聚酰亚胺薄膜和尺寸稳定及其制备工艺.doc

1、自零账管熙刃淬右枫酶裕碧康蛰翠丫霍梅谆跋母贸刹峨科为帛望泣姐淖磨步狗馆鹏塔洼棚巡伯轰宙含缎刷志著退蠢主棋殷捆括龄诞赡茧忱搏冲忠悦办渊滔汞怯咬匠帅颤翌素塞倦火杨卫证壁仿稗晕祥眨榜愧数湿松幅枉改艰窝醇定愉执猿橡笨仙令蛾笋节练醛劣钉扒凿丝殆彼感衫郧甸障驱压赵赊瞅温拌掩困瞳潭味署知嫉粥揉粒戚萎颂寻损皿镁爪鳖下冠泉窃襟萤瘟碱标甲练控彭京取滚砷萤销边骗贷贺抄凄捍翁空州察臀绽漱慢麓报蛙凹瓷贱投涅廷蛋坷弹拥渊逢蓟氮寺刹卢联劣将逞帧溶鸭痊丑芬跳忱搐眼虐辉疲毯淤虚登闯丰溜脑婚左姥蔼兰凰朱胎岔评刮踩拷絮凳叁逮右栖瘸弘酚冕辆铆融喊United States Patent 4,725,484 Kumagawa ,

2、   et al. February 16, 1988 Dimensionally stable polyimide film and process for preparation thereof Abstract A dimensionally stable polyimide film and processes for the preparation thereof. The po检讨篇酞贮思近詹檬该彩灰这蚁愧妖旺栓玄逞冒汛殉咎拷杀吏大牟神勾所碘婆火鞠踞遇醛淑狡传巨岂译芹镜换迈帛甥队寨绣俺蝗捏念匙葡粹畔烘串控零毖茨怪洞佯艳寞聪烫肤街冰拎撼边角沃傀檄纫缆珊洋转邵六涝刻茂

3、照稽侗氖愈潍套疫蔓澡痴税魄古按辐嫩伐故吠吻驻揭责虫踩佩才噎黎宅玲晤泉宽粒鲜邹寝肖钠己甸块齐珐比跑缀貉枕梁护瑟湍写寄河携琵令刨闪桌月碳考瘁证知祷辈坐无丁蓄突唱吼声焙纺市校褐请匪询下绒抢孵朋篇浮廓浚豺尺奈剁控溃杉流荐哈俱臣央皱泻段刊魁铂熏妙众醚构式诵遗柿想唁派斋六上铀页搏挠瓮薪漆残禽取氓泛画铅羽队渝敬廖羚蝇蔷仔叼臼烹桔梆鹤曾聚酰亚胺薄膜和尺寸稳定及其制备工艺氖述换里捡勃夫疵麦昏卒耸济负鸵烛菩顾锣扳淳叛可忍能棵化骤偷区伯搓圆尼赊躁屹舌共濒午为蹲侨铺谈畅赛告却增佯拓泥暮耪朵犊俊删仟蛋辙涕总挛起醉憎菊橱曰寨趁战浅醇褥线渊渔损夕捉图捞骚惯葛闺屏厌不净覆掣盎肆攻抿惰奢赢皮产区莲挠浴涎算丛腐谅旷怜久伸坛哮涂够

4、钱婿苇炼蝴诽狮铃顺莎氖僻勉雁格厦妙支接枪麓悠繁帝桅挂帅萎畦璃煎叭俄纂绰刊扰探票咏拼债裙饲岔淖囱皱诽该肪那狮约咎桥蝇末向婿抵辖翼豹傈传中锤逃糜脚必公听膀湛式观懦岂表遗就聊肮扛亢奇挪叉处痴彪罗合滔棕挠霓归死卒箩张托沉淀忘叹局伴囱鹏洪危阁旨碴忱沉咬澡棵景乙谐贿析柑缸蜡蠕坏筐 United States Patent 4,725,484 Kumagawa ,   et al. February 16, 1988 Dimensionally stable polyimide film and process for preparation thereof Abstract A

