JP3238642B2 - Polyethylene naphthalene dicarboxylate for bottles - Google Patents

Polyethylene naphthalene dicarboxylate for bottles

Info

Publication number
JP3238642B2
JP3238642B2 JP10305297A JP10305297A JP3238642B2 JP 3238642 B2 JP3238642 B2 JP 3238642B2 JP 10305297 A JP10305297 A JP 10305297A JP 10305297 A JP10305297 A JP 10305297A JP 3238642 B2 JP3238642 B2 JP 3238642B2
Authority
JP
Japan
Prior art keywords
mol
compound
polymer
bottle
catalyst
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
Application number
JP10305297A
Other languages
Japanese (ja)
Other versions
JPH10292036A (en
Inventor
稔 鈴木
公彦 佐藤
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.)
Teijin Ltd
Original Assignee
Teijin Ltd
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by Teijin Ltd filed Critical Teijin Ltd
Priority to JP10305297A priority Critical patent/JP3238642B2/en
Priority to US09/033,701 priority patent/US6228447B1/en
Priority to TW087103063A priority patent/TW514583B/en
Priority to AU56406/98A priority patent/AU735548B2/en
Priority to EP98301607A priority patent/EP0863171B1/en
Priority to DE69819949T priority patent/DE69819949T2/en
Priority to DK98301607T priority patent/DK0863171T3/en
Publication of JPH10292036A publication Critical patent/JPH10292036A/en
Application granted granted Critical
Publication of JP3238642B2 publication Critical patent/JP3238642B2/en
Anticipated expiration legal-status Critical
Expired - Lifetime legal-status Critical Current

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  • Blow-Moulding Or Thermoforming Of Plastics Or The Like (AREA)
  • Polyesters Or Polycarbonates (AREA)

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】本発明はポリエチレンナフタ
レンジカルボキシレート(以下ポリエチレンナフタレー
ト又はPENと略記することがある)ポリマーに関し、
更に詳しくは熱安定性が良好で色相及び透明性に優れ、
ボトルに適したPENに関する。
The present invention relates to a polyethylene naphthalene dicarboxylate (hereinafter sometimes abbreviated as polyethylene naphthalate or PEN) polymer,
More specifically, it has good thermal stability, excellent hue and transparency,
Regarding PEN suitable for bottles.

【0002】[0002]

【従来の技術】PENはポリエチレンテレフタレート
(以下PETと略記することがある)に比べ耐熱性、ガ
スバリア−性、耐薬品性、紫外線カット性、屈折率等の
基本物性が優れていることからボトル(容器)やシート
材等に有用であることは予想されており、PETとのブ
レンド使用又は単独使用による数多くの提案が行われて
いる。中でもジュースなどの飲料用ボトルに使用される
材料については商品価値の点より、色相及び透明性に優
れた材料が強く要求されている。
2. Description of the Related Art Bottles (PEN) are superior to polyethylene terephthalate (hereinafter sometimes abbreviated as PET) because of their superior physical properties such as heat resistance, gas barrier properties, chemical resistance, ultraviolet ray cutoff, and refractive index. It is expected to be useful for containers), sheet materials, etc., and many proposals have been made by blending with PET or using alone. Above all, as for materials used for beverage bottles such as juices, materials excellent in hue and transparency are strongly demanded from the viewpoint of commercial value.

【0003】PENは基本的にPETと同様な触媒で反
応させることができ、特に色相面及びコスト面から重合
触媒として、三酸化アンチモンを用いると有効であるこ
とが予想されている。しかし、PENはPETと比べる
とボトル成形時のブロー延伸等で白化が起こりやすく、
発明者等の研究ではボトル(製品)の透明性の面では十
分に満足しうるものが得られない。
[0003] PEN can be basically reacted with a catalyst similar to PET, and it is expected that the use of antimony trioxide as a polymerization catalyst will be particularly effective in terms of hue and cost. However, compared to PET, PEN is more likely to be whitened by blow stretching during bottle molding, etc.
According to the studies by the inventors, a bottle (product) having a satisfactory transparency cannot be obtained.

【0004】[0004]

【発明の解決するべき課題】本発明者等は、この白化を
起こす要因を解明した結果、触媒に起因する触媒析出物
による内部へーズとその触媒析出物粒子が誘発する結晶
化とによるものとの推定を得た。特にPENの場合、P
ETに比べボトル成形(延伸)時の応力が非常に大きく
なり、その影響が出やすいとも推定された。
As a result of elucidating the cause of the whitening, the present inventors have found that the internal haze due to the catalyst precipitate caused by the catalyst and the crystallization induced by the catalyst precipitate particles are considered. Was obtained. Especially for PEN, P
It was presumed that the stress at the time of forming (stretching) the bottle was much larger than that of ET, and that the effect was likely to occur.

