CN105601922B - Polyamic acid for two layers of flexible glue-free copper coated plate of method production and preparation method thereof - Google Patents
Polyamic acid for two layers of flexible glue-free copper coated plate of method production and preparation method thereof Download PDFInfo
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- CN105601922B CN105601922B CN201610059618.4A CN201610059618A CN105601922B CN 105601922 B CN105601922 B CN 105601922B CN 201610059618 A CN201610059618 A CN 201610059618A CN 105601922 B CN105601922 B CN 105601922B
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- C—CHEMISTRY; METALLURGY
- C08—ORGANIC MACROMOLECULAR COMPOUNDS; THEIR PREPARATION OR CHEMICAL WORKING-UP; COMPOSITIONS BASED THEREON
- C08G—MACROMOLECULAR COMPOUNDS OBTAINED OTHERWISE THAN BY REACTIONS ONLY INVOLVING UNSATURATED CARBON-TO-CARBON BONDS
- C08G73/00—Macromolecular compounds obtained by reactions forming a linkage containing nitrogen with or without oxygen or carbon in the main chain of the macromolecule, not provided for in groups C08G12/00 - C08G71/00
- C08G73/06—Polycondensates having nitrogen-containing heterocyclic rings in the main chain of the macromolecule
- C08G73/10—Polyimides; Polyester-imides; Polyamide-imides; Polyamide acids or similar polyimide precursors
- C08G73/1085—Polyimides with diamino moieties or tetracarboxylic segments containing heterocyclic moieties
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Abstract
For the polyamic acid of two layers of flexible glue-free copper coated plate of method production, it is polymerized by 3 kinds of monomer aromatic diamines:3,4 diaminodiphenyl ethers, p-phenylenediamine and molecular structure areCAS accession number is 7,621 86 52 (4 aminophenyl) 5 aminobenzimidazoles, and proportioning is 26:2‑6:1.Substance in 3 is dissolved in N, in N solvent dimethylformamides, it is cooled to 10 to 5 degrees Celsius, when 5 10 is small, interior point of 5 10 batches add in equimolar aromatic tetrahydric dianhydride, when maintaining 10 degrees Celsius to 5 degrees Celsius reactions 40 50 small, generating its polymerization, solid content is 10 15 grams/100 milliliters and viscosity is more than or equal to 8000cp, number-average molecular weight is 50000~76000, molecular weight distributing index<1.4 polyamic acid solution.The molecular structure of the polyamic acid so synthesized and copper coefficient of expansion CTE match, by introducing characteristic functional group --- the diamines containing glyoxaline structure, amine on imidazoles can form coordination with copper and be good for, enhancing and the connection of copper, so as to improve the adhesive force between finished product polyimide film and copper foil.
Description
Technical field
The present invention relates to flexible printed wiring board field more particularly to flexibility is being prepared without glue coated polyimide with two layers of method
During copper coin, polyimide precursor --- polyamic acid and preparation method thereof.
Background technology
Polyimide copper clad lamination is obtained in fields such as telecommunication, computer, automobiles and extensively should with its unique property of interconnections
With the whole world is with 10%~15% annual growth sustainable growth, and global dosage is more than 1,500,000,000 dollars within 2013.There is glue polyamides at present
Imines copper-clad plate is due to its flexility, and heat resistance, dimensional stability is bad, and application field is very limited.And without glue polyamides
Compared with imines copper-clad plate has glue polyimide copper clad lamination with tradition, heat resistance is greatly improved, and the region service life of destroying or force to yield significantly carries
Height, Rigid Flex realize high density interconnection, substantially increase the connection efficiency of circuit.
At present, it is external nearly all to be produced using two layers of method without glue system polyimide copper clad lamination, according to difference in two layers of method
Technique is divided into as 4 kinds of manufacturing methods, i.e.,:The tape casting, metallikon, chemical plating/galvanoplastic and laminating, but the above method is required for
Expensive special import equipment, of high cost, complex process, speed is in 2-3m/min, and efficiency is low, high energy consumption.Also, no glue system gathers
The dimensional stability of acid imide copper-clad plate is a huge test.Polyimides will be combined together with copper, due to the two
Coefficient of thermal expansion (CET) is different, is being subject to cold and hot effect, especially warms the precursor polyamic acid of polyimides in height
During imidizate postcooling, warpage, cracking even delamination will occur because of the mismatch of the two coefficient of thermal expansion, cause existing
There is the poor dimensional stability of glue-free copper coated plate.Polyamic acid is the precursor of polyimides, and chemical constitution directly determines polyamides
The performance of imines, the molecular structure of synthesizing polyamides acid is difficult to be matched very much with copper coefficient of expansion CTE in the prior art, is caused into
Adhesive force between product polyimide film and copper foil is not ideal enough, dimensional stability is not good enough.
