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JPS6262846A - Polypropylene film for shrinkable label - Google Patents

Polypropylene film for shrinkable label

Info

Publication number
JPS6262846A
JPS6262846A JP20291385A JP20291385A JPS6262846A JP S6262846 A JPS6262846 A JP S6262846A JP 20291385 A JP20291385 A JP 20291385A JP 20291385 A JP20291385 A JP 20291385A JP S6262846 A JPS6262846 A JP S6262846A
Authority
JP
Japan
Prior art keywords
film
polypropylene
resin
heat
shrinkage
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
JP20291385A
Other languages
Japanese (ja)
Other versions
JPH0546304B2 (en
Inventor
Yoshizo Shibata
喜三 柴田
Kazuo Momo
百々 一雄
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.)
Mitsubishi Plastics Inc
Original Assignee
Mitsubishi Plastics Inc
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by Mitsubishi Plastics Inc filed Critical Mitsubishi Plastics Inc
Priority to JP20291385A priority Critical patent/JPS6262846A/en
Publication of JPS6262846A publication Critical patent/JPS6262846A/en
Publication of JPH0546304B2 publication Critical patent/JPH0546304B2/ja
Granted legal-status Critical Current

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  • Compositions Of Macromolecular Compounds (AREA)
  • Shaping By String And By Release Of Stress In Plastics And The Like (AREA)

Abstract

PURPOSE:A polypropylene film suitable for shrinkable labels, having a specific thermal shrinkage ratio and a specific birefringence of inner face of film, shrink able greatly in one direction, having balanced physical properties, comprising a propylene resin. CONSTITUTION:A film comprising polypropylene resin consisting of (A) 95-40wt% polypropylene polymer and (B) 5-60wt% petroleum resin and/or terpene resin, having 7-15cal/g crystallization amount of heat is biaxially oriented, to give a film having >=40% heat shrinkage ratio in one direction and <=15% heat shrinkage ratio in a direction rectangular to it when immersed in 100 deg.C hot water for 5min and <=0.01 birefringence in a film face.

Description

【発明の詳細な説明】 (産業上の利用分野) 本発明は、ポリプロピレン系樹脂からなる収縮ラベル用
フィルムに関する。
DETAILED DESCRIPTION OF THE INVENTION (Field of Industrial Application) The present invention relates to a shrinkable label film made of a polypropylene resin.

(従来技術) 従来、熱収縮性ポリプロピレン系フィルムとして、二軸
方向に均等に延伸されており、縦、横両方向にほぼ同じ
熱収縮x2有する二軸延伸ポリプロピレンフィルムが広
く用いられて★たが、このフィルムはインスタントカッ
プラーメンの容器のような被包物を全体的に収縮包装す
るには好適であるが、円筒状のボトルの収縮ラベルとし
て用−る場合等、一方向に大きく収縮する必要のある用
途には不適であった。
(Prior art) Conventionally, biaxially oriented polypropylene films, which are evenly stretched in two axial directions and have approximately the same heat shrinkage x2 in both the vertical and horizontal directions, have been widely used as heat-shrinkable polypropylene films. This film is suitable for shrink-wrapping entire packaged items such as instant cup noodle containers, but when used as a shrink label for cylindrical bottles, it is necessary to shrink a lot in one direction. It was unsuitable for some uses.

このため、例えば特開昭57−’)7!r33号、特開
昭60−5グざ93号に示されるように延伸の際に一方
向に大きく延伸し念偏延伸ポリプロピレンフィルムが提
案されている。
For this reason, for example, JP-A-57-')7! As shown in Japanese Unexamined Patent Publication No. R33 and JP-A No. 60-5 Guza No. 93, a polypropylene film that is stretched largely in one direction during stretching has been proposed.

(発明が解決しようとする問題点) 上記の偏延伸ポリプロピレンフィルムは、加熱すると延
伸方向に天衣な収縮を示すが、引張強度等の物理特性が
延伸方向と直角な方向に弱くて縦、横アンバランスとな
っているために、たとえばガラス瓶に収縮ラベルとして
被せても破瓶時の破片飛散防止効果が小さい等の欠点が
あった。
(Problems to be Solved by the Invention) The unevenly stretched polypropylene film described above shows significant shrinkage in the stretching direction when heated, but its physical properties such as tensile strength are weak in the direction perpendicular to the stretching direction, and its physical properties are weak in the vertical and horizontal directions. Because of the unbalanced nature of the label, there were drawbacks such as, for example, even if it was placed on a glass bottle as a shrink label, the effect of preventing fragments from scattering when the bottle was broken was small.

