がEt
(B)≧Et(A)+5である。また、(3)式におい
て、EVOH(C)の融解ピーク温度が165℃を越え
ると、加熱延伸成形時の成形物の外観性が劣り本発明の
目的を達成することができず、更に好ましくは、120
≦Tm(C)≦165、特に好ましくは、130≦Tm
(C)≦155である。尚、EVOH(A)及び(B)
の融解ピーク温度(Tm)は、特に限定されないが、高
いガスバリア性が得られる点で通常は165℃を越える
ものが好適に用いられる。
In the resin composition of the present invention, it is necessary to satisfy all of the above-mentioned conditions (1) to (3).
In the formulas (1) and (2), EVOH (A) to (C)
When the difference in the ethylene content of each is not more than 3 mol%, the object of the present invention cannot be achieved due to poor appearance and continuous moldability at the time of heat stretching molding, and more preferably,
Equation (1) is Et (C) ≧ Et (B) +4, Equation (2) is E
t (B) ≧ Et (A) +4, and particularly preferably (1)
The equation is Et (C) ≧ Et (B) +5, and the equation (2) is Et
(B) ≧ Et (A) +5. In the formula (3), if the melting peak temperature of EVOH (C) exceeds 165 ° C., the appearance of the molded product during the heat-stretch molding is inferior, and the object of the present invention cannot be achieved. , 120
≤ Tm (C) ≤ 165, particularly preferably 130 ≤ Tm
(C) ≦ 155. EVOH (A) and (B)
The melting peak temperature (Tm) of is not particularly limited, but a temperature exceeding 165 ° C. is usually preferably used in that a high gas barrier property is obtained.

【0015】上記の(1)及び(2)式を満足させるた
めには、エチレン含有量の差が該(1)及び(2)式を
満足する(それぞれのエチレン含有量の差を3モル%以
上とする)ように選択すればよく、また、上記の(3)
式を満足するようにEVOHの融解ピーク温度を調整す
るに当たっては、特に限定はされないが、EVOHの
製造時のケン化反応を調整してアセチル基を一定量残存
させる方法、EVOHを無水酢酸等で再酢化する方
法、EVOHを過酸化水素等で酸化分解する方法、
EVOHを炭素数1〜18程度の脂肪族カルボン酸やそ
のエステル、アミド等で変性する方法、EVOHに多
価アルコール(ポリグリセリン、トリメチロールプロパ
ン、ソルビトール、ペンタエリスリトール等)を配合す
る方法、等を挙げることができ、工業上実用的にはの
方法が好適に採用されうる。
In order to satisfy the above formulas (1) and (2), the difference between the ethylene contents satisfies the formulas (1) and (2) (the difference between the respective ethylene contents is 3 mol%). Above) and the above (3)
In adjusting the melting peak temperature of EVOH so as to satisfy the formula, there is no particular limitation, but a method of adjusting a saponification reaction during the production of EVOH so that a certain amount of acetyl groups remain, and EVOH is treated with acetic anhydride or the like. Re-vinegarization method, EVOH oxidative decomposition with hydrogen peroxide, etc.,
A method of modifying EVOH with an aliphatic carboxylic acid having about 1 to 18 carbon atoms, an ester thereof, an amide, and the like, a method of blending a polyhydric alcohol (polyglycerin, trimethylolpropane, sorbitol, pentaerythritol, etc.) with EVOH, and the like. Industrially practical methods can be suitably employed.

【0016】本発明の樹脂組成物を得るに当たっては、
上記の条件を満足するように少なくとも3種のEVOH
を選択してブレンドすれば良く、ブレンドするEVOH
のそれぞれの配合量については、特に制限はないが、
(A)/(B)の配合重量比は95/5〜5/95(更
には90/10〜10/90)が好ましく、かかる重量
比が95/5を越えるときや逆に5/95未満のときは
加熱延伸成形時の連続成形性が不充分となることがあり
好ましくない。また、(C)の量は、(A)と(B)の
合計量(A+B)との関係において、(A+B)/
(C)の配合重量比を95/5〜50/50(更には9
0/10〜60/40)とすることが好ましく、かかる
重量比が95/5を越えるときは、加熱延伸成形時の成
形物の外観性が劣ることがあり、逆に50/50未満の
ときは、加熱延伸成形時の成形物のガスバリア性が不充
分となることがあり好ましくない。
In obtaining the resin composition of the present invention,
At least three types of EVOH so as to satisfy the above conditions
EVOH to be blended
There are no particular restrictions on the amount of each,
The compounding weight ratio of (A) / (B) is preferably 95/5 to 5/95 (more preferably 90/10 to 10/90), and when the weight ratio exceeds 95/5 or conversely, less than 5/95. In such a case, the continuous formability at the time of heat stretching may be insufficient, which is not preferable. Further, the amount of (C) is (A + B) / (A + B) in relation to the total amount (A + B) of (A) and (B).
The compounding weight ratio of (C) is 95/5 to 50/50 (further 9
0/10 to 60/40), and when the weight ratio exceeds 95/5, the appearance of the molded product during heat stretching may be poor. Conversely, when the weight ratio is less than 50/50, Is not preferable because the gas barrier property of the molded product during the heat stretching molding may be insufficient.

【0017】また、ブレンド方法としては、特に限定さ
れず、各EVOHを水−アルコールやジメチルスルフォ
キサイド等の溶剤に溶解して溶液状態で混合する方法、
各EVOHのケン化前のエチレン−酢酸ビニル系共重合
体をメタノール等のアルコール溶媒に溶解した状態で混
合して同時にケン化する方法、あるいは各EVOHを溶
融混合する方法などが挙げられるが、通常は溶融混合す
る方法が採用される。
The blending method is not particularly limited, and a method of dissolving each EVOH in a solvent such as water-alcohol or dimethyl sulfoxide and mixing in a solution state.
A method in which the ethylene-vinyl acetate copolymer before saponification of each EVOH is dissolved in an alcohol solvent such as methanol and mixed and then saponified at the same time, or a method in which each EVOH is melt-mixed, is usually used. Employs a method of melt-mixing.

【0018】溶融混合における手段としては、例えば、
ニーダールーダー、押出機、ミキシングロール、バンバ
リーミキサー、プラストミルなどの公知の混練装置を使
用して行うことができるが、通常は単軸又は二軸の押出
機を用いることが工業上好ましく、また、必要に応じ
て、ベント吸引装置、ギヤポンプ装置、スクリーン装置
等を設けることも好ましい。特に、水分や副生成物(熱
分解低分子量物等)を除去するために、押出機に1個以
上のベント孔を設けて減圧下に吸引したり、押出機中へ
の酸素の混入を防ぐために、ホッパー内に窒素等の不活
性ガスを連続的に供給したりすることにより、熱着色や
熱劣化が軽減された品質の優れた樹脂組成物を得ること
ができる。
As means for melt mixing, for example,
Known kneading equipment such as a kneader ruder, an extruder, a mixing roll, a Banbury mixer, and a plast mill can be used.However, it is usually industrially preferable to use a single-screw or twin-screw extruder. It is also preferable to provide a vent suction device, a gear pump device, a screen device, and the like according to the requirements. In particular, the extruder is provided with one or more vent holes to remove water and by-products (such as pyrolyzed low-molecular-weight products), and suction is performed under reduced pressure, and mixing of oxygen into the extruder is prevented. For example, by supplying an inert gas such as nitrogen continuously into the hopper, it is possible to obtain a resin composition of excellent quality with reduced thermal coloring and thermal deterioration.