【0005】即ち、白化を抑制するためには触媒等によ
る析出物の量を低減する必要が有る。この手段として特
定の触媒種、量を限定することが提案されており、この
触媒系によりPENの透明性は確かに向上した。しかし
ながら、色相及び熱安定性の面で充分満足いくものは未
だ得られていない。この原因は析出物の生成を抑制すべ
くエステル交換触媒を失活させるために用いるリン化合
物の添加量が所定量より少なくなり、触媒作用が完全に
失活されておらず、その結果ポリマーの成形等に際し、
その分解速度が大きくなることによると推定される。
That is, in order to suppress whitening, it is necessary to reduce the amount of precipitates caused by a catalyst or the like. It has been proposed to limit the type and amount of a specific catalyst as this means, and this catalyst system certainly improved the transparency of PEN. However, no satisfactory color and heat stability have been obtained yet. This is because the amount of the phosphorus compound used to deactivate the transesterification catalyst in order to suppress the formation of precipitates becomes smaller than a predetermined amount, and the catalytic action is not completely deactivated. On the occasion,
It is estimated that the decomposition rate increases.

【0006】ボトルの成形時にポリマーの溶融粘度が適
切でないとボトル表面の平滑性、均一な肉厚分布が確保
出来なかったり、へーズが著しく悪化し、くもりが発生
する。
If the melt viscosity of the polymer is not appropriate at the time of molding the bottle, the smoothness and uniform thickness distribution of the bottle surface cannot be ensured, or the haze is significantly deteriorated and clouding occurs.

【0007】本発明は、熱安定性が良好でしかも色相や
透明性に優れたポリエチレンナフタレンジカルボキシレ
ートを得ることを課題とする。
An object of the present invention is to obtain a polyethylene naphthalenedicarboxylate having good thermal stability and excellent hue and transparency.

【0008】[0008]

【課題を解決するための手段】本発明者らは、上記実情
にかんがみ鋭意検討した結果、特定の触媒の種、量及び
リン化合物量を最適化することにより熱安定性が良好で
しかも色相や透明性に優れたポリエチレンナフタレンジ
カルボキシレートが得られる事を見出した。
Means for Solving the Problems The inventors of the present invention have made intensive studies in view of the above-mentioned circumstances, and as a result, by optimizing the type and amount of a specific catalyst and the amount of a phosphorus compound, the heat stability and the hue have been improved. It has been found that polyethylene naphthalenedicarboxylate having excellent transparency can be obtained.

【0009】即ち、本発明は、ポリエチレンナフタレン
ジカルボキシレート中に存在するコバルト化合物、マン
ガン化合物、リン化合物及びアンチモン化合物が下記式
(1)〜(4)を同時に満たし、ポリマーの固有粘度
[η]が下記式(5)を満たすボトル用ポリエチレンナフ
タレンジカルボキシレートである。
That is, according to the present invention, the cobalt compound, the manganese compound, the phosphorus compound and the antimony compound present in polyethylene naphthalenedicarboxylate simultaneously satisfy the following formulas (1) to (4), and have an intrinsic viscosity of the polymer:
[η] is polyethylene naphthalenedicarboxylate for bottles satisfying the following formula (5).

【0010】[0010]

【数5】 0.04≦Co≦2.4モル (1) 0.6≦Mn≦2.1モル (2) 0.7≦P/(Co+Mn)≦1.5 (3) 0.8≦Sb≦3.0モル (4) (但し、上記数式中の各金属元素は酸成分106g当た
りのモル数を示す。)
0.04 ≦ Co ≦ 2.4 mol (1) 0.6 ≦ Mn ≦ 2.1 mol (2) 0.7 ≦ P / (Co + Mn) ≦ 1.5 (3) 0.8 ≦ Sb ≦ 3.0 mol (4) (However, each metal element in the above formula indicates the number of moles per 10 6 g of the acid component.)

【0011】[0011]

【数6】 0.60<[η]≦0.80 (5)0.60 <[η] ≦ 0.80 (5)

【0012】以下本発明を詳細に説明する。本発明にお
いてポリエチレンナフタレンジカルボキシレートは、ポ
リエステルを構成する主たるジカルボン酸成分がナフタ
レンジカルボン酸であり、主たるジオール成分がエチレ
ングリコールであるポリエステルである。
Hereinafter, the present invention will be described in detail. In the present invention, the polyethylene naphthalenedicarboxylate is a polyester in which the main dicarboxylic acid component constituting the polyester is naphthalenedicarboxylic acid and the main diol component is ethylene glycol.