よって、一方向に大きく収縮しかつバランスのとれた物
理特性を有する収縮ラベル用に好適なポリプロピレン系
フィルムを提供することが本発明の目的である。
Therefore, it is an object of the present invention to provide a polypropylene film suitable for use in shrinkable labels that shrinks significantly in one direction and has well-balanced physical properties.

(問題点を解決するための手段) 本発明はポリプロピレン系樹脂からなる二軸延伸フィル
ムであって、700℃の熱水に5分間浸漬した時の熱収
縮率が一方向に’IO’A以上、それと直角方向に/、
j%以下であって、かつフィルム面内の複屈折率(Δn
)が0.0 /以下である収縮ラベル用ポリプロピレン
系フィルムである。
(Means for Solving the Problems) The present invention is a biaxially stretched film made of polypropylene resin, which has a heat shrinkage rate of ``IO''A or more in one direction when immersed in hot water at 700°C for 5 minutes. , perpendicular to it/
j% or less, and the in-plane birefringence of the film (Δn
) is 0.0/or less, a polypropylene film for shrinkable labels.

本発明におけるポリプロピレン系樹脂とじては、プロピ
レンの単独重合体のほかプロピレンとエチレン、ブテン
−/等の他のオレフィンの共重合体あるいは、これらの
混合物が使用できる。もちろんこれらに各種添加物を加
えることは差支えない。
As the polypropylene resin in the present invention, in addition to a propylene homopolymer, copolymers of propylene and other olefins such as ethylene and butene/and mixtures thereof can be used. Of course, various additives may be added to these.

本発明の収縮ラベル用ポリプロピレン系フィルムの70
0℃の熱水に5分間浸漬した時の熱収縮率は一方向にグ
0%以上、それと直角方向に13%以下であることが必
要とされる。筒状に成形してボトル等の収縮ラベルとし
て用いる場合に、周方向の熱収縮率が’i’ OX以下
だとあばた状の凹凸ができ易く、またボトルの首部等の
細い部分によく密着しないので被葎外観が極めて悪化す
る。ここで製造上aO〜70%程度が実用的に好ましい
。また、ラベルの軸方向のお、製造上は一5〜15%程
度が実用的に好ましい。さらに100℃における熱収縮
率が上記範囲であれば従来のラベルの収縮条件によシ高
速で収縮させることができ、また100℃という比較的
低温で加熱した場合でも高収縮率が得られ、高温加熱を
さらに容器に収縮被榎する場合に好都合である。
70 of the polypropylene film for shrinkable labels of the present invention
The thermal shrinkage rate when immersed in hot water at 0° C. for 5 minutes is required to be 0% or more in one direction and 13% or less in the direction perpendicular to it. When formed into a cylindrical shape and used as a shrinkable label for bottles, etc., if the heat shrinkage rate in the circumferential direction is less than 'i' OX, pock-like irregularities are likely to occur, and it will not adhere well to narrow parts such as the neck of the bottle. As a result, the appearance of the seedlings becomes extremely poor. Here, from the viewpoint of manufacturing, it is practically preferable that aO to about 70%. Further, it is practically preferable for the axial direction of the label to be approximately 15 to 15% in terms of manufacturing. Furthermore, if the heat shrinkage rate at 100℃ is within the above range, it can be shrunk at high speed under conventional label shrinkage conditions, and even when heated at a relatively low temperature of 100℃, a high shrinkage rate can be obtained. This is advantageous if heating is further applied to the container for shrinkage.

本発明の収縮ラベル用ポリプロピレン系フィルムのフィ
ルム面内の複屈折率(Δn)は0.01以下であること
が必要である。このΔnがQ−Q/と起えると、強度バ
ランスが悪化し炭酸飲料等を充填したガラス瓶にラベル
として収縮被咎した場合に、破瓶した時の飛散防止効果
に劣る等の欠点が生ずるためである。これは、フィルム
のある方向の屈折率nがその方向の配向度に強く依存す
るために、フィルムの縦・横の屈折率の差の絶対値であ
るフィルム面内の複屈折率励が小さい程、縦・横の配向
度の差が小さくバランスがとれており、Δnが大きくな
ると縦・横のフィルムの強度差が大きくなって弱い方向
に裂けてしまうことによる。
It is necessary that the in-plane birefringence (Δn) of the polypropylene film for shrinkable labels of the present invention is 0.01 or less. If this Δn becomes Q-Q/, the strength balance deteriorates, and when the label is shrunk as a label on a glass bottle filled with carbonated drinks, etc., there will be disadvantages such as poor scattering prevention effect when the bottle is broken. It is. This is because the refractive index n in a certain direction of the film strongly depends on the degree of orientation in that direction. This is because the difference in the degree of orientation between the vertical and horizontal directions is small and well-balanced, and when Δn increases, the difference in strength between the vertical and horizontal films increases and the film is torn in the weak direction.