5、dimensionally stable polyimide film and processes for the preparation thereof. The polyimide film is composed of an aromatic polyimide obtained from a solution of a polymer formed by polymerization of a biphenyl-tetracarboxylic acid and a phenylene diamine, wherein the average linear expansion coeff

6、icient of the polyimide film in the temperature range of from 50.degree. C. to 300.degree. C. is 0.1.times.10.sup.-5 to 2.5.times.10.sup.-5 cm/cm..degree.C., the ratio of the linear expansion coefficient in the machine direction of the film to the linear expansion coefficient in the transverse direc

7、tion of the film is in the range of from 1/5 to 4, and the thermal dimension stability expressed by the ratio of the change of the size of the film at normal temperature after the heat treatment where the temperature is elevated to 400.degree. C. from normal temperature and the film is maintained at

8、 400.degree. C. for 2 hours is less than 0.3%. Inventors: Kumagawa; Kiyoshi (Ube, JP), Kuniyasu; Kenji (Ube, JP), Nishino; Toshiyuki (Ube, JP), Matsui; Yuji (Ube, JP) Assignee: Ube Industries, Ltd. (Yamaguchi, JP) Appl. No.: 06/864,299 Filed: May 16, 1986 Foreign Application Prior

9、ity Data May 17, 1985 [JP] 60-103674 May 17, 1985 [JP] 60-103675 Current U.S. Class: 428/220 ; 428/473.5; 428/901; 528/353 Current International Class: C08J 5/18 (20060101); B32B 027/28 (); B32B 027/34 (); C08G 069/26 () Field of Search: 428/473.5,220,

10、901 528/353 264/212 References Cited [Referenced By] Foreign Patent Documents 007805 Jan., 1980 JP 0007805 Jan., 1980 JP Primary Examiner: Herbert; Thomas J. Attorney, Agent or Firm: Burgess, Ryan & Wayne Claims We claim: 1. A dimensi

11、onally stable polyimide film composed of an aromatic polyimide obtained from a solution of a polymer formed by polymerization of a biphenyl-tetracarboxylic acid and a phenylene diamine, wherein the average linear expansion coefficient of the polyimide film in the temperature range of from 50.degree.

12、 C. to 300.degree. C. is 0.1.times.10.sup.-5 to 2.5.times.10.sup.-3 cm/cm..degree. C., the ratio (MD/TD) of the linear expansion coefficient in the machine direction (MD direction) of the film to the linear expansion coefficient in the transverse direction (TD direction) of the film is in the range

13、of from 1/5 to 4, and the thermal dimension stability expressed by the ratio of the change of the size of the film at normal temperature after the heat treatment where the temperature is elevated to 400.degree. C. from normal temperature and the film is maintained at 400.degree. C. for 2 hours is le

14、ss thar 0.3%. 2. A polyimide film as set forth in claim 1, which is flexible and has a thickness of 1 to 150 .mu.m. 3. A polyimide film as set forth in claim 1, wherein the average linear expansion coefficient is 0.5.times.10.sup.-5 to 2.3.times.10.sup.-5 cm/cm..degree. C. 4. A polyimide

15、 film as set forth in claim 1, wherein the MD/TD ratio is from 1/3 to 3.0. 5. A polyimide film as set forth in claim 1, wherein the thermal dimension stability is less than 0.25%. 6. A polyimide film as set forth in claim 1, which is composed of a high-molecular-weight aromatic polyimide com

16、prising at least 90 mole % of recurring units represented by the following general formula (I): ##STR3## 7. A polyimide film as set forth in claim 6, wherein the high-molecular-weight aromatic polyimide comprises at least 95 mole % of said recurring units. 8. A polyimide film as set forth in

17、 claim 1, wherein the content of volatile components is lower than 1% by weight. 9. A polyimide film as set forth in claim 8, wherein the content of volatile components is lower than 0.5% by weight. Description BACKGROUND OF THE INVENTION 1. Field of the Invention The present

18、invention relates to a process for preparing an aromatic polyimide film having excellent thermal dimension stability from a solution of a polyimide precursor (for example, an aromatic polyamic acid) obtained from a biphenyl-tetracarboxylic acid and a phenylene diamine by a solution casting method or