The content of the invention
It matches very much, be beneficial to copper coefficient of expansion CTE the technical problem to be solved in the present invention is to provide a kind of molecular structure
Polyamic acid of high-dimensional stability without glue system polyimide copper clad lamination composite material and preparation method thereof.
In order to solve the above technical problem, the present invention provides in order to solve the above technical problem, the present invention provides use
In the polyamic acid of two layers of flexible glue-free copper coated plate of method production, it is characterised in that:It is to be polymerized by 3 kinds of monomer aromatic diamines, 3
Planting monomer aromatic diamines is:3,4- diaminodiphenyl ethers, p-phenylenediamine and molecular structure are
CAS accession number is 2- (4- aminophenyls) -5- aminobenzimidazoles of 7621-86-5, and proportioning is 2-6:2-6:1.
Meanwhile the present invention also provides the preparation methods of above-mentioned polyamic acid, it is characterised in that:In a kettle, will match somebody with somebody
Than for 2-6:2-6:13 kinds of monomer aromatic diamines --- 3,4- diaminodiphenyl ethers, p-phenylenediamine and molecular structure areCAS accession number is 2- (4- aminophenyls) -5- amino benzo miaows of 7621-86-5
Azoles --- it is dissolved in n,N-Dimethylformamide solvent, is cooled to -10 degrees Celsius to -5 degrees Celsius, it is interior when 5-10 is small to divide 5-10
Batch adds in total amount and the equimolar aromatic tetrahydric dianhydride of monomer aromatic diamines, then maintains -10 degrees Celsius to -5 degrees Celsius, instead
When answering 40-50 small, its polymerization generation solid content is made to be more than or equal to 8000cp, the equal molecule of number for 10-15 grams/100 milliliters and viscosity
It measures as 50000~76000, molecular weight distributing index<1.4 polyamic acid solution;Reaction is as follows:
Preferred solvent used is the n,N-Dimethylformamide handled through molecular sieve dehydration, and water content is less than 100ppm.
The aromatic tetrahydric dianhydride is preferably pyromellitic acid anhydride, bibenzene tetracarboxylic dianhydride, 3,3 ', 4,4 ' --- hexichol
One kind in ketone tetracarboxylic dianhydride and 4-4 biphenyl ether dianhydrides.
Beneficial effects of the present invention are mainly described below:
For the dimensional stability of no glue system polyimide copper clad lamination, the main method of solution makes to be combined with each other
The coefficient of thermal expansion of two kinds of materials is as far as possible close, and influence material thermal expansion coefficient (CTE) because being known as chemical constitution and aggregation
The aspect of state two, after chemical constitution determines, state of aggregation is then determined by more factors, such as solvent for use, is synthesized
Journey, coating method, drying program, imidizate program, annealing conditions etc..
Synthesis for polyamic acid, polyamic acid are the precursors of polyimides, and chemical constitution directly determines polyamides
The performance of imines is expanded by MOLECULE DESIGN with experiment amendment repeatedly, molecular structure and the copper of the polyamic acid that the present invention synthesizes
Coefficient CTE match, by introducing characteristic functional group --- the diamines containing glyoxaline structure, the amine on imidazoles can be formed with copper to be coordinated
It is strong, enhancing and the connection of copper, so as to improve the adhesive force between finished product polyimide film and copper foil.
During synthesis, due to that by low-temperature condition of the reaction controlling at -10 degrees Celsius to -5 degrees Celsius, can obtain
The polymer of high molecular weight, simultaneously as adding in aromatic tetrahydric dianhydride is under long period interval, is gradually added into for point multiple times
So that molecular weight distributing index is less than 1.4, these are for obtaining the precursor with the polyimides of copper foil CTE match --- and it is poly-
Amic acid is very important.