【0013】ここに主たる成分とは全ジカルボン酸成分
に対して70モル%を超える成分、好ましくは80モル
%を超える成分を言う。従って、30モル%未満の他の
成分が共重合成分又は高分子混合物成分として含有され
てもよい。
The term "main component" as used herein means a component exceeding 70 mol%, preferably a component exceeding 80 mol%, based on all dicarboxylic acid components. Therefore, less than 30 mol% of other components may be contained as a copolymer component or a polymer mixture component.

【0014】本発明におけるポリエチレンナフタレンジ
カルボキシレートは、ポリエチレンー2,6ーナフタレ
ンジカルボキシレートのホモポリマーを主たる対象とす
るが、例えば2,6ーナフタレンジカルボン酸成分の一
部、例えば30モル%未満、好ましくは20モル%未満
を、2,7ー、1,5ー、1,7ーその他のナフタレンジ
カルボン酸の異性体或はテレフタル酸或はイソフタル
酸、ナフタレンジカルボン酸、ジフェニルジカルボン
酸、ジフェノキシエタンジカルボン酸、ジフェニルエー
テルジカルボン酸、ジフェニルスルホンジカルボン酸等
のごとき他の芳香族ジカルボン酸、ヘキサヒドロテレフ
タル酸、ヘキサヒドロイソフタル酸等の如き脂環属族ジ
カルボン酸、アジピン酸、セバチン酸、アゼライン酸等
の如き脂肪族ジカルボン酸、p−βーヒドロキシエトキ
シ安息香酸、εーオキシカプロン酸等の如きオキシ酸等
の他の二官能性カルボン酸で置き換えても良い。
The polyethylene naphthalenedicarboxylate in the present invention is mainly intended for a homopolymer of polyethylene-2,6-naphthalenedicarboxylate. For example, a part of the 2,6-naphthalenedicarboxylic acid component, for example, 30 mol% Less than 20 mol%, preferably 2,7-, 1,5-, 1,7-other isomers of naphthalenedicarboxylic acid or terephthalic acid or isophthalic acid, naphthalenedicarboxylic acid, diphenyldicarboxylic acid, diphenyldicarboxylic acid, Other aromatic dicarboxylic acids such as phenoxyethane dicarboxylic acid, diphenyl ether dicarboxylic acid, diphenyl sulfone dicarboxylic acid, alicyclic dicarboxylic acids such as hexahydroterephthalic acid and hexahydroisophthalic acid, adipic acid, sebacic acid, azelaic acid Aliphatic dicarboxylic acids such as p-beta-hydroxy ethoxy benzoic acid, may be replaced by other difunctional carboxylic acids, such as such as oxy acids such as ε Okishikapuron acid.

【0015】更に、エチレングリコール成分の一部、例
えば、30モル%未満、好ましくは20モル%未満を例
えばトリメチレングリコール、テトラメチレングリコー
ル、ヘキサメチレングリコール、デカメチレングリコー
ル、ネオペンチルグリコール、ジエチレングリコール、
1,1ーシクロヘキサンジメタノール、1,4ーシクロヘ
キサンジメタノール、2,2ービス(4‘ーβーヒドロ
キシフェニル)プロパン、ビス(4’ーβーヒドロキシ
エトキシフェニル)スルホン酸等の他の多官能化合物の
1種以上で共重合せしめたコポリマーであってもよい。
Further, a part of the ethylene glycol component, for example, less than 30 mol%, preferably less than 20 mol%, for example, trimethylene glycol, tetramethylene glycol, hexamethylene glycol, decamethylene glycol, neopentyl glycol, diethylene glycol,
Other polyfunctional such as 1,1-cyclohexanedimethanol, 1,4-cyclohexanedimethanol, 2,2-bis (4′-β-hydroxyphenyl) propane, bis (4′-β-hydroxyethoxyphenyl) sulfonic acid It may be a copolymer obtained by copolymerizing at least one compound.