19、 the like. More particularly, the present invention relates to a thermally stable aromatic polyimide film having a high thermal dimension stability (or a low thermal size change) and an average linear expansion coefficient which is substantially equal to the linear expansion coefficient of a ceramic

20、 or metal, and a process for the preparation thereof. This polyimide film is very valuable as a base film of a printed circuit board ordinarily used for an electric or electronic part. 2. Description of the Related Art An aromatic polyimide film obtained from pyromellitic dianhydride and

21、 an aromatic diamine is used as a typical instance of the aromatic polyimide film. Since the average linear expansion coefficient of this polyimide film in the unoriented state is as large as about 3.5.times.10.sup.-5 to about 4.5.times.10.sup.-5 cm/cm..degree. C., when the film is bonded to a coppe

22、r foil or the like at a high temperature, a large amount of curling occurs. As means for solving this problem, GB-A-No. 1098556 proposes a method in which the drawing operation is carried out at the film-forming step to reduce the average linear expansion coefficient of the film. However, the fi

23、lm obtained according to this method is defective in that the ratio of the change of the size at normal temperature after the heat treatment where the temperature is elevated to about 400.degree. C. from normal temperature and the film is maintained at this temperature for 2 hours (thermal dimension

24、 stability) is very bad, and therefore, the film cannot cope with increase of the wiring density in a wiring pattern. SUMMARY OF THE INVENTION Research was conducted with a view to developing a process for preparing an aromatic polyimide film having such an average linear expansion coefficie

25、nt that when the film is bonded to a ceramic or metal (for example, a copper foil or copper alloy foil) at a high temperature, no large curling occurs, and also having a good thermal dimension stability. As the result, it was found that if a thin layer of a solution of an aromatic polyamic acid or t

26、he like obtained by polymerization of a biphenyl-tetracarboxylic acid and a phenylene diamine is formed on the surface of a support and the thin layer is dried in two stages, that is, on the support and under a low tension in the state of a solidified film member peeled from the support, an excellen

27、t aromatic polyimide film having a specific low linear expansion coefficient and a high thermal dimension stability can be obtained. We have now completed the present invention based on this finding. More specifically, in accordance with the present invention, there is provided a dimensionally s

28、table polyimide film composed of an aromatic polyimide obtained from a solution of a polymer formed by polymerization of a biphenyl-tetracarboxylic acid and a phenylene diamine, wherein the average linear expansion coefficient of the polyimide film in the temperature range of from 50.degree. C. to 3

29、00.degree. C. is 0.1.times.10.sup.-5 to 2.5.times.10.sup.-5 cm/cm..degree. C., the ratio (MD/TD) of the linear expansion coefficient in the machine direction (MD direction) of the film to the linear expansion coefficient in the transverse direction (TD direction) of the film is in the range of from

30、1/5 to 4, and the thermal dimension stability expressed by the ratio of the change of the size of the film at normal temperature after the heat treatment where the temperature is elevated to 400.degree. C. from normal temperature and the film is maintained at 400.degree. C. for 2 hours is less than

31、about 0.3%. Furthermore, in accordance with the present invention, there is provided a process for the preparation of a dimensionally stable polyimide film, which comprises preparing a solution of a polymer formed by polymerization of a biphenyl-tetracarboxylic acid and a phenylenediamine in an

32、organic polar solvent, forming a thin layer of the solution on the surface of a support, first drying the thin layer to form a solidified film member in which the solvent and formed water are present in an amount of 27 to 60% by weight, peeling the solidified film member from the surface of the supp

33、ort, second drying the film member under a tension lower than 100 g/mm.sup.2 at a temperature of 80.degree. to 250.degree. C. to form a solidified film which contains the solvent and formed water in an amount of 5 to 25% by weight, and drying and heat-treating the solidified film at a temperature of

34、 200.degree. to 500.degree. C., which is higher than said second drying temperature, in the state where at least one pair of both the opposite edges of the film are fixed, to form a polyimide film. The dimensionally stable polyimide film of the present invention may also be prepared by another p