Description of the drawings
With reference to the accompanying drawings and detailed description, the present invention is described in further detail:
Fig. 1 prepares the flexible production line schematic diagram without glue polyimide copper clad lamination for two layers of method of the present invention.
Fig. 2 is the nitrogen high temperature oven schematic diagram of the present invention.
Fig. 3 is A portions enlarged drawing in Fig. 2.
Specific embodiment
Embodiment 1
As shown in Figure 1, two layers of method of the present invention prepares the flexible production line without glue polyimide copper clad lamination, include system successively
The reaction system 100 of standby polyamic acid solution, the coating system 200 that polyamic acid solution is applied to copper foil, will be after coating
Copper-clad plate under high tension the high-tension drying cylinder 300 of redrying, by roll good carry out imidizate special nitrogen high temperature
Baking oven 400.
Equipment of the prior art can be used in the reaction system 100 for preparing polyamic acid solution, coating system 200,
The equipment that wherein existing coating applications can be used in coating system 200;And the parameter and special nitrogen high temperature of high-tension drying cylinder 300 are dried
Case 400 is then special designs of the present invention.
The high-tension drying cylinder 300 is undertaken on 200 end of coating system, and the cylinder structure that paper industry uses can be used,
Such as the copper heat conduction cylinder body that can be rotated around its axle center, but the present invention has found the Parameter Conditions to the drying cylinder through many experiments
Necessary particular/special requirement, such as drying cylinder diameter, surface state, surface temperature difference scope, static balancing value etc..In the present embodiment, dry
A diameter of 1.5 meters of the drying section that cylinder is contacted with copper-clad plate, cylinder surface are electroplate with the layers of chrome of 0.08-0.1mm thickness and do mirror
Reason, uniformly distributed heating element in cylinder body, the cylinder surface temperature difference within 3 degree, be undertaken on copper-clad plate high-tension cylinder surface into
Row heat drying.The static balancing requirement of cylinder body is in below 40g so that tension is more uniform.
As shown in Fig. 2, the nitrogen high temperature oven 400 includes furnace body 10, salable heat insulation furnace cover 20 in furnace body, to dry
Vacuum system 40 that case vacuumizes, be the inflation system of baking oven inflated with nitrogen, circulating fan system 60, be baking oven power supply, heating and cooling,
The control system of gas control;Further include the rack 70 for being placed in bottom in furnace body;The furnace body 10 be vertical hollow circle tube, institute
State furnace body 10 includes furnace shell 11, insulating layer 12, outer thermal insulation layer 13, heating element 14, inner insulating layer 15 successively from outside to inside, described
Outer thermal insulation layer 13, heating element 14, inner insulating layer 15 form flue, and the heating element 14 of the furnace body is heating wire, for stove
Temperature is more uniform in courage, and multiple through holes 151 convenient for heat transfer are equipped with around furnace body inside wall, on inner insulating layer 15.Institute
State the rack 16 for being equipped in flue and being supported in bottom of furnace body;A hydraulicefficiency elevation structure 30, bag are connected in the furnace body lateral wall
The hydraulic cylinder 31 for being connected to the furnace body side is included, the piston 32 of hydraulic cylinder is connected to the lower end of longitudinal extension bar 33, and longitudinal
Be fixedly connected on the lifting arm 33 at the top of the upper end of telescopic rod 33, so as to by hydraulic piston 32 drive lifting arm rise or under
Drop, so that 20 lock sealing of heat insulation furnace cover in furnace body top open part or is opened it.The vacuum system 40 includes
The vacuum pump 41 being placed in outside furnace body, 42 one end of vacuum line are communicated in vacuum pump, and the other end is communicated in the flue, connector
Equipped with valve 43;(not entirely shown in figure, the nitrogen inflation with reference to association area in the prior art is the nitrogen inflation system
System), it can simultaneously connect air inlet 51, air valve, the pipeline of furnace body external air source including being opened in flue;The circulating fan system
System 60 is by motor 61 and is connected to the fan blade 62 of motor output end, and described into fan blade is two, is symmetricly set on bottom of furnace body
Both sides;The rack 70 includes connection and is supported in the chassis 71 of bottom of furnace body and is connected to the frame 72 on chassis top, can
Accept multiple polyimide copper clad lamination material volumes 80.In order to preferably seal, it is equipped in the downside of the bell and furnace body contact position
One circle groove, equipped with fluid sealant 21 in groove, the periphery of fluid sealant, in being respectively equipped on bell and furnace body as fluid sealant it is cold
But the more water cooling tubes 22 acted on are unlikely to damage so that fluid sealant is allowed to keep lower temperature.