【0016】本発明にポリエチレンナフタレンジカルボ
キシレートをエステル交換法で得る場合、ナフタレンジ
カルボン酸の低級アルカリエステルと通常のエチレング
レコールに、酸成分106g当たり0.04〜2.4モル
のコバルト化合物及び酸成分106g当たり0.6〜
2.1モルのマンガン化合物をエステル交換反応触媒と
して添加する。
When the polyethylene naphthalenedicarboxylate is obtained by the transesterification method according to the present invention, 0.04-2.4 mol of cobalt per 10 6 g of the acid component is added to the lower alkali ester of naphthalenedicarboxylic acid and ordinary ethylene glycol. 0.6 to 0.6 g per 10 6 g of compound and acid component
2.1 mol of a manganese compound are added as a transesterification catalyst.

【0017】本明細書において、触媒量は酸成分106
g当たりのモル数であり、モル/106gを単位として
表記する。
In the present specification, the amount of the catalyst is 10 6
It is the number of moles per g and is expressed in units of mol / 10 6 g.

【0018】コバルト化合物を添加しめる目的は、エス
テル交換反応触媒の効果に加えて、色相悪化の原因であ
る黄色化を抑制するものであリ、その添加量が0.04
モル/106g未満では効果が発現せず、逆に2.4モ
ル/106gを超えると色相が灰色化し、色相の悪化を
もたらしたり透明性低下を引起こす。
The purpose of adding the cobalt compound is to suppress the yellowing, which is a cause of deterioration of the hue, in addition to the effect of the transesterification catalyst.
When the amount is less than mol / 10 6 g, no effect is exhibited. On the other hand, when the amount exceeds 2.4 mol / 10 6 g, the hue becomes gray, resulting in deterioration of the hue or reduction in transparency.

【0019】マンガン化合物については、その合計量が
2.1モル/106gを超えると触媒残さによる析出粒
子の影響によって成形した際に白化現象がみられ、透明
性がそこなわれる。逆に0.6/106g未満ではエス
テル交換反応が不十分になるばかりか、その後の重合反
応も遅くなり好ましくない。
When the total amount of the manganese compounds exceeds 2.1 mol / 10 6 g, whitening is observed in the molding due to the influence of precipitated particles due to the catalyst residue, and the transparency is impaired. Conversely, if the amount is less than 0.6 / 10 6 g, not only the transesterification reaction becomes insufficient, but also the subsequent polymerization reaction becomes slow, which is not preferable.

【0020】さらに、エステル交換触媒を失活させるた
めにリン化合物を添加するものであるが、リン化合物の
添加量(モル比)はコバルト化合物及びマンガン化合物
の合計添加量に対し、0.7〜1.5の範囲とする必要
がある。このモル比が0.7未満であると、エステル交
換触媒が完全に失活せず、熱安定性が悪く、その影響で
ポリマーが着色したり、成形時の物性低下をもたらす不
都合がある。逆に、1.5を越えても熱安定性に好まし
くない。
Further, a phosphorus compound is added in order to deactivate the transesterification catalyst, and the amount of the phosphorus compound (molar ratio) is 0.7 to 0.7% of the total amount of the cobalt compound and the manganese compound. It needs to be in the range of 1.5. When the molar ratio is less than 0.7, the transesterification catalyst is not completely deactivated, and the thermal stability is poor, which causes disadvantages that the polymer is colored or the physical properties at the time of molding are deteriorated. Conversely, if it exceeds 1.5, thermal stability is not preferred.

【0021】尚、本発明において用いられるマンガン化
合物は酸化物、塩化物、炭酸塩、カルボン酸塩として用
いることが可能である。特に酢酸塩、すなわち酢酸マン
ガンが好ましい。
The manganese compound used in the present invention can be used as an oxide, chloride, carbonate, or carboxylate. Particularly, acetate, that is, manganese acetate is preferred.

【0022】リン化合物はトリメチルホスフェート、ト
リエチレンホスフェート又はトリーnーブチルホスフェ
ート及び正リン酸が挙げられる。好ましくはトリメチル
ホスフェートである。
The phosphorus compound includes trimethyl phosphate, triethylene phosphate or tri-n-butyl phosphate and orthophosphoric acid. Preferably it is trimethyl phosphate.

【0023】重合反応触媒としては、色相の面からアン
チモン化合物として、三酸化アンチモンを用いるのが好
ましい。三酸化アンチモンの添加量としては少なすぎる
と重合反応性が低くなって生産性が悪く、逆に多すぎる
と熱安定性が劣って成形時の物性低下及び色相悪化を招
くことから、0.8〜3.0モル/106gの範囲が好
ましい。
As the polymerization reaction catalyst, it is preferable to use antimony trioxide as an antimony compound in terms of hue. If the amount of antimony trioxide is too small, the polymerization reactivity becomes low and the productivity is poor.On the other hand, if it is too large, the thermal stability is inferior and the physical properties during molding and the hue are deteriorated. The range is preferably from 3.0 mol / 10 6 g.