このように、本#、明の収縮ラベル用のポリプロピレン
系フィルムは、主として一方向に収縮しかつ比較的バラ
ンス良くしかも大きく配向しているという新東亀な構成
を特徴とするものであシ、特にラベル用途に好適なもの
である。
In this way, the polypropylene film for shrinkable labels of this book is characterized by a new structure in which it mainly shrinks in one direction and is relatively well-balanced and largely oriented. It is particularly suitable for label use.

本発明の収縮ラベル用ポリプロピレン系フィルムを得る
ためには、ポリプロピレン系樹脂からなるフィルム原反
を最初たとえば(Tm−50)℃〜(Tm−λO)℃で
一方向に延伸し、次いでたとえば(Tm−コ0)℃〜T
m’Cの範囲で熱処理し、さらに最初の延伸方向と直角
な方向に70〜llO℃好ましくはgo℃−/ 00 
’Cで延伸する方法、あるいは最初の延伸をたとえば(
Tm−一θ℃)〜Tmという高温条件下で行なり1さら
にそれと直角な方向にりo℃〜//Q℃好ましくはgo
℃〜100℃で延伸を行なうことによシ得られる。なお
ここでTmは、ポリプロピレン系樹脂の融点である。
In order to obtain the polypropylene film for shrinkable labels of the present invention, a raw film made of polypropylene resin is first stretched in one direction at, for example, (Tm-50)°C to (Tm-λO)°C, and then, for example, (Tm -ko0)℃~T
Heat treatment in the range of m'C, and further in the direction perpendicular to the initial stretching direction at 70 to 110°C, preferably go°C-/00
How to stretch with 'C, or the first stretch for example (
It is carried out under a high temperature condition of Tm - - θ℃) to Tm, and then in a direction perpendicular thereto to preferably go
It can be obtained by stretching at a temperature of 100°C to 100°C. Note that Tm here is the melting point of the polypropylene resin.

このように嬉7段階で一方向に延伸配向させることによ
シその延伸方向に充分な物性強度を与えることができる
。そして最初の延伸の後の高温での熱処理あるいは最初
の延伸温度自体を高温で行なうこと等によって、ポリプ
ロピレン系樹脂を結晶化させることにエリ最初の延伸に
基づく熱収縮全抑制することがで微る。さらに、引き続
いて最初の延伸方向と直角な方向に比較的低温で第コ段
階の延伸全行なってその方向に充分な熱収縮性を得るも
のである。
By stretching and orienting the material in one direction in seven stages as described above, sufficient physical strength can be imparted in the stretching direction. By heat treatment at a high temperature after the first stretching or by performing the first stretching itself at a high temperature, it is possible to crystallize the polypropylene resin and completely suppress the thermal shrinkage caused by the first stretching. . Furthermore, the entire stretching step is then carried out at a relatively low temperature in a direction perpendicular to the initial stretching direction to obtain sufficient heat shrinkability in that direction.

ポリプロピレン系樹脂は比較的結晶化し易く、第1段階
で高温延伸したり熱処理工程での処理により結晶化が進
み過ぎて第コ段階の比較的低温での延伸ができなくなる
場合がある。この結晶性を抑えて熱処理条件の調整を行
ない易くするために、ポリプロピレン系樹脂の結晶化熱
量(Δ)Ic)を7〜/ z (Hal / gの範囲
とするのが好ましい。/ s ca1/ iより犬会い
ものは結晶性が高く、好適な結晶化度を得るための熱処
理条件の調整が難かしくなり、7 cal / jiよ
りも小さいと粘着性を生じて加工性が悪くなるとともに
得られるフィルムの物理的強度も低下するので上記範囲
が好ましbo 上記範囲の結晶化熱量を有するポリプロピレン系樹脂は
、比較的分子構造が不規則で結晶化シ難いプロピレンと
他のオレフィンとのランダム共重合体等のプロピレン系
重合体から選択するか、」Cが/ s cal / j
iより大きいプロピレン系重合体に、1Jl(2の小さ
いプロピレン系重合体を混合することによシ調裂するこ
とができる。
Polypropylene-based resins are relatively easy to crystallize, and crystallization may progress too much during high-temperature stretching or heat treatment in the first stage, making it impossible to stretch at a relatively low temperature in the second stage. In order to suppress this crystallinity and make it easier to adjust the heat treatment conditions, it is preferable to set the crystallization heat (Δ) Ic) of the polypropylene resin in the range of 7 to /z (Hal / g). /sca1/ Inuai is more crystalline than i, making it difficult to adjust the heat treatment conditions to obtain a suitable degree of crystallinity, and if it is less than 7 cal/ji, it becomes sticky and has poor workability. The above range is preferable because the physical strength of the film is also reduced.Bo Polypropylene resins having a heat of crystallization within the above range are made by random copolymerization of propylene and other olefins, which have a relatively irregular molecular structure and are difficult to crystallize. Select from propylene-based polymers such as polymers or "C / s cal / j
It can be cleaved by mixing a propylene polymer larger than i with a propylene polymer smaller than 1Jl (2).