On the production line, the step of being prepared with two layers method without glue polyimide copper clad lamination, is as follows:
1) in a kettle, by monomer aromatic diamines 3,4- diaminodiphenyl ethers, p-phenylenediamine and 2- (4- aminophenyls)-
3 kinds of substances of 5- aminobenzimidazoles are according to 2:2:1 molar ratio is dissolved in handled through molecular sieve dehydration, water content and is less than 100ppm
N,N-Dimethylformamide solvent in, be cooled to -10 degree left and right, interior point of 5 batch are added in diamines substance total amount etc. when 5 is small
Mole pyromellitic acid anhydride maintains -10 degree left and right, and when reaction 40 is small, polymerization generation solid content is 15 grams/100 milliliters
Polyamic acid solution, the number-average molecular weight of obtained polyamic acid is 51000~66000, and molecular weight distributing index is<1.4, be
The polyamic acid solution of high molecular weight, low profile exponent.
2) the thermal instability deaeration agent that weight percentage is 0.2% is added in into polyimide solution, is stirred evenly,
The thermal instability deaeration agent refers to the resolvent deaeration agent in heating process so that sub- without glue polyamides finally obtaining
It is not remained in amine copper-clad plate.The thermal instability deaeration agent of the present invention uses 920 photocurings of TEGO Airex of Di Gao companies
The special antifoaming agent of coating can also use 370 solvent-borne type levelling agents of TEGO Flow, the TEGO Flow 300 of Di Gao companies molten
940 solvent-borne type of dosage form levelling agent or TEGO Airex, no-solvent type coating deaeration agent.
3) polyamic acid solution for obtaining step 2) is coated on the speed of 6m/min on 18 microns of thick copper foils.Coating
Coating apparatus general in the prior art can be used, when being dried to 89% solvent of removing during coating with 140 degrees Celsius,
Then proceed as follows,
3) speed in 180 degrees Celsius, 4m/min on special drying line is dried, and is removed residual solvent completely, is wound into
1000m/ volumes of web-like.
4) roll good is put into special nitrogen high temperature oven, is heated up with following process:With the speed of 30 degrees Celsius/hour
180 degrees Celsius are risen to, when then constant temperature 4 is small, 2 rise to 330 degrees Celsius when small;Then imidizate is carried out when constant temperature 1 is small;Then
Carry out temperature-fall period:270 degrees Celsius, when constant temperature 2 is small are down to by 330 degrees Celsius with 1 time when small, 2 are cooled to 200 when small takes the photograph
Family name's degree, then natural cooling is to obtain two layers of method non-gel flexible copper-clad plate, and various performance detections the results are shown in Table shown in two.In addition,
The data such as experiment parameter are with reference to table one.
Embodiment 2
The content of embodiment 2 is roughly the same with embodiment 1.Except that:
Fragrant amine aqueous solution is 3 kinds of substances in embodiment 1 in step 1), is matched as 4:4:1, temperature is cooled to as -8 degrees Celsius
Left and right, when 8 is small, interior point of 8 batches add in equimolar bibenzene tetracarboxylic dianhydride, maintain for -8 degrees centigrade reaction time as 45
Hour, obtained polyamic acid it is solid containing for 12 grams/100 milliliters, molecular weight be 53000-69000, molecular weight distributing index is small
In 1.4.
Copper thickness in step 2) is 12mm, coating speed 9m/min, during coating drying temperature be 130 degree, removing
81% solvent, the drying cylinder diameter in step 4) are 2 meters, the temperature of high-tension dryer surface drying be 190 degrees Celsius, speed is
3m/min is wound as 1500m/ volumes;According to the heating and cooling process of embodiment 1 during imidizate, temperature when process centre constant temperature 1 is small
The non-gel flexible copper-clad plate for 335 degree, obtained is spent, various performance detections the results are shown in Table shown in two.In addition, the data such as experiment parameter
With reference to table one.