【0019】また、供給方法についても特に限定され
ず、イ)各EVOHを押出機に供給する前に予めブレン
ド(前述の溶液混合やケン化前混合等)しておく方法、
ロ)各EVOHをドライブレンドして一括して押出機に
供給する方法、ハ)1種以上のEVOHを押出機に供給
して溶融させたところに固体状の他のEVOHを供給す
る方法(ソリッドサイドフィード法)、ニ)1種以上の
EVOHを押出機に供給して溶融させたところに溶融状
態の他のEVOHを供給する方法(メルトサイドフィー
ド法)等を挙げることができるが、中でも、ロ)の方法
が装置の簡便さ、ブレンド物のコスト面等で工業上実用
的である。
The supply method is not particularly limited either. A) A method in which each EVOH is preliminarily blended (the above-described solution mixing or pre-saponification mixing) before being supplied to the extruder.
B) a method of dry blending each EVOH and supplying it to the extruder collectively; c) a method of supplying one or more EVOHs to the extruder and supplying another EVOH in a solid state where the EVOH is melted (solid) Side feed method), d) a method in which one or more EVOHs are fed to an extruder and melted and then another EVOH in a molten state is supplied (melt side feed method). The method of b) is industrially practical because of the simplicity of the apparatus and the cost of the blend.

【0020】本発明においては、かかる樹脂組成物中に
酢酸、ホウ酸、リン酸等の酸類やそのアルカリ金属、ア
ルカリ土類金属、遷移金属等の金属塩を含有させること
も、樹脂組成物の熱安定性、ロングラン成形性、積層体
としたときの接着性樹脂との層間接着性、加熱延伸成形
性等が向上する点で好ましく、特にホウ酸、アルカリ金
属塩、アルカリ土類金属塩がその効果に優れる点で好ま
しく用いられる。
In the present invention, the resin composition may contain an acid such as acetic acid, boric acid or phosphoric acid, or a metal salt thereof such as an alkali metal, an alkaline earth metal or a transition metal. Heat stability, long run moldability, interlayer adhesion with the adhesive resin when formed into a laminate, heat stretch moldability and the like are preferred, and boric acid, alkali metal salts, and alkaline earth metal salts are particularly preferred. It is preferably used because of its excellent effect.

【0021】ホウ酸の含有量としては、樹脂組成物に対
してホウ素換算で10〜10000ppm(更には20
〜2000ppm、特には50〜1000ppm)とす
ることが好ましく、かかるホウ素の含有量が10ppm
未満ではその含有効果が充分得られないことがあり、逆
に10000ppmを越えると得られる成形物の外観が
悪化して好ましくない。
The content of boric acid is from 10 to 10000 ppm (furthermore, 20 ppm) in terms of boron with respect to the resin composition.
2,000 ppm, particularly 50-1000 ppm), and the boron content is 10 ppm.
If it is less than 1, the effect of its content may not be sufficiently obtained, while if it exceeds 10,000 ppm, the appearance of the obtained molded product is undesirably deteriorated.

【0022】また、かかる金属塩としては、ナトリウ
ム、カリウム、カルシウム、マグネシウム等の、酢酸、
プロピオン酸、酪酸、ラウリル酸、ステアリン酸、オレ
イン酸、ベヘニン酸等の有機酸や、硫酸、亜硫酸、炭
酸、ホウ酸、リン酸等の無機酸の金属塩が挙げられ、好
適には酢酸塩、ホウ酸塩、リン酸塩、リン酸水素塩であ
る。また、該金属塩の含有量としては、樹脂組成物に対
して金属換算で5〜1000ppm(更には10〜50
0ppm、特には20〜300ppm)とすることが好
ましく、かかる含有量が5ppm未満ではその含有効果
が充分得られないことがあり、逆に1000ppmを越
えると得られる成形物の外観が悪化して好ましくない。
尚、樹脂組成物中に2種以上のアルカリ金属及び/又は
アルカリ土類金属の塩が含有される場合は、その総計が
上記の含有量の範囲にあることが好ましい。
Examples of such metal salts include acetic acid such as sodium, potassium, calcium, and magnesium.
Organic acids such as propionic acid, butyric acid, lauric acid, stearic acid, oleic acid, and behenic acid, and sulfuric acid, sulfurous acid, carbonic acid, boric acid, and metal salts of inorganic acids such as phosphoric acid. Borates, phosphates and hydrogen phosphates. The content of the metal salt is 5 to 1000 ppm (more preferably 10 to 50 ppm) in terms of metal relative to the resin composition.
0 ppm, particularly preferably 20 to 300 ppm). When the content is less than 5 ppm, the content effect may not be sufficiently obtained. Absent.
When two or more kinds of alkali metal and / or alkaline earth metal salts are contained in the resin composition, the total amount is preferably in the above range.

【0023】樹脂組成物中に酸類やその金属塩を含有さ
せる方法については、特に限定されず、予め1種以上の
EVOHに含有させておいたり、各EVOHのブレンド
時に同時に含有させたり、各EVOHのブレンド後の樹
脂組成物に含有させたり、これらの方法を組み合わせた
りすることができる。本発明の効果をより顕著に得るた
めには、予め1種以上のEVOHに含有させておく方法
が、酸類やその金属塩の分散性に優れる点で好ましい。
The method for incorporating acids or metal salts thereof into the resin composition is not particularly limited, and may be previously contained in one or more EVOHs, may be simultaneously contained at the time of blending each EVOH, or may be contained in each EVOH. Can be contained in the resin composition after blending, or these methods can be combined. In order to obtain the effects of the present invention more remarkably, a method in which one or more kinds of EVOH are contained in advance is preferable in terms of excellent dispersibility of acids and metal salts thereof.

【0024】予め1種以上のEVOHに含有させておく
方法としては、ア)含水率20〜80重量%のEVOH
の多孔性析出物を、酸類やその金属塩の水溶液と接触さ
せて、酸類やその金属塩を含有させてから乾燥する方
法、イ)EVOHの均一溶液(水/アルコール溶液等)
に酸類やその金属塩を含有させた後、凝固液中にストラ
ンド状に押し出し、次いで得られたストランドを切断し
てペレットとして、更に乾燥処理をする方法、ウ)EV
OHと酸類やその金属塩を一括して混合してから押出機
等で溶融混練する方法、エ)EVOHの製造時におい
て、ケン化工程で使用したアルカリ(水酸化ナトリウ
ム、水酸化カリウム等)を酢酸等の酸類で中和して、残
存する酢酸等の酸類や副生成する酢酸ナトリウム、酢酸
カリウム等のアルカリ金属塩の量を水洗処理により調整
したりする方法等を挙げることができる。本発明の効果
をより顕著に得るためには、酸類やその金属塩の分散性
に優れるア)、イ)またはエ)の方法が好ましい。
As a method of preliminarily containing one or more EVOHs, a) EVOH having a water content of 20 to 80% by weight is used.
Contacting an aqueous solution of an acid or a metal salt thereof with an aqueous solution of an acid or a metal salt thereof, followed by drying after containing the acid or a metal salt thereof; a) a uniform solution of EVOH (a water / alcohol solution, etc.)
A method of extruding a strand into a coagulating liquid after containing an acid or a metal salt thereof, cutting the obtained strand into pellets, and subjecting the strands to a drying treatment, and c) EV
A method in which OH and acids and their metal salts are mixed at once and then melt-kneaded with an extruder or the like; d) In the production of EVOH, the alkali (sodium hydroxide, potassium hydroxide, etc.) used in the saponification step is removed. A method of neutralizing with an acid such as acetic acid and adjusting the amount of remaining acids such as acetic acid and by-produced alkali metal salts such as sodium acetate and potassium acetate by washing with water can be mentioned. In order to obtain the effect of the present invention more remarkably, the method a), a) or d), which is excellent in dispersibility of acids and metal salts thereof, is preferable.

