Process and apparatus for continuously stretching a synthetic polymeric film in the longitudinal direction.

Abstract

 Polymeric films such as fi!ms of oo'yethylene terephtalate, are stretched with low "neck-in" over a short soan defined by two counter-rotating rolls (26,27), the first of which (26) has a matt surface, :.e.a. mattness represented by a Centre Line Average. (Brit.Standard 1134; 1950) of at least 5 microinch to prevent sticking at the stretching temperatures.

Description

IMPROVEMENTS IN THE STRETCHING OF POLYMERIC FILLS

[0001] 

[0002] Published Dutch application 76 00073 describer a process for continuously stretching

polymeric film in the longitudinal

comprises applying a longitudinal

to the film whilst it is moving continuously in the longitudinal direction wherein the film is streched over a stretching spar defined by two adjacent counter-rotating rolls having parallel axes of rotation and located transversely of the film and around which the film passes, the span of unsupported film between the counter-rotating rolls measured perpendicular to their axes being less than the sum of the radii of the counter-rotating rolls, and the film is heated to its stretching temperature, the first counter-rotating roll being heated to at least the film stretching temperature and the second counter-rotating roll being maintained at a temperature below the film stretching temperature, each of said counter-rotating rolls having a surface which does not adhere to the film when the film is heated to the stretching temperature.

[0003] The invention described in said Dutch application also relates to an apparatus for continuously stretching a synthetic polymeric film in the longitudinal direction which comprises means for applying a longitudinal stretching tension to the film whilst it is moving continuously in the longitudinal direction through the apparatus, wherein a film stretching span is defined by two adjacent counter-rotating rolls having parallel axes of rotation and located transversely of the film path, said counter-rotating rolls being angeed from each other such that the span of unsupported film between the counter-rotating rolls measured perpendicular to their axes is less than the sum of the radii of the counter-rotating rolls, means being provided to heat the film to its stretching temperature prior to stretching, the first counter-rotating roll being heated in operation to at least the film stretching temperature and the second counter-rotating roll being maintained in operation at a temperature below the film stretching temperature, each of said counter-rotating rolls having a surface which does not adhere to the film when the film is heated to the stretching temperature.

[0004] The present invention relates to a process for continuously stretching a synthetic polymeric film in the longitudinal direction, which comprises applying a longitudinal stretching tension to the film whilst it is moving continuously in the longitudinal direction, wherein the film is stretched over a stretching span defined by two adjacent counter-rotating rolls having parallel axes of rotation and located transversely of the film and around which the film passes, the span of unsupported film between the counter-rotating rolls measured perpendicular to their axes being less than the sum of the radii of the counter-rotating rolls, and the film is heated to its stretching temperature, the first counter-rotating roll being heated to at least the film stretching temperature and the second counter-rotating roll being maintained at a temperature equal to or below the film stretching temperature, the first counter-rotating roll having a surface mattness represented by a Centre Line Average, as measured by British Standard 1134:1950, of at least 5 microinch which does not adhere to the film when the film is heated to the stretching temperature.

[0005] The invention also relates to an apparatus for continuously stretching a synthetic polymeric film in the longitudinal direction which comprises means for applying a longitudinal stretching tension to the film whilst it is moving continuously in the longitudinal direction through the apparatus, wherein a film stretching spsn is defined by two adjacent counter-rotating rolls having parallel axes of rotation and located transversely of the film path, said counter-rotating rolls being spaced from each other such that the span of unsupported film between the counter-rotating rolls measured perpendicular to their axes is less than the sum of the radii of the counter-rotating rolls, means being provided to heat the film to its stretching temperature prior to stretching, the first counter-rotating roll being heated in operation to at least the film streching temperature and the second counter-rotating roll being maintained in operation at a temperature equal to or below the film stretching temperature, the first counter-rotating roll having a surface mattness represented by a Centre Line Average of at least 5 microinch which does not adhere to the film when the film is heated to the stretching temperature.

[0006] The process and apparatus of this invention is especially useful for molecularly orienting linear polyester films such as polyethylene terephthalate films by longitudinal stretching. However; the invention is also applicable to the stretching of other orientable films.

[0007] The present invention involves the sequence of heating the film to its stretching temperature, e.g. for linear polvester films above the glass transition temperature of the polymer, stretching the heated film and subsequently quenching the stretched film

driven to match the speed of the film through that part of the apparatus or may be idling and hence rotated by the movement is the film itself. Radiant heating, such as infra-red heating, may be used as an alternative to or in combination with the heating roll(s) of the preheating section. Preferably, the preheating section consists of a plurality of heated rolls having a surface which does not adhere to the

temperatures applied. Thus some

rolls may require surface treatment

e.g. treatment to render the surface matt or the provision of a matt coating, to avoid film adhesion to the roll surface.

[0008] Stretching may be terminated by reducing the temperature of the film to a temperature below the stretching temperature by passage over the second counter-rotating roll. This may be accomplished

fixing. The film may subsequently be passed over further quenching rolls to 'reduce the film temperature even further. The second counter-rotating roll should have a surface which does not adhere to the film and may also require surface treatment or coating, e.g. treatment to render the surface matt or the provision of a matt coating, although it has surprisingly been found that a polished roll, e.g. a roll surface having a texture represented by a Centre Line Average such as 2 to 3 microinch, does not adhere to the film, especially polyethylene terephthalate films . Likewise, if necessary, the further quenching rolls may have a surface which does not adhere to the film as it passes over them. It has been found that the surface quality of polyester films, such as polyethylene terephthalate films, especially films having an unstretched thickness in the range 750 to 2000 µm, can be improved by maintaining the second counter-rotating roll at a temperature below but approaching the stretching temperature, e.g. in the range 60° to 85°C. In particular, surface scratching is reduced and the surface is more glossy.