また、プロピレン系重合体に対し石油樹脂及び/又はテ
ルペン樹脂、なかでもこれらの樹脂に水添したものを好
ましくは70〜59重量%添加することにより、ポリプ
ロピレン系樹脂の結晶性t−低下させてda f 7〜
/ !; cab / iに調整することもできる。石
油樹脂の添加量が10重量%よシ小ないと添加の効果が
なく、30重量%よシ多いと、樹脂に粘着性が生じ加工
性が悪化するとともに得られるフィルムの物理的強度が
低下する。また石油樹脂の添加により自然収縮の少ない
フィルムが得られる効果がある。この場合得られるポリ
プロピレン系樹脂の融点Tmは約130℃〜ls5℃と
なる。
Furthermore, by adding preferably 70 to 59% by weight of petroleum resin and/or terpene resin, especially hydrogenated resins, to the propylene polymer, the crystallinity t- of the polypropylene resin can be lowered. da f 7~
/! ; It can also be adjusted to cab/i. If the amount of petroleum resin added is less than 10% by weight, the addition has no effect, and if it is more than 30% by weight, the resin becomes sticky and processability deteriorates, and the physical strength of the resulting film decreases. . Furthermore, the addition of petroleum resin has the effect of producing a film with less natural shrinkage. The melting point Tm of the polypropylene resin obtained in this case is approximately 130°C to ls5°C.

このように結晶化熱量が比較的小さいポリプロピレン系
樹脂を用いた場合には、例えば100℃という比較的低
温で加熱し今場合でも高い収縮率を示すフィルムが得ら
れ易く、高温加熱ヲきらう容器に収縮ラベルとして被覆
する場合に特に好都合である。
In this way, when using a polypropylene resin with a relatively small amount of crystallization heat, it is easy to obtain a film that shows a high shrinkage rate when heated at a relatively low temperature of 100°C, for example, and it is suitable for containers that do not tolerate high temperature heating. It is particularly advantageous when coated as a shrink label.

なお、ヒートシール性を向上させるために、アイオノマ
ーエチレン−酢酸ビニル共重合体等のシール性に優れた
樹脂層と積層してもよい。
In addition, in order to improve the heat sealability, it may be laminated with a resin layer having excellent sealability such as an ionomer ethylene-vinyl acetate copolymer.

(発明の効果) 本発明の収縮ラベル用ポリプロピレン系フィルムはio
o℃の熱水に3分間浸漬した時の熱収縮藁が一方向にt
y−o%以上、それと直角な方向に13%以下という収
縮特性により、周方向にのみ大収縮率を要する収縮ラベ
ルとして好適であるばかりでなく、フィルム面内のi屈
折z(△n)が0.0 /以下であるので縦・横両方向
にバランスのとれた物理的強度を有し、ガラス瓶の破片
飛散防止効果の犬負い収縮ラベルとして好適に用いるこ
とがで鳶るものである。
(Effect of the invention) The polypropylene film for shrinkable labels of the present invention is io
When immersed in hot water at 0°C for 3 minutes, the heat-shrinkable straw will move in one direction.
Due to its shrinkage characteristics of y-o% or more and 13% or less in the direction perpendicular to it, it is not only suitable as a shrinkable label that requires a large shrinkage rate only in the circumferential direction, but also has an i-refraction z (△n) in the film plane Since it is less than 0.0 /, it has well-balanced physical strength in both the vertical and horizontal directions, and can be suitably used as a shrinkable label to prevent glass bottles from scattering.

なお、本発明において熱収縮藁およびフィルム面内の複
屈折率の測定は以下の様に行なった。
In the present invention, the in-plane birefringence of heat-shrinkable straw and film was measured as follows.