【0025】かくして本発明の樹脂組成物が得られるの
であるが、本発明においては、本発明の目的を阻害しな
い範囲において、かかる樹脂組成物に、飽和脂肪族アミ
ド(例えばステアリン酸アミド等)、不飽和脂肪酸アミド
(例えばオレイン酸アミド等)、ビス脂肪酸アミド(例え
ばエチレンビスステアリン酸アミド等)、脂肪酸金属塩
(例えばステアリン酸カルシウム、ステアリン酸マグネ
シウム等)、低分子量ポリオレフィン(例えば分子量50
0〜10,000程度の低分子量ポリエチレン、又は低
分子量ポリプロピレン等)などの滑剤、無機塩(例えば
ハイドロタルサイト等)、可塑剤(例えばエチレングリ
コール、グリセリン、ヘキサンジオール等の脂肪族多価
アルコールなど)、酸素吸収剤(例えば無機系酸素吸収
剤として、還元鉄粉類、さらにこれに吸水性物質や電解
質等を加えたもの、アルミニウム粉、亜硫酸カリウム、
光触媒酸化チタン等が、有機化合物系酸素吸収剤とし
て、アスコルビン酸、さらにその脂肪酸エステルや金属
塩等、ハイドロキノン、没食子酸、水酸基含有フェノー
ルアルデヒド樹脂等の多価フェノール類、ビス−サリチ
ルアルデヒド−イミンコバルト、テトラエチレンペンタ
ミンコバルト、コバルト−シッフ塩基錯体、ポルフィリ
ン類、大環状ポリアミン錯体、ポリエチレンイミン−コ
バルト錯体等の含窒素化合物と遷移金属との配位結合
体、テルペン化合物、アミノ酸類とヒドロキシル基含有
還元性物質の反応物、トリフェニルメチル化合物等が、
高分子系酸素吸収剤として、窒素含有樹脂と遷移金属と
の配位結合体(例:MXDナイロンとコバルトの組合
せ)、三級水素含有樹脂と遷移金属とのブレンド物
(例:ポリプロピレンとコバルトの組合せ)、炭素−炭
素不飽和結合含有樹脂と遷移金属とのブレンド物(例:
ポリブタジエンとコバルトの組合せ)、光酸化崩壊性樹
脂(例:ポリケトン)、アントラキノン重合体(例:ポ
リビニルアントラキノン)等や、さらにこれらの配合物
に光開始剤(ベンゾフェノン等)や過酸化物補足剤(市
販の酸化防止剤等)や消臭剤(活性炭等)を添加したも
のなど)、熱安定剤、光安定剤、酸化防止剤、紫外線吸
収剤、着色剤、帯電防止剤、界面活性剤、抗菌剤、アン
チブロッキング剤、スリップ剤、充填材(例えば無機フ
ィラー等)、他樹脂(例えばポリオレフィン、ポリアミ
ド等)等を配合しても良い。
Thus, the resin composition of the present invention is obtained. In the present invention, a saturated aliphatic amide (eg, stearic acid amide, etc.), Unsaturated fatty acid amide
(E.g., oleic acid amide), bisfatty acid amide (e.g., ethylenebisstearic acid amide), fatty acid metal salt
(E.g., calcium stearate, magnesium stearate, etc.), low molecular weight polyolefin (e.g.,
Lubricants such as low molecular weight polyethylene of about 0 to about 10,000 or low molecular weight polypropylene, etc., inorganic salts (eg, hydrotalcite), plasticizers (eg, aliphatic polyhydric alcohols such as ethylene glycol, glycerin, hexanediol, etc.) ), Oxygen absorbers (for example, as an inorganic oxygen absorber, reduced iron powders, which are further added with a water-absorbing substance or electrolyte, aluminum powder, potassium sulfite,
Photocatalytic titanium oxide or the like, as an organic compound-based oxygen absorber, ascorbic acid, furthermore, a fatty acid ester or a metal salt thereof, hydroquinone, gallic acid, polyhydric phenols such as a hydroxyl group-containing phenol aldehyde resin, bis-salicylaldehyde-imine cobalt Coordination conjugate of a transition metal with a nitrogen-containing compound such as tetraethylenepentamine cobalt, cobalt-Schiff base complex, porphyrin, macrocyclic polyamine complex, polyethyleneimine-cobalt complex, terpene compound, amino acid and hydroxyl group-containing A reactant of a reducing substance, a triphenylmethyl compound,
As a polymer-based oxygen absorbent, a coordination bond between a nitrogen-containing resin and a transition metal (eg, a combination of MXD nylon and cobalt), and a blend of a tertiary hydrogen-containing resin with a transition metal (eg, polypropylene and cobalt) Combinations), blends of carbon-carbon unsaturated bond-containing resins and transition metals (eg:
A combination of polybutadiene and cobalt), a photo-oxidatively disintegrating resin (eg, polyketone), an anthraquinone polymer (eg, polyvinyl anthraquinone), and the like, and a photoinitiator (benzophenone, etc.) or a peroxide supplement ( Commercially available antioxidants, etc.) and deodorants (such as activated carbon), heat stabilizers, light stabilizers, antioxidants, ultraviolet absorbers, coloring agents, antistatic agents, surfactants, antibacterial Agents, anti-blocking agents, slip agents, fillers (eg, inorganic fillers, etc.), and other resins (eg, polyolefins, polyamides, etc.).

【0026】かくして得られた本発明の樹脂組成物は、
加熱延伸成形時の外観性、ガスバリア性、連続成形性に
優れ、勿論単層として各種用途に用いることは可能であ
るが、積層体としても有用で、特に該樹脂組成物からな
る層の少なくとも片面に熱可塑性樹脂層を積層してなる
積層体として用いることが好ましく、耐水性、機械的特
性、ヒートシール性等が付与された実用に適した積層体
が得られる。
The resin composition of the present invention thus obtained is
It is excellent in appearance, gas barrier properties and continuous moldability at the time of heat stretching and can be used as a single layer for various applications. However, it is also useful as a laminate, especially at least one side of a layer made of the resin composition. It is preferably used as a laminate obtained by laminating a thermoplastic resin layer on the substrate, and a laminate suitable for practical use having water resistance, mechanical properties, heat sealing properties, and the like is obtained.

【0027】該積層体は、本発明の樹脂組成物を用いて
いるため、加熱延伸成形時の外観性、ガスバリア性、連
続成形性に非常に優れた効果を示すものである。以下に
かかる積層体について説明する。
Since the laminate uses the resin composition of the present invention, it exhibits extremely excellent effects on appearance, gas barrier properties, and continuous moldability during heat stretching. The following describes the laminate.

【0028】該積層体を製造するに当たっては、本発明
の樹脂組成物の片面又は両面に、他の基材(熱可塑性樹
脂等)を積層するのであるが、積層方法としては、例え
ば本発明の樹脂組成物のフィルム、シート等に他の基材
を溶融押出ラミネートする方法、逆に他の基材に該EV
OHを溶融押出ラミネートする方法、該EVOHと他の
基材とを共押出する方法、本発明の樹脂組成物(層)と
他の基材(層)とを有機チタン化合物、イソシアネート
化合物、ポリエステル系化合物、ポリウレタン化合物等
の公知の接着剤を用いてドライラミネートする方法等が
挙げられる。上記の溶融押し出し時の溶融成形温度は、
150〜300℃の範囲から選ぶことが多い。
In producing the laminate, another substrate (a thermoplastic resin or the like) is laminated on one or both sides of the resin composition of the present invention. A method in which another substrate is melt-extruded and laminated on a resin composition film, sheet, or the like.
OH melt extrusion lamination, EVOH and other substrate co-extrusion, resin composition (layer) of the present invention and other substrate (layer) are treated with organic titanium compound, isocyanate compound, polyester A dry lamination method using a known adhesive such as a compound or a polyurethane compound may be used. The melt molding temperature during the above melt extrusion is
It is often selected from the range of 150 to 300 ° C.