【0024】前述の種々の触媒の添加時期はコバルト化
合物、マンガン化合物においてはエステル交換反応開始
前からエステル交換反応初期の間にすべてを添加するの
が好ましい。
It is preferable that all of the above-mentioned various catalysts are added during the period from the start of the transesterification reaction to the beginning of the transesterification reaction for the cobalt compound and the manganese compound.

【0025】一方、リン化合物はエステル交換反応が実
質的に終了した後、固有粘度が0.3に達する迄に添加
出来る。又、アンチモン化合物は前述のエステル交換触
媒と同時に添加しても良い。
On the other hand, the phosphorus compound can be added until the intrinsic viscosity reaches 0.3 after the transesterification reaction is substantially completed. Further, the antimony compound may be added simultaneously with the above-mentioned transesterification catalyst.

【0026】溶融重合によって得られたプレポリマーの
固有粘度[η]eが下記式(6)を満たすことが好まし
い。
The intrinsic viscosity [η] e of the prepolymer obtained by melt polymerization preferably satisfies the following formula (6).

【0027】[0027]

【数7】 0.40≦[η]e≦0.60 (6)[Equation 7] 0.40 ≦ [η] e ≦ 0.60 (6)

【0028】0.40より固有粘度が低いと、チップ化
する際に、割れ等を引き起す、又0.60より高いと重
合時間が長くなり、色相が悪化する。得られたポリマー
は公知の方法で固相重合を行う。
If the intrinsic viscosity is lower than 0.40, cracks or the like are caused when the chips are formed. If the intrinsic viscosity is higher than 0.60, the polymerization time is prolonged and the hue is deteriorated. The obtained polymer is subjected to solid-phase polymerization by a known method.

【0029】固相重合後のポリマーの固有粘度[η]を下
記式(5)の範囲にすることが、PENボトル成形のた
めには重要である。
It is important to make the intrinsic viscosity [η] of the polymer after the solid-phase polymerization fall within the range of the following formula (5) for molding a PEN bottle.

【0030】[0030]

【数8】 0.60<[η]≦0.80 (5)0.60 <[η] ≦ 0.80 (5)

【0031】固有粘度[η]が0.60より低いとポリマ
ーは成形中に結晶化しやすく、白化を生ずるばかりか溶
融粘度が低すぎてブロー成形性が悪くなる。逆に固有粘
度[η]が0.80より高いと通常の成形温度でプリフォ
ームを成形する場合溶融粘度が高すぎて成形不良を起こ
す。そこで、溶融粘度を低下させるために成形温度を上
げると成形品の粘度が低下し、結晶化しやすくなり、白
化するほか色相の悪化を引き起こす。
If the intrinsic viscosity [η] is lower than 0.60, the polymer tends to crystallize during molding, causing not only whitening but also a low melt viscosity, resulting in poor blow moldability. On the other hand, if the intrinsic viscosity [η] is higher than 0.80, when the preform is molded at a normal molding temperature, the melt viscosity is too high and molding failure occurs. Therefore, if the molding temperature is increased to lower the melt viscosity, the viscosity of the molded product is reduced, and the molded product is easily crystallized, causing whitening and deterioration of hue.

【0032】ポリマー中のアセトアルデヒド量は5pp
m以下であることが好ましい。此れをこえると、ボトル
充填物中にアセトアルデヒドが溶出し、内容物に異臭を
与える。
The amount of acetaldehyde in the polymer is 5 pp
m or less. Above this, acetaldehyde elutes into the bottle filling, giving the contents an off-flavor.

【0033】本ポリマーの固有粘度を上記の範囲にする
ために固相重合を行なうことが好ましい。固相重合は公
知の方法で行なうことができる。
It is preferable to carry out solid-phase polymerization in order to keep the intrinsic viscosity of the present polymer in the above range. Solid phase polymerization can be performed by a known method.

【0034】[0034]

【実施例】以下に実施例を挙げて本発明を更に具体的に
説明する。なお、例中の部は「重量部」を意味する。
The present invention will be described more specifically with reference to the following examples. The parts in the examples mean "parts by weight".

【0035】(1)固有粘度([η]):テトラクロロ
エタン:フェノ−ル=4:6の混合溶媒として35℃で
測定。
(1) Intrinsic viscosity ([η]): Measured at 35 ° C. as a mixed solvent of tetrachloroethane: phenol = 4: 6.