熱収縮N:10cm角のフィルムに10o℃の熱水に3
分間浸漬後、縦・横の寸法a、b′jt測定向熱収縮率
(X)とした。
Heat shrinkage N: 10cm square film in hot water at 10oC
After soaking for a minute, the vertical and horizontal dimensions a and b'jt were measured and the heat shrinkage rate (X) was determined.

フィルム面内の複屈折率Δn:n:アツベ折計によジナ
トリウムD線を用いてフィルムの縦方向(製造時の進行
方向)の屈折”KA nBおよび横方向の屈折inv’
i測定し、 △n =/ np  mv/ として求めた。
Birefringence Δn in the film plane: n: refraction in the longitudinal direction (progressing direction during manufacturing) of the film KA nB and refraction in the lateral direction inv' using an Atsube refractometer using the disodium D line
i was measured and calculated as △n =/np mv/.

結晶化熱量−C:差動走査型熱量計(パーキンエルマー
社製)にて降温速度lo℃/分で測定したチャートにお
ける結晶化ピークの面積から算出した。
Crystallization heat amount-C: Calculated from the area of the crystallization peak in a chart measured with a differential scanning calorimeter (manufactured by PerkinElmer) at a cooling rate of 1° C./min.

融点:差動走査型熱量計を用いて昇温速度lO℃/分で
測定した時の融解ピークの温度(℃)(実施例) 以下、実施例を挙げてさらに説明する。下記3種類の樹
脂A、B、O金準備し、A=&(1)重量部、B=’I
O重量部、C=20重量部の割合で溶融混合して、結晶
化熱量ΔHC==9.7cal / g、融点Tm==
 / J g ℃のベレットとした。
Melting point: Temperature (° C.) of melting peak when measured using a differential scanning calorimeter at a heating rate of 10° C./min (Example) Further explanation will be given below with reference to Examples. Prepare the following three types of resins A, B, O gold, A = & (1) parts by weight, B = 'I
Melt and mix in the ratio of O weight part and C = 20 weight part, crystallization heat ΔHC==9.7 cal/g, melting point Tm==
/ J g °C.

1t[WA7”ロビレンーエチレンーランダム共重合体
(融点: tys”C1△Hc : /6.j cal
/y) 樹脂B プロピレン−αオレフインランダム共重合体(
融点:/F&’C1ΔHa : 7.5cal/l) 樹脂C水添石油樹脂(荒川化学株式会社商品名 アルコ
ンp12!r) 上記混合ベレットをTダイから約200℃で溶融押出し
て延伸後のフィルムが!0μとなるようにフィルム原反
厚みを調整して成形した。
1t[WA7" Robylene-ethylene-random copolymer (melting point: tys"C1△Hc: /6.j cal
/y) Resin B Propylene-α olefin random copolymer (
Melting point: /F&'C1ΔHa: 7.5 cal/l) Resin C hydrogenated petroleum resin (Arakawa Chemical Co., Ltd. trade name Alcon p12!r) The above mixed pellet was melt-extruded from a T-die at about 200°C to form a stretched film. ! The thickness of the original film was adjusted so that the film thickness was 0μ.

次にこのフィルム原反を第1表に示すように、比較例J
、&および実施例1−グにつきiiO℃または/ 3 
!r ℃に加熱し、周速の異なるλ本の延伸用ロール間
でへS〜6倍に引取方向に延伸した。
Next, as shown in Table 1, this film material was prepared using Comparative Example J.
, & and Example 1 - iiO ℃ or / 3
! The film was heated to r°C and stretched in the take-off direction between λ stretching rolls having different circumferential speeds by a factor of S to 6 times.

次いでこの寸法を保ったまt第1表に示すように比較例
3および実施例1−ダにつき、130℃に調温した熱処
理ロールに60秒間接触させて熱処理を行なりな。
Next, while maintaining these dimensions, as shown in Table 1, Comparative Example 3 and Example 1-da were heat-treated by contacting them with a heat-treating roll whose temperature was controlled to 130° C. for 60 seconds.

さらに100℃に調温し九テンター内で、横方向にグル
6倍の延伸を行なった。
Further, the temperature was adjusted to 100° C., and the film was stretched 6 times in the transverse direction in a nine tenter.