【0029】かかる他の基材としては、熱可塑性樹脂が
有用で、具体的には、直鎖状低密度ポリエチレン、低密
度ポリエチレン、超低密度ポリエチレン、中密度ポリエ
チレン、高密度ポリエチレン、エチレン−酢酸ビニル共
重合体、アイオノマー、エチレン−プロピレン(ブロッ
クおよびランダム)共重合体、エチレン−アクリル酸共
重合体、エチレン−アクリル酸エステル共重合体、ポリ
プロピレン、プロピレン−α−オレフィン(炭素数4〜
20のα−オレフィン)共重合体、ポリブテン、ポリペ
ンテン等のオレフィンの単独又は共重合体、或いはこれ
らのオレフィンの単独又は共重合体を不飽和カルボン酸
又はそのエステルでグラフト変性したものなどの広義の
ポリオレフィン系樹脂、ポリエステル系樹脂、ポリアミ
ド系樹脂(共重合ポリアミドも含む)、ポリ塩化ビニ
ル、ポリ塩化ビニリデン、アクリル系樹脂、ポリスチレ
ン、ビニルエステル系樹脂、ポリエステルエラストマ
ー、ポリウレタンエラストマー、塩素化ポリエチレン、
塩素化ポリプロピレン、芳香族または脂肪族ポリケト
ン、更にこれらを還元して得られるポリアルコール類、
更には他のEVOH等が挙げられるが、積層体の物性
(特に強度)等の実用性の点から、ポリプロピレン、エ
チレン−プロピレン(ブロックまたはランダム)共重合
体、ポリアミド、ポリエチレン、エチレン−酢酸ビニル
共重合体、ポリスチレン、ポリエチレンテレフタレート
(PET)、ポリエチレンナフタレート(PEN)が好
ましく用いられる。
As such another substrate, a thermoplastic resin is useful, and specifically, linear low density polyethylene, low density polyethylene, ultra low density polyethylene, medium density polyethylene, high density polyethylene, ethylene-acetic acid Vinyl copolymer, ionomer, ethylene-propylene (block and random) copolymer, ethylene-acrylic acid copolymer, ethylene-acrylic ester copolymer, polypropylene, propylene-α-olefin (having 4 to 4 carbon atoms)
20 α-olefin) copolymers, polybutenes, polypentenes, and other olefin homopolymers or copolymers, or those obtained by graft-modifying the olefin homopolymers or copolymers with unsaturated carboxylic acids or esters thereof. Polyolefin resin, polyester resin, polyamide resin (including copolymerized polyamide), polyvinyl chloride, polyvinylidene chloride, acrylic resin, polystyrene, vinyl ester resin, polyester elastomer, polyurethane elastomer, chlorinated polyethylene,
Chlorinated polypropylene, aromatic or aliphatic polyketones, polyalcohols obtained by further reducing these,
Further, other EVOHs and the like can be mentioned, but from the viewpoint of practicality such as physical properties (particularly strength) of the laminate, polypropylene, ethylene-propylene (block or random) copolymer, polyamide, polyethylene, ethylene-vinyl acetate copolymer, etc. Polymer, polystyrene, polyethylene terephthalate (PET) and polyethylene naphthalate (PEN) are preferably used.

【0030】更に、本発明の樹脂組成物のフィルムやシ
ート等の成形物に他の基材を押出コートしたり、他の基
材のフィルム、シート等を接着剤を用いてラミネートす
る場合、かかる基材としては、前記の熱可塑性樹脂以外
に任意の基材(紙、金属箔、一軸又は二軸延伸プラスチ
ックフィルム又はシートおよびその無機物蒸着物、織
布、不織布、金属綿状、木質等)が使用可能である。
Further, when a molded product such as a film or sheet of the resin composition of the present invention is extrusion-coated with another substrate, or when a film or sheet of another substrate is laminated with an adhesive, such a case is required. As the substrate, any substrate (paper, metal foil, uniaxially or biaxially stretched plastic film or sheet and inorganic deposits thereof, woven fabric, nonwoven fabric, metal flocculent, woody, etc.) other than the above-mentioned thermoplastic resin can be used. Can be used.

【0031】積層体の層構成は、本発明の樹脂組成物の
層をa(a1、a2、・・・)、他の基材、例えば熱可塑
性樹脂層をb(b1、b2、・・・)とするとき、フィル
ム、シート、ボトル状であれば、a/bの二層構造のみ
ならず、b/a/b、a/b/a、a1/a2/b、a/
1/b2、b2/b1/a/b1/b2、b2/b1/a/b
1/a/b1/b2等任意の組み合わせが可能であり、さ
らには、少なくともEVOHと熱可塑性樹脂の混合物か
らなるリグラインド層をRとするとき、b/R/a、b
/R/a/b、b/R/a/R/b、b/a/R/a/
b、b/R/a/R/a/R/b等とすることも可能で
あり、フィラメント状ではa、bがバイメタル型、芯
(a)−鞘(b)型、芯(b)−鞘(a)型、或いは偏
心芯鞘型等任意の組み合わせが可能である。尚、上記の
層構成において、それぞれの層間には、必要に応じて接
着性樹脂層を設けることができ、かかる接着性樹脂とし
ては、種々のものを使用することもでき、延伸性に優れ
た積層体が得られる点で好ましく、bの樹脂の種類によ
って異なり一概に言えないが、不飽和カルボン酸または
その無水物をオレフィン系重合体(上述の広義のポリオ
レフィン系樹脂)に付加反応やグラフト反応等により化
学的に結合させて得られるたカルボキシル基を含有する
変性オレフィン系重合体を挙げることができ、具体的に
は、無水マレイン酸グラフト変性ポリエチレン、無水マ
レイン酸グラフト変性ポリプロピレン、無水マレイン酸
グラフト変性エチレン−プロピレン(ブロックおよびラ
ンダム)共重合体、無水マレイン酸グラフト変性エチレ
ン−エチルアクリレート共重合体、無水マレイン酸グラ
フト変性エチレン−酢酸ビニル共重合体等から選ばれた
1種または2種以上の混合物が好適なものとして挙げら
れる。このときの、熱可塑性樹脂に含有される不飽和カ
ルボン酸又はその無水物の量は、0.001〜3重量%
が好ましく、更に好ましくは0.01〜1重量%、特に
好ましくは0.03〜0.5重量%である。該変性物中
の変性量が少ないと、接着性が不充分となることがあ
り、逆に多いと架橋反応を起こし、成形性が悪くなるこ
とがあり好ましくない。またこれらの接着性樹脂には、
本発明の樹脂組成物や他のEVOH、ポリイソブチレ
ン、エチレン−プロピレンゴム等のゴム・エラストマー
成分、更にはb層の樹脂等をブレンドすることも可能で
ある。特に、接着性樹脂の母体のポリオレフィン系樹脂
と異なるポリオレフィン系樹脂をブレンドすることによ
り、接着性が向上することがあり有用である。
The layer structure of the laminate is such that a layer of the resin composition of the present invention is a (a 1 , a 2 ,...) And another base material, for example, a thermoplastic resin layer is b (b 1 , b 2) when the...), a film, a sheet, if a bottle shape, not only the double layer structure of a / b, b / a / b, a / b / a, a 1 / a 2 / b, a /
b 1 / b 2, b 2 / b 1 / a / b 1 / b 2, b 2 / b 1 / a / b
Any combination such as 1 / a / b 1 / b 2 is possible. Further, when R is a regrind layer made of a mixture of EVOH and a thermoplastic resin, b / R / a, b
/ R / a / b, b / R / a / R / b, b / a / R / a /
It is also possible to use b, b / R / a / R / a / R / b, etc. In the filament form, a and b are bimetal type, core (a) -sheath (b) type, core (b)- Any combination such as a sheath (a) type or an eccentric core-sheath type is possible. In the above-described layer configuration, an adhesive resin layer can be provided between the respective layers as necessary, and various adhesive resins can be used, and the adhesive resin has excellent stretchability. It is preferable in that a laminate can be obtained. Although it differs depending on the type of the resin b and cannot be said unconditionally, an addition reaction or a graft reaction of an unsaturated carboxylic acid or an anhydride thereof to an olefin polymer (the above-mentioned polyolefin resin in a broad sense). Examples thereof include a modified olefin polymer containing a carboxyl group obtained by chemically bonding them with, for example, maleic anhydride-grafted polyethylene, maleic anhydride-grafted polypropylene, and maleic anhydride-grafted. Modified ethylene-propylene (block and random) copolymer, maleic anhydride graft-modified ethylene-d Le acrylate copolymer, maleic anhydride graft-modified ethylene anhydride - one or a mixture of two or more species selected from vinyl acetate copolymers and the like as preferred. At this time, the amount of the unsaturated carboxylic acid or its anhydride contained in the thermoplastic resin is 0.001 to 3% by weight.
Is preferably 0.01 to 1% by weight, particularly preferably 0.03 to 0.5% by weight. If the amount of modification in the modified product is small, the adhesiveness may be insufficient, while if it is large, a crosslinking reaction may occur, and moldability may deteriorate, which is not preferable. In addition, these adhesive resins include
It is also possible to blend the resin composition of the present invention, other rubber / elastomer components such as EVOH, polyisobutylene, and ethylene-propylene rubber, and also the resin of layer b. In particular, blending a polyolefin-based resin different from the base polyolefin-based resin of the adhesive resin is useful because the adhesiveness may be improved.