Embodiment 3
The content of embodiment 3 is roughly the same with embodiment 1.Except that:
Fragrant amine aqueous solution is 3 kinds of substances in embodiment 1 in step 1), is matched as 6:6:1 cooling temperature is -5 degrees Celsius,
10 interior point of 10 batch when small add in equimolar 4-4 biphenyl ether dianhydrides, maintain -5 degrees Celsius of reaction time for 50 it is small when, obtain
Containing admittedly for polyamic acid is 13 grams/100 milliliters, molecular weight 51000-64000, and molecular weight distributing index is less than 1.4.
Copper thickness in step 2) is 12mm, and drying temperature is 160 degree, speed 12m/min during coating, removing 80%
Solvent;Drying cylinder diameter in step 4) is 2.5 meters, the temperature of high-tension dryer surface drying be 200 degree, speed 2m/
Min is wound as 2000m/ volumes;According to the heating and cooling process of embodiment 1 during imidizate, temperature when process centre constant temperature 1 is small
For 340 degree, obtained non-gel flexible copper-clad plate, various performance detections the results are shown in Table shown in two.In addition, the data such as experiment parameter are joined
According to table one.
Embodiment 4
Content in the present embodiment 4 is roughly the same with embodiment 3.Except that:
When step 1) prepares polyamic acid solution, the aromatic diamines used is 2 kinds of chemical substances:3,4- diaminodiphenyl ethers
It is with molecular structureCAS accession number is 2- (4- aminophenyls) -5- of 7621-86-5
Aminobenzimidazole, proportioning are 1:1.Used aromatic dianhydride is bibenzene tetracarboxylic dianhydride.Obtained polyamic acid contains admittedly
13.5 grams/100 milliliters, molecular weight for 50000-65000, molecular weight distributing index is less than 1.4;Coating temperature is 120 Celsius
Degree, speed 6m/min remove 80% solvent;In cylinder dried, speed is that 3m/min, temperature are 200 degrees Celsius;After amination
Obtained non-gel flexible polyimide copper clad lamination, various performance detections the results are shown in Table shown in two.In addition, the data such as experiment parameter are joined
According to table one.
Embodiment 5
Content in the present embodiment 5 is roughly the same with embodiment 4.Except that:
The aromatic diamines used are same as Example 4 for 2 kinds of chemical substances, and proportioning is adjusted to 1:1.1.Obtained polyamides
Amino acid contains admittedly is less than 1.4 for 12.8 grams/100 milliliters, molecular weight 51000-68000, molecular weight distributing index;In cylinder dried
Shi Sudu is that 2m/min, temperature are 180 degrees Celsius;The non-gel flexible polyimide copper clad lamination finally obtained, various performance detections
The results are shown in Table shown in two.In addition, the data such as experiment parameter are with reference to table one.
Embodiment 6
Content in the present embodiment 6 is roughly the same with embodiment 4.Except that:
The aromatic diamines used are same as Example 4 for 2 kinds of chemical substances, and proportioning is adjusted to 1:1.2.What is obtained is poly-
Amic acid it is solid containing for 14 grams/100 milliliters, molecular weight be 51000-67000, molecular weight distributing index is less than 1.4;It is done in drying cylinder
Speed is that 4m/min, temperature are 180 degrees Celsius when dry;The non-gel flexible polyimide copper clad lamination finally obtained, various performance inspections
That surveys the results are shown in Table shown in two.In addition, the data such as experiment parameter are with reference to table one.
Embodiment 7
Content in the present embodiment 7 is roughly the same with embodiment 2, the difference is that the aromatic diamines used is 2 kinds of chemistry
Substance:P-phenylenediamine and molecular structure areCAS accession number is the 2- (4- of 7621-86-5
Aminophenyl) -5- aminobenzimidazoles, proportioning is 1:1.Used tetracarboxylic dianhydride is 3,3 ', 4,4 ' --- benzophenone tetracid two
Acid anhydride, it is 11.6 grams/100 milliliters, molecular weight 52000-69000 that obtained polyamic acid contains admittedly, and molecular weight distributing index is less than
1.4;The drying cylinder speed of second segment drying is 1m/min, temperature is 200 degrees Celsius;The non-gel flexible coated polyimide finally obtained
Copper coin, various performance detections the results are shown in Table shown in two.In addition, the data such as experiment parameter are with reference to table one.