【0036】(2)Col−L、b(色相):ポリマー
を160度×90分乾燥機中で熱処理し、結晶化させた
後、カラーマシン社製CM−7500型カラーマシンで
測定。
(2) Col-L, b (hue): The polymer was heat-treated in a dryer at 160 ° C. for 90 minutes to crystallize, and then measured using a color machine CM-7500 type color machine.

【0037】(3)ヘーズ:ポリマーを160℃で5時
間乾燥した後、名機製作所製の射出成形機100DMを
用い成形温度300℃で55gのプリフォームを成形
し、これをブロー延伸し内容積1.5リットル、胴部肉
厚300μmのボトルとした。このボトル胴部のヘーズ
を日本電色工業社製濁度計にて測定。
(3) Haze: After drying the polymer at 160 ° C. for 5 hours, a preform of 55 g was molded at a molding temperature of 300 ° C. using an injection molding machine 100DM manufactured by Meiki Seisakusho, and this was blow-stretched and the internal volume was increased. The bottle was 1.5 liters and had a body thickness of 300 μm. The haze of the body of the bottle was measured with a turbidity meter manufactured by Nippon Denshoku Industries Co., Ltd.

【0038】(4)アセトアルデヒド量:サンプルを凍
結粉砕した後、HS−GC(日立社製)にて測定。
(4) Acetaldehyde amount: The sample was freeze-pulverized and measured by HS-GC (manufactured by Hitachi, Ltd.).

【0039】[実施例1]2、6ーナフタレンジカルボ
ン酸ジメチルエステル100部とエチレングリコール
(EGと略記する)51部とを酢酸コバルト四水塩0.
005部(0.2モル/106g)、酢酸マンガン四水
塩0.029部(1.2モル/106g)をエステル交
換触媒として用い、三酸化アンチモンのEG1%溶液
0.032部(1.1モル/106g)添加したのち常
法に従ってエステル交換反応させ、トリメチルフォスフ
ェート0.025部(1.8モル/106g)を添加
し、エステル交換反応を終了せしめた。引き続き常法に
て高温高真空下で重縮合反応を行い、その後ストランド
型のチップとした。得られたポリマーの固有粘度は0.
50で有り、重合時間は70分であった。このポリマー
を常法にて固相重合し得られたポリマーの固有粘度[η]
は0.71であった。又、このポリマーを用いシリンダ
ー温度300℃にて射出成形し得られたプリフォームを
ブロー成形し1.5リットルボトルを得た。ボトルヘー
ズは1.7%であった。
[Example 1] 100 parts of 2,6-naphthalenedicarboxylic acid dimethyl ester and 51 parts of ethylene glycol (abbreviated as EG) were mixed with 0.1 part of cobalt acetate tetrahydrate.
Using 005 parts (0.2 mol / 10 6 g) and 0.029 parts (1.2 mol / 10 6 g) of manganese acetate tetrahydrate as a transesterification catalyst, 0.032 parts of a 1% EG 1% solution of antimony trioxide was used. (1.1 mol / 10 6 g), followed by a transesterification reaction according to a conventional method, and 0.025 parts (1.8 mol / 10 6 g) of trimethyl phosphate were added to terminate the transesterification reaction. Subsequently, a polycondensation reaction was carried out under a high temperature and a high vacuum by an ordinary method, and then a strand type chip was obtained. The intrinsic viscosity of the obtained polymer is 0.1.
50, and the polymerization time was 70 minutes. Intrinsic viscosity [η] of polymer obtained by solid-state polymerization of this polymer by a conventional method
Was 0.71. A preform obtained by injection molding using the polymer at a cylinder temperature of 300 ° C. was blow molded to obtain a 1.5 liter bottle. The bottle haze was 1.7%.

【0040】[実施例2、比較例1〜11]酢酸コバル
ト四水塩、酢酸マンガン四水塩、トリメチルフォスフェ
ート、三酸化アンチモンの量、比率を表1に示す様に変
更する以外は、実施例1と同様に行った。また、これら
の得られたポリマー品質及び各評価結果を併せて表1に
示した。
Example 2, Comparative Examples 1 to 11 The procedure was carried out except that the amounts and ratios of cobalt acetate tetrahydrate, manganese acetate tetrahydrate, trimethyl phosphate and antimony trioxide were changed as shown in Table 1. It carried out like Example 1. Table 1 also shows the obtained polymer quality and each evaluation result.