【0032】積層体の各層の厚みは、層構成、bの種
類、用途や容器形態、要求される物性などにより一概に
言えないが、通常は、a層は5〜500μm(更には1
0〜200μm)、b層は10〜5000μm(更には
30〜1000μm)、接着性樹脂層は5〜400μm
(更には10〜150μm)程度の範囲から選択され
る。
The thickness of each layer of the laminate cannot be specified unconditionally depending on the layer constitution, the type of b, the use and the form of the container, the required physical properties, and the like.
0 to 200 μm), the b layer is 10 to 5000 μm (further 30 to 1000 μm), and the adhesive resin layer is 5 to 400 μm
(Further 10 to 150 μm).

【0033】該積層体は、そのまま各種形状のものに使
用されるが、前述のように、本発明の樹脂組成物は加熱
延伸成形時の外観性、ガスバリア性、連続成形性に優れ
ているので、更に該積層体の物性を改善するためには加
熱延伸処理を施すことも好ましい。ここで加熱延伸処理
とは、熱的に均一に加熱されたフィルム、シート、パリ
ソン状の積層体をチャック、プラグ、真空力、圧空力、
ブローなどにより、カップ、トレイ、チューブ、ボト
ル、フィルム状に均一に成形する操作を意味し、かかる
延伸については、一軸延伸、二軸延伸のいずれであって
もよく、できるだけ高倍率の延伸を行ったほうが物性的
に良好で、延伸時にピンホールやクラック、延伸ムラや
偏肉、デラミ等の生じない、ガスバリア性に優れた延伸
成形物が得られる。
The laminate is used as it is in various shapes, but as described above, the resin composition of the present invention is excellent in appearance, gas barrier properties and continuous moldability during heat stretching. In order to further improve the physical properties of the laminate, it is preferable to perform a heat stretching treatment. Here, the heat-stretching treatment means that a film, a sheet, and a parison-like laminate that are thermally uniformly heated are chucked, a plug, a vacuum force, a pneumatic force,
This means an operation of uniformly forming a cup, tray, tube, bottle, or film by blowing or the like. Such stretching may be either uniaxial stretching or biaxial stretching, and is performed at the highest possible magnification. In this case, a stretch molded article having better gas barrier properties, which has better physical properties and does not cause pinholes, cracks, uneven stretching, uneven thickness, delamination, etc. during stretching, can be obtained.

【0034】延伸方法としては、ロール延伸法、テンタ
ー延伸法、チューブラー延伸法、延伸ブロー法、真空圧
空成形等のうち延伸倍率の高いものも採用できる。二軸
延伸の場合は同時二軸延伸方式、逐次二軸延伸方式のい
ずれの方式も採用できる。延伸温度は60〜170℃、
好ましくは80〜160℃程度の範囲から選ばれる。
As a stretching method, any of a roll stretching method, a tenter stretching method, a tubular stretching method, a stretch blow method, a vacuum pressurization molding and the like having a high stretching ratio can be employed. In the case of biaxial stretching, any of a simultaneous biaxial stretching method and a sequential biaxial stretching method can be adopted. The stretching temperature is 60 to 170 ° C,
Preferably, it is selected from the range of about 80 to 160 ° C.

【0035】延伸が終了した後、次いで熱固定を行うこ
とも好ましい。熱固定は周知の手段で実施可能であり、
上記延伸フィルムを緊張状態を保ちながら80〜170
℃、好ましくは100〜160℃で2〜600秒間程度
熱処理を行う。
After completion of the stretching, it is also preferable to carry out heat setting. Heat setting can be carried out by known means,
80-170 while keeping the stretched film under tension.
C., preferably at 100 to 160.degree. C. for about 2 to 600 seconds.

【0036】また、生肉、加工肉、チーズ等の熱収縮包
装用途に用いる場合には、延伸後の熱固定は行わずに製
品フィルムとし、上記の生肉、加工肉、チーズ等を該フ
ィルムに収納した後、50〜130℃、好ましくは70
〜120℃で、2〜300秒程度の熱処理を行って、該
フィルムを熱収縮させて密着包装をする。
When used for heat shrink wrapping of raw meat, processed meat, cheese, etc., the film is not heat-set after stretching, but is made into a product film, and the above-mentioned raw meat, processed meat, cheese, etc. are stored in the film. After that, 50-130 ° C., preferably 70
The film is subjected to a heat treatment at about 120 ° C. for about 2 to 300 seconds to thermally shrink the film, thereby performing tight packaging.

【0037】かくして得られた積層体の形状としては任
意のものであってよく、フィルム、シート、テープ、ボ
トル、パイプ、フィラメント、異型断面押出物等が例示
される。又、得られる積層体は必要に応じ、熱処理、冷
却処理、圧延処理、印刷処理、ドライラミネート処理、
溶液又は溶融コート処理、製袋加工、深絞り加工、箱加
工、チューブ加工、スプリット加工等を行うことができ
る。
The shape of the laminate thus obtained may be arbitrary, and examples thereof include a film, a sheet, a tape, a bottle, a pipe, a filament, and an extrudate having a modified cross section. Further, the obtained laminate is heat-treated, cooled, rolled, printed, dry-laminated,
Solution or melt coating processing, bag making processing, deep drawing processing, box processing, tube processing, split processing, and the like can be performed.

【0038】上記の如く得られたカップ、トレイ、チュ
ーブ、ボトル等からなる容器や延伸フィルムからなる袋
や蓋材は食品、飲料、医薬品、化粧品、工業薬品、洗
剤、農薬、燃料等各種の包装材料として有用である。
The containers such as cups, trays, tubes, bottles, etc., and the bags and lids made of stretched films obtained as described above are used for various packaging such as foods, beverages, pharmaceuticals, cosmetics, industrial chemicals, detergents, agricultural chemicals, fuels, etc. Useful as a material.

【0039】[0039]

【実施例】以下、実施例を挙げて本発明を具体的に説明
する。尚、実施例中「部」、「%」とあるのは特に断り
のない限り重量基準を示す。
The present invention will be specifically described below with reference to examples. In the examples, “parts” and “%” are based on weight unless otherwise specified.