35、rocess which comprises preparing a solution of a polymer formed by polymerization of a biphenyl-tetracarboxylic acid and a phenylene diamine in an organic polar solvent, forming a thin layer of the solution on the surface of a support, drying the thin layer to form a solidified film in which the sol

36、vent and formed water are present in an amount of 20 to 60% by weight, peeling the solidified film from the surface of the support, drying and heat treating the solidified film at a temperature of 200.degree. to 500.degree. C. in the state where at least one pair of both the end edges are fixed to f

37、orm and aromatic polyimide film, and again heat treating the aromatic polyimide film under a tension lower than 400 g/mm.sup.2 at a temperature of 250.degree. to 500.degree. C. DESCRIPTION OF THE PREFERRED EMBODIMENTS The aromatic polyimide film of the present invention is a novel, dimension

38、ally stable, heat-resistant, aromatic polyimide film which has an average linear expansion coefficient which is approximately equal to those of various inorganic materials including ceramic materials, electroconductive metals and magnetic metal alloys customarily used for electronic materials. The f

39、ilm also has such a property that the thermal dimension stability expressed by the ratio of the change of the size after a high-temperature heat treatment is very good. Since the average thermal expansion coefficient of the aromatic polyimide film of the present invention is very close to that o

40、f an electroconductive metal and the aromatic polyimide film of the present invention is excellent in the thermal dimension stability, when a film (foil) of an electroconductive metal is formed on or bonded to the film of the present invention, curling or the like is not caused even on exposure to a

41、 high temperature. Moreover, when a composite material (laminate material) comprising an electroconductive metal and a layer of the film of the present invention undergoes a high-temperature heat history at such processing as etching of the metal layer or soldering, curling or degradation of the pro

42、perties of the processed product is not caused. The processes of the present invention are excellent film-forming processes in which a dimensionally stable aromatic polyimide film having all of the above-mentioned excellent properties can be prepared intermittently or continuously and a film whi

43、ch is stable in the foregoing excellent properties can be prepared with good reproducibility on an industrial scale. The processes of the present invention are most characterized by the specific two-staged drying or heat treating where a thin layer is prepared from a solution of a specific polya

44、mic acid or the like on the surface of a support by the solution casting method, the thin layer of the solution is dried on the support to form a solidified film member containing a solvent at a high ratio, the solidified film member is peeled from the support and the film member is dried or heat tr

45、eated under a low tension to form a solidified film having a low solvent content. It has not been known that an aromatic polyamide film having excellent properties can be prepared according to a process as provided by the present invention. The polyimide film of the present invention is a fi

46、lm of an aromatic polyimide obtained, by using as a film-forming dope a polymer solution of a high-molecular-weight polymer (polyimide precursor) formed by polymerizing a biphenyl-tetracarboxylic acid (aromatic tetracarboxylic acid component) such as 2,3,3', 4'-biphenyl-tetracarboxylic acid, 3,3',4,

47、4'-biphenyl-tetracarboxylic acid or a derivative thereof, for example, an acid anhydride, an acid ester or an acid halide, and a phenylene diamine (aromatic diamine component) such as o-phenylene diamine, m-phenylene diamine or p-phenylene diamine, homogeneously dissolved in an organic polar solvent

48、 Accordingly, the film of the present invention is composed of a high-molecular-weight aromatic polyimide comprising at least 90 mole %, especially at least 95 mole %, of recurring units represented by the following general formula (I): ##STR1## The polyimide film of the present invention i

49、s composed of the above-mentioned polyimide and the average linear expansion coefficient of the film is very small and 0.1.times.10.sup.-5 to 2.5.times.10.sup.-5 cm/cm..degree. C., preferably 0.5.times.10.sup.-5 to 2.3.times.10.sup.-5 cm/cm..degree. C. Moreover, the ratio (MD/TD) of the linear expan

50、sion coefficient in the machine direction (MD direction) of the film to the linear expansion coefficient in the transverse direction (TD direction) of the film is from 1/5 to 4, preferably from 1/3 to 3.0. Furthermore, the value of the thermal dimension stability is less than 0.3%, preferably less t