【0041】[比較例12]ジメチルテレフタレート1
00部とエチレングリコール(EGと略記する)51部
とを酢酸マンガン四水塩0.073部(3.0モル/1
6g)をエステル交換触媒として用い、常法に従って
エステル交換反応させ三酸化アンチモンのEG1%溶液
0.029部(1.0モル/106g)添加したのちト
リメチルフォスフェート0.042部(3.0モル/1
006g)を添加し、エステル交換反応を終了せしめ
た。引き続き常法にて高温高真空下で重縮合反応を行
い、その後ストランド型のチップとした。得られたポリ
マーの固有粘度は0.62で有り、重合時間は70分で
あった。このポリマーを常法にて固相重合し得られたポ
リマーの固有粘度[η]は0.79であった。又、このポ
リマーを用いシリンダー温度275℃にて射出成形し得
られたプリフォームをブロー成形し1.5リットルボト
ルを得た。ボトルヘーズは5.0%であった。
Comparative Example 12 Dimethyl Terephthalate 1
00 parts and 51 parts of ethylene glycol (abbreviated as EG) were mixed with 0.073 parts of manganese acetate tetrahydrate (3.0 mol / l).
0 with 6 g) as an ester exchange catalyst, EG1% solution 0.029 parts of antimony trioxide were transesterification according to a conventional method (1.0 mol / 10 6 g) trimethyl phosphate 0.042 parts after addition ( 3.0 mol / 1
00 6 g) was added and allowed to exit the transesterification reaction. Subsequently, a polycondensation reaction was carried out under a high temperature and a high vacuum by an ordinary method, and then a strand type chip was obtained. The intrinsic viscosity of the obtained polymer was 0.62, and the polymerization time was 70 minutes. The intrinsic viscosity [η] of the polymer obtained by subjecting this polymer to solid-state polymerization by a conventional method was 0.79. A preform obtained by injection molding using this polymer at a cylinder temperature of 275 ° C. was blow molded to obtain a 1.5 liter bottle. The bottle haze was 5.0%.

【0042】[0042]

【表1】 [Table 1]

【0043】[0043]

【発明の効果】本発明のポリエチレンナフタレンジカル
ボキシレートは色相が良好で、ボトル形成時の白化(く
もり)が小さく透明性に優れておりボトル用に用途展開
が可能で商品価値の高いボトル製品となりうる。
EFFECT OF THE INVENTION The polyethylene naphthalenedicarboxylate of the present invention has a good hue, has little whitening (cloudiness) at the time of forming a bottle, has excellent transparency, and can be used for a bottle and has a high commercial value. sell.

───────────────────────────────────────────────────── フロントページの続き (56)参考文献 特開 平7−258394(JP,A) 特開 平10−218979(JP,A) 特開 平9−77859(JP,A) (58)調査した分野(Int.Cl.7,DB名) C08G 63/00 - 63/91 ────────────────────────────────────────────────── ─── Continuation of the front page (56) References JP-A-7-258394 (JP, A) JP-A-10-218979 (JP, A) JP-A 9-77859 (JP, A) (58) Survey Field (Int. Cl. 7 , DB name) C08G 63/00-63/91

Claims (4)