【0040】EVOHの融点の測定については、示差走
査熱量計(パーキンエルマー社製「DSC−7」)を用
いて昇温速度10℃/minで測定することにより行っ
た。また、EVOH中のホウ酸含有量の測定について
は、EVOHをアルカリ溶融してICP発光分光分析法
によりホウ素を定量することにより行った。更に、アル
カリ(土類)金属含有量の測定については、EVOHを
灰化後、塩酸水溶液に溶解して原子吸光分析法によりア
ルカリ(土類)金属を定量することにより行った。
The melting point of the EVOH was measured at a heating rate of 10 ° C./min using a differential scanning calorimeter (“DSC-7” manufactured by PerkinElmer). The boric acid content in EVOH was measured by melting EVOH with alkali and quantifying boron by ICP emission spectroscopy. Further, the measurement of the alkali (earth) metal content was performed by dissolving the EVOH in an aqueous solution of hydrochloric acid after incineration, and quantifying the alkali (earth) metal by atomic absorption spectrometry.

【0041】以下のEVOHを用意した。但し、各EV
OH中の種々の金属塩に関しては、EVOHの含水多孔
性析出物を金属塩含有の水溶液と接触させて、金属塩を
含有させてから乾燥することにより含有させた。
The following EVOH was prepared. However, each EV
Regarding various metal salts in OH, the water-containing porous precipitate of EVOH was brought into contact with an aqueous solution containing a metal salt to contain the metal salt, followed by drying.

【0042】EVOH−1:エチレン含有量32モル
%、ケン化度99.5モル%、MFR3.5g/10
分、Tm183℃、酢酸ナトリウム含有量535ppm
(Naとして150ppm含有) EVOH−2:エチレン含有量40モル%、ケン化度9
9.5モル%、MFR4.0g/10分、Tm170
℃、酢酸カルシウム含有量160ppm(Caとして4
0ppm含有) EVOH−3:エチレン含有量49モル%、ケン化度9
7.0モル%、MFR30g/10分、Tm142℃、
酢酸ナトリウム含有量355ppm(Naとして100
ppm含有) EVOH−4:エチレン含有量38モル%、ケン化度9
9.6モル%、MFR4.0g/10分、Tm173
℃、酢酸マグネシウム含有量120ppm(Mgとして
20ppm含有) EVOH−5:エチレン含有量44モル%、ケン化度9
6.1モル%、MFR15g/10分、Tm149℃、
酢酸ナトリウム含有量285ppm(Naとして80p
pm含有) EVOH−6:エチレン含有量29モル%、ケン化度9
9.4モル%、MFR3.0g/10分、Tm188
℃、酢酸ナトリウム含有量430ppm(Naとして1
20ppm含有) EVOH−7:エチレン含有量36モル%、ケン化度9
9.2モル%、MFR4.0g/10分、Tm175
℃、リン酸二水素カルシウム含有量175ppm(Ca
として30ppm含有) EVOH−8:エチレン含有量34モル%、ケン化度9
9.6モル%、MFR3.0g/10分、Tm181
℃、酢酸ナトリウム含有量430ppm(Naとして1
20ppm含有) EVOH−9:エチレン含有量35モル%、ケン化度9
9.4モル%、MFR2.0g/10分、Tm179
℃、ホウ酸含有量450ppm(Bとして80ppm含
有) EVOH−10:エチレン含有量44モル%、ケン化度9
6.1モル%、MFR4.5g/10分、Tm149
℃、ホウ酸含有量450ppm(Bとして80ppm含
有) EVOH−11:エチレン含有量42モル%、ケン化度9
9.0モル%、MFR15g/10分、Tm163℃、
酢酸ナトリウム含有量430ppm(Naとして120
ppm含有) EVOH−12:エチレン含有量40モル%、ケン化度9
9.5モル%、MFR30g/10分、Tm170℃、
酢酸ナトリウム含有量335ppm(Naとして100
ppm含有)
EVOH-1: ethylene content 32 mol%, degree of saponification 99.5 mol%, MFR 3.5 g / 10
Min, Tm183 ° C, sodium acetate content 535ppm
EVOH-2: ethylene content 40 mol%, saponification degree 9
9.5 mol%, MFR 4.0 g / 10 min, Tm170
° C, calcium acetate content 160ppm (4% as Ca
EVOH-3: ethylene content 49 mol%, saponification degree 9
7.0 mol%, MFR30g / 10min, Tm142 ° C,
Sodium acetate content 355 ppm (100
EVOH-4: ethylene content 38 mol%, saponification degree 9
9.6 mol%, MFR 4.0 g / 10 min, Tm173
° C, magnesium acetate content 120 ppm (20 ppm as Mg) EVOH-5: ethylene content 44 mol%, saponification degree 9
6.1 mol%, MFR 15 g / 10 min, Tm 149 ° C.
Sodium acetate content 285ppm (80p as Na)
EVOH-6: ethylene content 29 mol%, degree of saponification 9
9.4 mol%, MFR 3.0 g / 10 min, Tm188
℃, sodium acetate content 430ppm (1% as Na)
EVOH-7: ethylene content 36 mol%, saponification degree 9
9.2 mol%, MFR 4.0 g / 10 min, Tm175
℃, calcium dihydrogen phosphate content 175ppm (Ca
EVOH-8: ethylene content 34 mol%, saponification degree 9
9.6 mol%, MFR 3.0 g / 10 min, Tm181
℃, sodium acetate content 430ppm (1% as Na)
EVOH-9: ethylene content 35 mol%, saponification degree 9
9.4 mol%, MFR2.0g / 10min, Tm179
° C, boric acid content 450 ppm (containing 80 ppm as B) EVOH-10: ethylene content 44 mol%, saponification degree 9
6.1 mol%, MFR 4.5 g / 10 min, Tm 149
° C, boric acid content 450 ppm (containing 80 ppm as B) EVOH-11: ethylene content 42 mol%, saponification degree 9
9.0 mol%, MFR 15 g / 10 min, Tm 163 ° C.
Sodium acetate content 430 ppm (120 as Na)
EVOH-12: ethylene content 40 mol%, saponification degree 9
9.5 mol%, MFR30g / 10min, Tm170 ° C,
Sodium acetate content 335 ppm (100 as Na)
ppm)

【0043】実施例1 上記のEVOH−1(A)、EVOH−2(B)及びE
VOH−3(C)を用いて、重量配合比(A)/(B)
/(C)=65/20/15となるように混合してか
ら、ストランドダイを備えた二軸押出機に供給し、以下
の条件にて溶融押出を行い、そのストランドをペレタイ
ザーで切断して、目的とする樹脂組成物を得た。得られ
た樹脂組成物の含水率は0.15%であった。尚、上記
の(A)〜(C)において、Et(A)=32モル%、
Et(B)=40モル%、Et(C)=49モル%、T
m(C)=142で、本文中の(1)〜(3)式を共に
満足するものであった。
Example 1 The above EVOH-1 (A), EVOH-2 (B) and E
Using VOH-3 (C), the weight ratio (A) / (B)
/ (C) = 65/20/15 and then fed to a twin screw extruder equipped with a strand die, melt extruded under the following conditions, and cut the strand with a pelletizer. Thus, an intended resin composition was obtained. The water content of the obtained resin composition was 0.15%. In the above (A) to (C), Et (A) = 32 mol%,
Et (B) = 40 mol%, Et (C) = 49 mol%, T
m (C) = 142, thereby satisfying all the expressions (1) to (3) in the text.