得られ九フィルムは、ioo℃の熱水にS分間浸漬した
時の熱量!!(比)が、比較例1−グ#i縦方向がO−
一〇%、横方向がコj〜u3′Aであり、実施例1−ダ
は縦方向が3〜j%、横方向がII j −! SXで
あった。またフィルム面内の複屈折藁Δnは、比較ft
l/−ダがo、o o s〜0.0ノ!、実施例1−グ
が0.00 ll−0,007であった。
The resulting film has a heat value when immersed in hot water at ioo°C for S minutes! ! (ratio) is Comparative Example 1-G #i vertical direction is O-
10%, the horizontal direction is Koj~u3'A, and Example 1-da has a vertical direction of 3~j%, and the horizontal direction is II j -! It was SX. Also, the in-plane birefringence Δn of the film is compared to ft
l/-da is o, o o s~0.0ノ! , Example 1-g was 0.00 ll-0,007.

こうして得られた延伸フィルムを下記測定項目について
測定し、その結果を第1表に示しな。
The stretched film thus obtained was measured for the following measurement items, and the results are shown in Table 1.

引張強度: yis−xbyy−に準じて縦・横方向に
つI i!II定した。CkQlC層)収縮仕上り:フ
ィルムの収縮塞の大轡な方が周方向に々るように端部同
士をヒートシールして、折径///、jw、長さノコ5
Nの筒状ラベルとする。このラベルを胴径1.g、jm
、全高/jKmm、ロ内径26mのワンウェイガラスボ
トルを90℃に予熱したものに被せ、熱風温度210℃
のシュリンクトンネル巾fl、0秒で通過させる。
Tensile strength: Ii! in the vertical and horizontal directions according to yis-xbyy- II was determined. CkQlC layer) Shrink finish: Heat seal the ends so that the larger side of the film shrinks in the circumferential direction, and cut the folded diameter ///, jw, length saw 5
Let it be a cylindrical label of N. Add this label to body diameter 1. g, jm
, total height/jKmm, B A one-way glass bottle with an inner diameter of 26 m is placed over a bottle preheated to 90°C, and the hot air temperature is 210°C.
The shrink tunnel width fl is 0 seconds.

得られた、被覆ボトルについてフィルムの状態を目視し
て上下端に波打ち、収縮 、またフィルム面にあばた状
部等の欠点が目立つものは×、前記欠点が一部に生じた
ものはΔ、欠点なく全面にわたシ密着良好なものは○と
した。
Visually inspect the film condition of the obtained coated bottles. Those with noticeable defects such as waving or shrinkage on the top and bottom edges, or pockmarks on the film surface are marked as ×, and those with the above defects partially produced are marked as Δ and defects. Those with good adhesion to the entire surface were rated as ○.

飛散防止効果:前記被覆ボトルに、内圧グ〜r kg 
/ crl (ゲージ圧)となるように炭酸水を充填密
閉したものを、J工S−32301,に準じて3個ずつ
テストした。
Shatter prevention effect: The coated bottle has an internal pressure of ~r kg
/crl (gauge pressure) and sealed with carbonated water and tested three each in accordance with J.Eng. S-32301.

半径/m以内の飛散重量が93%以上のものをQ 半径/m以内の飛散重量がざ5〜デ!%のものをΔ 半径1m以内の飛散重量がg5%以下のものお× とした。Q: Items with a scattering weight of 93% or more within a radius/m The scattering weight within the radius/m is 5~de! % of Δ Items with a scattering weight of 5% or less within a 1m radius And so.

第1表 第1表から明らかなように、横方向収縮率が’I 09
frに満たない比較例11コは収縮後の表面があばた状
となシ、縦方向収縮率がコ0免と15%よシ大きい比較
例グはフィルム端面に波打ちが生じて収縮外観が悪かっ
た。また、フィルム面内の複屈折率ΔnがO8θlよフ
大きい比較例1〜3は、縦横の引張強度の差が大きく飛
散防止効果が劣るか、幾分省っている。
Table 1 As is clear from Table 1, the lateral shrinkage rate is 'I 09
In Comparative Example 11, which had less than Fr, the surface after shrinkage was pockmarked, and in Comparative Example G, which had a longitudinal shrinkage rate of 0 or more than 15%, ripples appeared on the film end surface and the shrinkage appearance was poor. . Moreover, in Comparative Examples 1 to 3, in which the in-plane birefringence Δn of the film is larger than O8θl, the difference in longitudinal and lateral tensile strengths is large, and the scattering prevention effect is inferior or is somewhat omitted.

これに対して、縦収縮部が3〜5えと15%以下であり
横収縮率がゲタ〜5りSと4tO%以上であυさらに、
△nが0.00q〜0.007と0、Oノ以下である実
施例/%9は、ラベルにした時の収縮仕上りに優れると
ともに縦横の引張強度のバランスがとれておシ、飛散防
止効果も高い。
On the other hand, if the vertical shrinkage is 3 to 5 and 15% or less, and the horizontal shrinkage is 4 to 5 or more, υfurther,
Examples/%9 in which △n is 0.00q to 0.007 and 0.0 or less have excellent shrinkage finish when made into labels, have a well-balanced longitudinal and lateral tensile strength, and have a scattering prevention effect. It's also expensive.