Embodiment 8
Content in the present embodiment 8 is roughly the same with embodiment 7, and aromatic diamines use same 2 kinds of chemical substance,
Proportioning is adjusted to 1:1.1.The solid of obtained polyamic acid contains for 11 grams/100 milliliters, molecular weight 52000-65000, molecular weight
Profile exponent is less than 1.4;The non-gel flexible polyimide copper clad lamination finally obtained, various performance detections the results are shown in Table two institutes
Show.In addition, the data such as experiment parameter are with reference to table one.
Embodiment 9
Content in the present embodiment 9 is roughly the same with embodiment 7, and aromatic diamines use same 2 kinds of chemical substance,
Proportioning is adjusted to 1:1.2.The solid of obtained polyamic acid contains for 10.8 grams/100 milliliters, molecular weight 53000-66000, molecule
It measures profile exponent and is less than 1.4;The non-gel flexible polyimide copper clad lamination finally obtained, various performance detections the results are shown in Table two institutes
Show.In addition, the data such as experiment parameter are with reference to table one.
Table one
Claims (3)
1. the preparation method of the polyamic acid for two layers of flexible glue-free copper coated plate of method production, it is characterised in that:In a kettle,
It is 2-6 by mol ratio:2-6:13 kinds of monomer aromatic diamines 3,4- diaminodiphenyl ethers, p-phenylenediamine and molecular structure beCAS accession number is that 2- (4- aminophenyls) -5- aminobenzimidazoles of 7621-86-5 are molten
In n,N-Dimethylformamide solvent, -10 degrees Celsius to -5 degrees Celsius are cooled to, it is interior when 5-10 is small that 5-10 batches is divided to add in
Total amount and the equimolar aromatic tetrahydric dianhydride of monomer aromatic diamines, then maintain -10 degrees Celsius to -5 degrees Celsius, react 40-50
Hour, generating its polymerization, solid content is 10-15 grams/100 milliliters and viscosity is more than or equal to 8000cp, number-average molecular weight is
50000~76000, molecular weight distributing index<1.4 polyamic acid solution;Reaction is as follows:
2. the preparation method of the polyamic acid of flexible glue-free copper coated plate is produced for two layers of method according to claim 1, it is special
Sign is that solvent for use is the n,N-Dimethylformamide handled through molecular sieve dehydration, and water content is less than 100ppm.
3. the preparation method of the polyamic acid of flexible glue-free copper coated plate is produced for two layers of method according to claim 2, it is special
Sign is, the aromatic tetrahydric dianhydride is pyromellitic acid anhydride, bibenzene tetracarboxylic dianhydride, 3,3 ', 4,4 '-benzophenone tetracid two
One kind in acid anhydride and 4,4 '-biphenyl ether dianhydride.
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CN107266683B (en) * | 2017-07-28 | 2020-06-05 | 中国地质大学(北京) | Thermoplastic polyimide film and non-glue flexible copper-clad plate prepared from same |
CN107556501A (en) * | 2017-08-23 | 2018-01-09 | 中国科学院理化技术研究所 | A kind of polyimide film and its preparation method and application |
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CN102191581A (en) * | 2011-03-28 | 2011-09-21 | 中国科学院长春应用化学研究所 | Polyimide fiber and preparation method thereof |
CN102558860A (en) * | 2011-12-22 | 2012-07-11 | 桂林电器科学研究院 | Dimensionally-stable polyimide film and preparation method thereof |
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CN104928790A (en) * | 2015-06-08 | 2015-09-23 | 北京化工大学 | Method for preparing polyimide fibers |
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CN102191581A (en) * | 2011-03-28 | 2011-09-21 | 中国科学院长春应用化学研究所 | Polyimide fiber and preparation method thereof |
CN102558860A (en) * | 2011-12-22 | 2012-07-11 | 桂林电器科学研究院 | Dimensionally-stable polyimide film and preparation method thereof |
CN103739842A (en) * | 2013-12-20 | 2014-04-23 | 深圳瑞华泰薄膜科技有限公司 | Thermoplastic polyimide and method for preparing flexible copper-clad plate from thermoplastic polyimide |
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