【0044】 [二軸押出機による溶融ペレット化条件] スクリュー内径 30mm(L/D=42) スクリュー形状 圧縮部に150mmのニーディングディスクを有する スクリーンメッシュ 90/120/90mesh スクリュー回転数 150rpm ベント孔 減圧吸引を実施 ホッパー内 窒素ガスを供給して置換 押出温度 C1:180℃ D:220℃ C2:200℃ C3:220℃ C4:220℃ C5:220℃ C6:220℃ C7:220℃ 上記で得られた樹脂組成物を用いて以下の方法で多層構
造体の製造(加熱延伸成形)を行って、外観性、ガスバ
リア性、連続成形性の評価を行った。
[Melting Pelletization Condition by Twin Screw Extruder] Screw inner diameter 30 mm (L / D = 42) Screw shape Screen mesh having a kneading disk of 150 mm in compression part 90/120/90 mesh Screw rotation speed 150 rpm Vent hole Decompression Suction is performed Replacement by supplying nitrogen gas in the hopper Extrusion temperature C1: 180 ° C D: 220 ° C C2: 200 ° C C3: 220 ° C C4: 220 ° C C5: 220 ° C C6: 220 ° C C7: 220 ° C Obtained above The multilayer structure was manufactured (heat-stretch molding) by the following method using the obtained resin composition, and the appearance, gas barrier properties, and continuous moldability were evaluated.

【0045】[多層構造体の製造]上記で得られた樹脂
組成物をフィードブロック3種5層の多層Tダイを備え
た多層押出装置に供給して、ポリスチレン(エーアンド
エムスチレン社製『ダイアレックス HT516』)層
/接着樹脂(三菱化学社製『モディックAP F50
2』)層/樹脂組成物層/接着樹脂層(同左)/ポリス
チレン層(同左)の層構成(厚み450/90/120
/90/450μm)の多層シートを得て、次にプラグ
アシスト型真空圧空成形機(浅野研究所製)にて、ヒー
ター温度が500℃で加熱時間28secでカップ(上
面65mmΦ、底面60mmΦ、深さ55m)の加熱延
伸成形加工を行って多層構造体を作製した。
[Production of Multilayer Structure] The resin composition obtained above was supplied to a multilayer extruder equipped with a multi-layer T die of three types and five layers of feedblocks, and polystyrene (“Die by A & M Styrene Co., Ltd.” Alex HT516 ") layer / adhesive resin (" Modic AP F50 "manufactured by Mitsubishi Chemical Corporation)
2 ") Layer / resin composition layer / adhesive resin layer (same as left) / polystyrene layer (same as left) (layer thickness 450/90/120)
/ 90/450 μm), and then a cup (upper surface 65 mmφ, bottom surface 60 mmφ, depth: 80 ° C., heating time: 500 ° C., using a plug-assist type vacuum pressure forming machine (manufactured by Asano Lab.) 55 m) of the heat-stretch molding process to produce a multilayer structure.

【0046】かかる多層構造体について、外観性、ガス
バリア性、連続成形性を下記の如く評価した。 (外観性)上記で得られたカップを、光学顕微鏡で観察
して下記の基準により評価した。 ○ −−− 微小なクラックやピンホール、局部的な偏
肉は全く認められない △ −−− カップの側面部に微小なクラックやピンホ
ール或いは局部的な偏肉が若干認められる × −−− カップの側面部に微小なクラックやピンホ
ール及び局部的な偏肉が著しく認められる
The appearance, gas barrier properties and continuous moldability of the multilayer structure were evaluated as follows. (Appearance) The cup obtained above was observed with an optical microscope and evaluated according to the following criteria. ○ −−− Minor cracks, pinholes, and local uneven thickness are not observed at all △ −−− Minor cracks, pinholes, or local uneven thickness are slightly observed on the side surface of the cup × −−− Significant cracks, pinholes, and local uneven thickness are noticed on the side of the cup

【0047】(ガスバリア性)上記で得られたカップの
上面をアルミ金属板で密封して酸素透過度を測定(モダ
ンコントロール社製「OXTRAN10/50」を用い
て23℃、50%RH条件)した。
(Gas Barrier Property) The upper surface of the cup obtained above was sealed with an aluminum metal plate, and the oxygen permeability was measured (23 ° C., 50% RH using “OXTRAN 10/50” manufactured by Modern Control Co.). .

【0048】(連続成形性)上記の延伸成形加工を連続
して2時間行って、120個のカップを得、以下のよう
に評価した。 ◎ −−− 120個とも上記外観性の評価が○である ○ −−− 117〜119個が上記の外観性の評価が
○である △ −−− 111〜116個が上記の外観性の評価が
○である × −−− 110個以下が上記の外観性の評価が○で
ある
(Continuous Moldability) The above stretching process was performed continuously for 2 hours to obtain 120 cups, which were evaluated as follows. ◎ −−− 120 evaluations of the above-mentioned appearance were ○. ○ −−− 117 to 119 evaluations of the above-mentioned appearance were Δ. △ −−− 111 to 116 evaluations of the above-mentioned appearance. Is ○ × −−− 110 or less are evaluated as 外 観

【0049】実施例2〜7、比較例1〜3表1及び2に
示す如くEVOHを用いて実施例1に準じて樹脂組成物
を得て、同様に評価を行った。尚、実施例2〜7におい
ては、(A)〜(C)について、本文中の(1)〜
(3)式を全て満足するものであったが、比較例1は
(1)式を、比較例2は(2)式を、比較例3は(3)
式をそれぞれ逸脱するものであった。
Examples 2 to 7 and Comparative Examples 1 to 3 As shown in Tables 1 and 2, a resin composition was obtained in the same manner as in Example 1 using EVOH, and was similarly evaluated. In Examples 2 to 7, (A) to (C) were used for (1) to (C) in the text.
Although all of the expressions (3) were satisfied, Comparative Example 1 indicated the expression (1), Comparative Example 2 indicated the expression (2), and Comparative Example 3 indicated the expression (3).
Each deviated from the formula.

【0050】実施例及び比較例の評価結果を表3に示
す。
Table 3 shows the evaluation results of the examples and comparative examples.

【表1】 EVOH(A) EVOH(B) Et Sv MFR 使用EVOH Et Sv MFR 使用EVOH 実施例1 32 99.5 3.5(EVOH−1) 40 99.5 4.0(EVOH−2) 〃 2 32 99.5 3.5(EVOH−1) 38 99.6 4.0(EVOH−4) 〃 3 29 99.4 3.0(EVOH−6) 36 99.2 4.0(EVOH−7) 〃 4 34 99.6 3.0(EVOH−8) 40 99.5 4.0(EVOH−2) 〃 5 32 99.5 3.5(EVOH−1) 35 99.4 2.0(EVOH−9) 〃 6 32 99.5 3.5(EVOH−1) 38 99.6 4.0(EVOH−4) 〃 7 32 99.5 3.5(EVOH−1) 38 99.6 4.0(EVOH−4) 比較例1 32 99.5 3.5(EVOH−1) 40 99.5 4.0(EVOH−2) 〃 2 32 99.5 3.5(EVOH−1) 34 99.6 3.0(EVOH−8) 〃 3 32 99.5 3.5(EVOH−1) 36 99.2 4.0(EVOH−7) Table 1 EVOH (A) EVOH (B ) EVOH using Et Sv MFR EVOH using Et Sv MFR Example 1 32 99.5 3.5 (EVOH-1) 40 99.5 4.0 (EVOH-2) 〃 232 99.5 3.5 (EVOH-1) ) 38 99.6 4.0 (EVOH-4) 3 329 99.4 3.0 (EVOH-6) 36 99.2 4.0 (EVOH-7) 4 434 99.6 3.0 (EVOH-8) 40 99.5 4.0 (EVOH-2) 5 5 32 99.5 3.5 (EVOH-1) 35 99.4 2.0 (EVOH-9) 〃 6 32 99.5 3.5 (EVOH-1) 38 99.6 4.0 (EVOH-4) 7 7 32 99.5 3.5 (EVOH-1) 38 99.6 4.0 (EVOH-4) Example 1 32 99.5 3.5 (EVOH-1) 40 99.5 4.0 (EVOH-2) 〃 2 32 99.5 3.5 (EVOH-1) 34 99.6 3.0 (EVOH-8) 3 3 32 99.5 3.5 (EVOH-1) 36 99.2 4.0 ( EVOH-7)