実施例5. A  比較fl15 前記実施例1−グ、比較例1−グで使用した樹脂A、B
、Of第二表に示す工うに、実施例5、  乙の割合で
溶融混合してペレットとするか、比較例Sのように樹脂
Aをそのまま使用し、Tダイから200℃で溶融押出し
て延伸後のフィルム厚さが30μとなるよう厚みを調整
し念フィルム原反を成形した。これら原反の融点(’C
)及び結晶化熱量IJlc (cal / dθg)は
第2表のとおシである。
Example 5. A Comparison fl15 Resins A and B used in Example 1-G and Comparative Example 1-G
, Of the process shown in Table 2, either Example 5 and B are melt-mixed in the proportions shown in Table 2 to form pellets, or as in Comparative Example S, resin A is used as it is and melt-extruded through a T-die at 200°C and stretched. The thickness was adjusted so that the final film thickness was 30μ, and an original film was formed. The melting point of these raw fabrics ('C
) and crystallization heat IJlc (cal/dθg) are as shown in Table 2.

次にこれらフィルム原反f/10℃に加熱し、司法の異
なるコ本の延伸用ロール間で1倍に引取方向に延伸し、
次いでこの寸法を保ったまま130℃に調温した熱処理
ロールに60秒間接触させて、さらに100℃に調温し
たテンター内で、横方向に弘倍の延伸を行なった。
Next, these film originals were heated to f/10°C and stretched 1 times in the take-off direction between stretching rolls of different jurisdictions,
Next, while maintaining these dimensions, the film was brought into contact with a heat treatment roll whose temperature was controlled to 130°C for 60 seconds, and further stretched in the transverse direction by Hirozo in a tenter whose temperature was controlled to 100°C.

得られたフィルムの収縮率(%)及びΔnl”i第コ表
に示すとおシである。
The shrinkage percentage (%) and Δnl''i of the obtained film are shown in Table 1.

このフィルムについて、引張強度、収縮仕上シおよび飛
散防止効果を評価し、その結果ヲ笛コ表に示した。
This film was evaluated for tensile strength, shrinkage finish, and anti-scattering effect, and the results are shown in the table below.

第−表 第一表より明らかなとおり、結晶化熱量へ助(cal 
/ g)が/ 2.0%/ 0.9と73よシ小さい実
施例S、6は結晶化傾向が小さく横収縮率が充分得られ
て収縮仕上シが良い。一方、結′晶化熱量IAc (c
al / g)が/l、、!;、と13よ)大O−比較
例!では、実施例r、&と同一条件で延伸しても、結晶
化の進行にょシ横方向収縮惠が36%と弘03よシ小さ
く、収縮仕上りに幾分劣ってbる。
As is clear from Table 1, the amount of heat of crystallization (cal
/g) is /2.0%/0.9 and Examples S and 6 are smaller than 73, have a small crystallization tendency, obtain a sufficient transverse shrinkage rate, and have a good shrinkage finish. On the other hand, the heat of crystallization IAc (c
al/g) is/l,,! ;, and 13) Large O-Comparative example! Even when stretched under the same conditions as Examples R and &, the lateral shrinkage due to the progress of crystallization was 36%, which was smaller than Hiroshi 03, and the shrinkage finish was somewhat inferior.

Claims (3)

【特許請求の範囲】[Claims] (1)ポリプロピレン系樹脂からなる二軸延伸フィルム
であつて、100℃の熱水に5分間浸漬した時の熱収縮
率が一方向に40%以上、それと直角方向に15%以下
であつて、かつフィルム面内の複屈折率(Δn)が0.
01以下である収縮ラベル用ポリプロピレン糸フィルム
(1) A biaxially stretched film made of a polypropylene resin, which has a heat shrinkage rate of 40% or more in one direction and 15% or less in a direction perpendicular to the same when immersed in hot water at 100°C for 5 minutes, and the in-plane birefringence (Δn) of the film is 0.
A polypropylene thread film for shrinkable labels having a molecular weight of 01 or less.
(2)ポリプロピレン系樹脂の結晶化熱量が7〜15c
al/gである特許請求の範囲第1項記載の収縮ラベル
用ポリプロピレン系フィルム。
(2) The crystallization heat of polypropylene resin is 7 to 15 c
The polypropylene film for shrinkable labels according to claim 1, which has an al/g.
(3)ポリプロピレン系樹脂がプロピレン系重合体95
〜40重量%と石油樹脂及び/又はテルペン系樹脂5〜
60重量%からなる混合樹脂であることを特徴とする特
許請求の範囲第1項に記載の収縮ラベル用ポリプロピレ
ン系フィルム。
(3) Polypropylene resin is propylene polymer 95
~40% by weight and petroleum resin and/or terpene resin 5~
The polypropylene film for shrinkable labels according to claim 1, characterized in that it is a mixed resin consisting of 60% by weight.
JP20291385A 1985-09-13 1985-09-13 Polypropylene film for shrinkable label Granted JPS6262846A (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
JP20291385A JPS6262846A (en) 1985-09-13 1985-09-13 Polypropylene film for shrinkable label