(57)【特許請求の範囲】(57) [Claims] 【請求項1】 ポリエチレンナフタレンジカルボキシレ
ート中に存在するコバルト化合物、マンガン化合物、リ
ン化合物及びアンチモン化合物が下記式(1)〜(4)
を同時に満たし、ポリマーの固有粘度[η]が下記式
(5)を満たすボトル用ポリエチレンナフタレンジカル
ボキシレート。 【数1】 0.04≦Co≦2.4モル (1) 0.6≦Mn≦2.1モル (2) 0.7≦P/(Co+Mn)≦1.5 (3) 0.8≦Sb≦3.0モル (4) (但し、上記数式中の各金属元素は酸成分106g当た
りのモル数を示す。) 【数2】 0.60<[η]≦0.80 (5)
1. The method according to claim 1, wherein the cobalt compound, the manganese compound, the phosphorus compound and the antimony compound present in the polyethylene naphthalenedicarboxylate are represented by the following formulas (1) to (4):
At the same time, and the intrinsic viscosity [η] of the polymer satisfies the following formula (5). ## EQU1 ## 0.04 ≦ Co ≦ 2.4 mol (1) 0.6 ≦ Mn ≦ 2.1 mol (2) 0.7 ≦ P / (Co + Mn) ≦ 1.5 (3) 0.8 ≦ Sb ≦ 3.0 mol (4) (However, each metal element in the above formula indicates the number of mols per 10 6 g of the acid component.) 0.60 <[η] ≦ 0.80 (5) )
【請求項2】 コバルト化合物、マンガン化合物、リン
化合物及びアンチモン化合物が触媒に由来する化合物で
ある請求項1に記載のボトル用ポリエチレンナフタレン
ジカルボキシレート。
2. The polyethylene naphthalenedicarboxylate for a bottle according to claim 1, wherein the cobalt compound, manganese compound, phosphorus compound and antimony compound are compounds derived from a catalyst.
【請求項3】 ポリエチレンナフタレンジカルボキシレ
ート中に存在するコバルト化合物、マンガン化合物、リ
ン化合物及びアンチモン化合物が下記式(1)〜(4)
を同時に満たし、固相重合に供するポリマーの固有粘度
[η]eが下記式(6)を満たすボトル用ポリエチレンナ
フタレンジカルボキシレート。 【数3】 0.04≦Co≦2.4モル (1) 0.6≦Mn≦2.1モル (2) 0.7≦P/(Co+Mn)≦1.5 (3) 0.8≦Sb≦3.0モル (4) (但し、上記数式中の各金属元素は酸成分106g当た
りのモル数を示す。) 【数4】 0.40≦[η]e≦0.60 (6)
3. A method according to claim 1, wherein the cobalt compound, the manganese compound, the phosphorus compound and the antimony compound present in the polyethylene naphthalenedicarboxylate are represented by the following formulas (1) to (4).
At the same time, and the intrinsic viscosity of the polymer used for solid-state polymerization
[η] e is polyethylene naphthalenedicarboxylate for bottles satisfying the following formula (6). 0.04 ≦ Co ≦ 2.4 mol (1) 0.6 ≦ Mn ≦ 2.1 mol (2) 0.7 ≦ P / (Co + Mn) ≦ 1.5 (3) 0.8 ≦ Sb ≦ 3.0 mol (4) (where each metal element in the above formula represents the number of mols per 10 6 g of the acid component.) 0.40 ≦ [η] e ≦ 0.60 ( 6)
【請求項4】 ボトルに成形した際の胴部ヘーズが2%
以下である請求項1に記載のボトル用ポリエチレンナフ
タレンジカルボキシレート。
4. The haze of the body when molded into a bottle is 2%.
The polyethylene naphthalenedicarboxylate for a bottle according to claim 1, which is:
JP10305297A 1997-03-06 1997-04-21 Polyethylene naphthalene dicarboxylate for bottles Expired - Lifetime JP3238642B2 (en)

Priority Applications (7)

Application Number Priority Date Filing Date Title
JP10305297A JP3238642B2 (en) 1997-04-21 1997-04-21 Polyethylene naphthalene dicarboxylate for bottles
TW087103063A TW514583B (en) 1997-03-06 1998-03-03 Polyethylene-2, 6-naphthalene dicarboxylate resin and preform and bottle molded thereof
AU56406/98A AU735548B2 (en) 1997-03-06 1998-03-03 Polyethylene-2,6-naphthalene dicarboxylate resin and preform and bottle molded thereof
US09/033,701 US6228447B1 (en) 1997-03-06 1998-03-03 Polyethylene-2,6-naphthalene dicarboxylate resin and preform and bottle molded thereof
EP98301607A EP0863171B1 (en) 1997-03-06 1998-03-04 Process for preparing polyethylene-2,6-naphthalene dicarboxylate resin.
DE69819949T DE69819949T2 (en) 1997-03-06 1998-03-04 Process for the production of polyethylene-2,6-naphthalenedicarboxylate resin
DK98301607T DK0863171T3 (en) 1997-03-06 1998-03-04 Process for Preparation of Polyethylene-2,6-Naphthalene Dicarboxylate Resin

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
JP10305297A JP3238642B2 (en) 1997-04-21 1997-04-21 Polyethylene naphthalene dicarboxylate for bottles

Publications (2)

Publication Number Publication Date
JPH10292036A JPH10292036A (en) 1998-11-04
JP3238642B2 true JP3238642B2 (en) 2001-12-17

Family

ID=14343910

Family Applications (1)

Application Number Title Priority Date Filing Date
JP10305297A Expired - Lifetime JP3238642B2 (en) 1997-03-06 1997-04-21 Polyethylene naphthalene dicarboxylate for bottles

Country Status (1)

Country Link
JP (1) JP3238642B2 (en)

Also Published As

Publication number Publication date
JPH10292036A (en) 1998-11-04

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