【0051】[0051]

【表2】 EVOH(C) 配合比 Et Sv MFR Tm 使用EVOH A/B/C 実施例1 49 97.0 30 142 (EVOH−3) 65/20/15 〃 2 44 96.1 15 149 (EVOH−5) 55/15/30 〃 3 44 96.1 15 149 (EVOH−5) 50/15/35 〃 4 49 97.0 30 142 (EVOH−3) 75/10/15 〃 5 44 96.1 15 149 (EVOH−5) 75/10/15 〃 6 49 97.0 30 142 (EVOH−3) 60/20/20 〃 7 44 96.1 4.5 149 (EVOH−10) 50/25/25 比較例1 42 99.0 15 163 (EVOH−11) 65/20/15 〃 2 49 97.0 30 142 (EVOH−3) 65/20/15 〃 3 40 99.5 30 170 (EVOH−12) 65/20/15 [Table 2] EVOH (C) compounding ratio Et Sv MFR Tm EVOH A / B / C Example 1 49 97.0 30 142 (EVOH-3) 65/20/15152 44 96.1 15 149 (EVOH-5) 55 / 15/30 〃 3 44 96.1 15 149 (EVOH-5) 50/15/35 〃 4 49 97.0 30 142 (EVOH-3) 75/10/15 〃 5 44 96.1 15 149 (EVOH-5) 75/10 / 15 6 6 49 97.0 30 142 (EVOH-3) 60/20/20 744 96.1 4.5 149 (EVOH-10) 50/25/25 Comparative Example 1 42 99.0 15 163 (EVOH-11) 65/20 / 15 〃 2 49 97.0 30 142 (EVOH-3) 65/20/15 340 99.5 30 170 (EVOH-12) 65/20/15

【0052】尚、上記表1及び2における略号は以下の
通りである。 Et:エチレン含有量(モル%) Sv:ケン化度(モル%) MFR:メルトフローレイト(g/10分) Tm:融解ピーク温度(℃) 配合比:重量部比
The abbreviations in Tables 1 and 2 are as follows. Et: ethylene content (mol%) Sv: saponification degree (mol%) MFR: melt flow rate (g / 10 minutes) Tm: melting peak temperature (° C) Compounding ratio: weight part ratio

【0053】[0053]

【表3】 注)ガスバリア性の単位は、cc/m2・day・atm[Table 3] Note) The unit of gas barrier property is cc / m 2・ day ・ atm

【0054】[0054]

【発明の効果】本発明の樹脂組成物は、特定の条件を満
足するように少なくとも3種のEVOHをブレンドして
いるため、加熱延伸成形時の外観性、ガスバリア性、連
続成形性に優れ、各種包装用途(食品、飲料、化粧品、
医薬品、工業薬品、農薬、溶剤、燃料等)の包装材料と
して有用である。
The resin composition of the present invention is blended with at least three types of EVOH so as to satisfy specific conditions. Therefore, the resin composition is excellent in appearance, gas barrier properties and continuous moldability during heat stretching. Various packaging applications (food, beverages, cosmetics,
It is useful as a packaging material for pharmaceuticals, industrial chemicals, agricultural chemicals, solvents, fuels, etc.).

───────────────────────────────────────────────────── フロントページの続き Fターム(参考) 4F100 AK69A AL05A BA01 GB15 GB23 GB66 JA04A JB07 JD02 JK01 JL01 JL12 YY00A 4J002 BB221 BE031 FD010 FD020 FD170 FD200 GF00 GG00 ──────────────────────────────────────────────────続 き Continued on the front page F term (reference) 4F100 AK69A AL05A BA01 GB15 GB23 GB66 JA04A JB07 JD02 JK01 JL01 JL12 YY00A 4J002 BB221 BE031 FD010 FD020 FD170 FD200 GF00 GG00

Claims (2)

【特許請求の範囲】[Claims] 【請求項1】 少なくとも3種のエチレン−酢酸ビニル
共重合体ケン化物(A)〜(C)を含有してなり、且つ
かかる3種のエチレン−酢酸ビニル共重合体ケン化物
(A)〜(C)が下記の(1)〜(3)式の条件を満足
することを特徴とする樹脂組成物。 Et(C)≧Et(B)+3 ・・・(1) Et(B)≧Et(A)+3 ・・・(2) Tm(C)≦165 ・・・(3) [但し、Etはそれぞれのエチレン−酢酸ビニル共重合
体ケン化物のエチレン含有量(モル%)、Tmは示差走
査熱量計で測定(昇温速度10℃/min)されるエチ
レン−酢酸ビニル共重合体ケン化物の融解ピーク温度
(℃)を表す。]
1. A saponified product of at least three kinds of ethylene-vinyl acetate copolymers (A) to (C), and said three kinds of saponified ethylene-vinyl acetate copolymers (A) to (C) C) wherein the resin composition satisfies the following formulas (1) to (3). Et (C) ≧ Et (B) +3 (1) Et (B) ≧ Et (A) +3 (2) Tm (C) ≦ 165 (3) [where Et is each Content (mol%) and Tm of the saponified ethylene-vinyl acetate copolymer are measured by a differential scanning calorimeter (at a rate of temperature rise of 10 ° C./min), and the melting peak of the saponified ethylene-vinyl acetate copolymer is obtained. Represents temperature (° C). ]
【請求項2】 請求項1記載の樹脂組成物を含有する層
を少なくとも1層含むことを特徴とする積層体。
2. A laminate comprising at least one layer containing the resin composition according to claim 1.
JP20562099A 1999-07-21 1999-07-21 Resin composition and laminate Expired - Lifetime JP4634555B2 (en)

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Cited By (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US7691485B2 (en) 2004-09-28 2010-04-06 The Nippon Synthetic Chemical Industry Co., Ltd. Ethylene-vinyl alcohol copolymer composition and multilayer structure using the same
KR20210082360A (en) * 2019-12-24 2021-07-05 장 춘 페트로케미컬 컴퍼니 리미티드 Ethylene-vinyl alcohol resin, film, and multi-layer structure comprising the same, and method for forming the ethylene-vinyl alcohol resin
KR102467557B1 (en) * 2021-06-16 2022-11-16 장 춘 페트로케미컬 컴퍼니 리미티드 Ethylene-vinyl alcohol copolymer resin composition, ethylene-vinyl alcohol copolymer film formed therefrom, and multilayer structure containing the same

Cited By (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US7691485B2 (en) 2004-09-28 2010-04-06 The Nippon Synthetic Chemical Industry Co., Ltd. Ethylene-vinyl alcohol copolymer composition and multilayer structure using the same
KR20210082360A (en) * 2019-12-24 2021-07-05 장 춘 페트로케미컬 컴퍼니 리미티드 Ethylene-vinyl alcohol resin, film, and multi-layer structure comprising the same, and method for forming the ethylene-vinyl alcohol resin
KR102410653B1 (en) * 2019-12-24 2022-06-16 장 춘 페트로케미컬 컴퍼니 리미티드 Ethylene-vinyl alcohol resin, film, and multi-layer structure comprising the same, and method for forming the ethylene-vinyl alcohol resin
KR102467557B1 (en) * 2021-06-16 2022-11-16 장 춘 페트로케미컬 컴퍼니 리미티드 Ethylene-vinyl alcohol copolymer resin composition, ethylene-vinyl alcohol copolymer film formed therefrom, and multilayer structure containing the same

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