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
JP20291385A JPS6262846A (en) 1985-09-13 1985-09-13 Polypropylene film for shrinkable label

Publications (2)

Publication Number Publication Date
JPS6262846A true JPS6262846A (en) 1987-03-19
JPH0546304B2 JPH0546304B2 (en) 1993-07-13

Family

ID=16465241

Family Applications (1)

Application Number Title Priority Date Filing Date
JP20291385A Granted JPS6262846A (en) 1985-09-13 1985-09-13 Polypropylene film for shrinkable label

Country Status (1)

Country Link
JP (1) JPS6262846A (en)

Cited By (7)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US5460878A (en) * 1992-10-26 1995-10-24 Applied Extrusion Technologies, Inc. Heat sealable shrink laminate
EP0678373A2 (en) 1989-04-07 1995-10-25 Chisso Corporation Dulled stretched molding and process for producing the same
US5851610A (en) * 1991-02-07 1998-12-22 Applied Extrusion Technologies, Inc. Shrink films and articles including the same
EP1179563A2 (en) * 2000-08-11 2002-02-13 Japan Polychem Corporation Resin composition for heat-shrinkable polypropylene shrink label and film comprising same
JP2002060566A (en) * 2000-08-11 2002-02-26 Japan Polychem Corp Resin composition for heat-shrinkable polypropylene label and film using the same
EP1336641A1 (en) * 2002-02-14 2003-08-20 Mitsui Chemicals, Inc. Polyolefin resin composition and shrink film made from the same
JP2006082383A (en) * 2004-09-16 2006-03-30 Mitsubishi Plastics Ind Ltd Heat-shrinkabie olefin film

Citations (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JPS55103931A (en) * 1979-02-02 1980-08-08 Kohjin Co Ltd Production of thermally contractible film
JPS5777534A (en) * 1980-10-31 1982-05-14 Toyobo Co Ltd Heat-shrinkable film
JPS5780027A (en) * 1980-11-06 1982-05-19 Toyobo Co Ltd Heat-shrinkable film

Patent Citations (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JPS55103931A (en) * 1979-02-02 1980-08-08 Kohjin Co Ltd Production of thermally contractible film
JPS5777534A (en) * 1980-10-31 1982-05-14 Toyobo Co Ltd Heat-shrinkable film
JPS5780027A (en) * 1980-11-06 1982-05-19 Toyobo Co Ltd Heat-shrinkable film

Cited By (9)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
EP0678373A2 (en) 1989-04-07 1995-10-25 Chisso Corporation Dulled stretched molding and process for producing the same
US5851610A (en) * 1991-02-07 1998-12-22 Applied Extrusion Technologies, Inc. Shrink films and articles including the same
US5460878A (en) * 1992-10-26 1995-10-24 Applied Extrusion Technologies, Inc. Heat sealable shrink laminate
EP1179563A2 (en) * 2000-08-11 2002-02-13 Japan Polychem Corporation Resin composition for heat-shrinkable polypropylene shrink label and film comprising same
JP2002060566A (en) * 2000-08-11 2002-02-26 Japan Polychem Corp Resin composition for heat-shrinkable polypropylene label and film using the same
EP1179563A3 (en) * 2000-08-11 2002-05-15 Japan Polychem Corporation Resin composition for heat-shrinkable polypropylene shrink label and film comprising same
US6875485B2 (en) 2000-08-11 2005-04-05 Japan Polychem Corporation Resin composition for heat-shrinkable polypropylene shrink label and film comprising same
EP1336641A1 (en) * 2002-02-14 2003-08-20 Mitsui Chemicals, Inc. Polyolefin resin composition and shrink film made from the same
JP2006082383A (en) * 2004-09-16 2006-03-30 Mitsubishi Plastics Ind Ltd Heat-shrinkabie olefin film

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