[0009] According to this invention, the film is heated to its stretching temperature by surface contact at least with the first counter-rotating roll and desirably by contact with a set of heated rolls in a preheating section. Likewise, quenching is effected by surface contact with the second counter-rotating roll and any other quenching rolls which may be employed. Sticking of the film to the roll surfaces must be avoided but the temperatures employed for the stretching of some polymeric films are so high that the films would adhere to the surface of a polished steel or chromium plated steel roll thereby imposing surface quality defects such as transverse impressions or bars upon the film as it is separated from the roll surface by the tension in the film. For example, polyethylene terephthalate films are stretched at temperatures above the polymeric glass transition temperature (about 80°C) and generally in the range 85° to 100°C and would adhere at temperatures above about 80°C to normal polished steel or chromium plated rolls.

[0010] According to this invention, the sticking of the polymeric film to the first counter-rotating roll is avoided by using a roll having a specified surface mattness which does not adhere to the film. The heating rolls in the preheating section and any quenching rolls used in conjunction with the second counter-rotating roll should also be non-sticking. Adhesion and sticking may be avoided if necessary by rendering the roll surfaces matt.

[0011] Accordingly, the first counter-rotating roll has a surface texture or mattness represented by a Centre Line Average, as measured by British Standard 1134:1950, of at least 5 microinch and preferably at least 10 microinch, such mattness preventing the film from adhering to the roll surfaces when it is heated to the film stretching temperature. A texture or mattness of less than 5 microinch, i.e. a "polished" roll, introduces a risk of sticking at film stretching temperatures. Satisfactory heat transfer to and from the film is achieved with such surfaces whilst avoiding imperfections being imposed on the film surface by the film adhering to the roll surfaces. Surface texture or mattness represented by greater Centre Line Average values may impose some impression, embossing or scratching upon the film and therefore it is preferred to avoid Centre Line Average values exceeding 35 microinch. Satisfactory heat transfer and stretching can be achieved with linear polyester and stretching can be achieved with linear polyester films such as polyethylene terephthalate films when the counter-rotating rolls have a surface texture or mattness represented by a Centre Line Average of 10 to 20 microinch and particularly 10 to 15 microinch.

[0012] It is preferred that the second counter-rotating roll should have a polished surface texture, i.e. a Centre Line Average of 2 to 3 microinch, in the production of films having a high quality surface finish in order to avoid imprinting the film surface as may result if rougher rolls were used.

[0013] Adhesion and sticking to the rolls of the preheating section and/or the further quenching rolls may also be avoided by providing their surfaces with a texture represented by a Centre Line Average in the range 0.5 to 10 microinch and preferably 2 to 3 microinch.

[0014] The surface texture or mattness of such counter-rotating. preheating and further quenching rolls may be achieved by roughening the surface of the rolls by conventional particle blasting techniques, e.g. by sand blasting, grinding or engraving. Rolls treated in this manner may comprise stainless steel surfaced rolls or chromium plated rolls which are provided with an appropriate mattness by blasting.

[0015] Alternatively, a surface coating having the desired surface mattness may be applied to the rolls.

[0016] The film may be pressed firmly into contact with either or both of the first and second counter-rotating rolls by means of a lay-on roll or electrostatic. means thereby defining the length of the film in which stretching may occur.

[0017] The present invention may be used for the stretching of any flat self-supporting polymeric film which

Polyester films which may be stretched according to this invention may be produced by condensing che or more dicarboxylic acids or their lower alkyl diesters, e. g. terephthalic acid, isophthalic acid, pathalic acid, 2, 5-, 2,6- and 2,7-naphthalene dicarboxylic acid, succinic acid, sebacic acid, adipic acid, azelaic acid, diphenyl dicarboxylic acid, and hexahydroterephthalic acid. or bis-p-carboxyl phenoxy ethane, optionally with a monocarboxylic acid, such as pivalic acid, with one or more alkylene glycols, e.g. ethylene glycol, 1,3-propanediol, 1,4-butanediol, neopentyl glycol and 1,4-cyclohexane-dimethanol. The invention is particularly suitable for the stretching of polyethylene terephthalate films. The films stretched according to this invention may contain conventional additives such as particulate fillers added, for example, for slip or surface matting properties, anti-static agents, dyes and pigments. The invention is also suitable for the stretching of composite films comprising two or more polymeric layers.

[0018] Polyethylene terephthalate films may be stretched according to this invention at temperatures in the range 80° to 100°C and preferably in the range 80° to 90°C and using degrees of stretching or draw radios in the range from 1.5:1 to 6.5:1. When the longitudinally stretched film is to be subjected to further stretching operations, e.g. in the transverse direction it is preferred that the draw ratio in the longitudinal direction should be in the range





the process and apparatus are used as one step in the production of biaxially oriented linear polyester films such as polyethylene terephthalate films. For example, polyethylene terephthalate film may be extruded and quenched into the amorphous state in a known manner, and then longitudinally stretched in accordance with this invention, and finally transversely stretched and heat set in a known manner. Alternatively, the film may be stretched first in the transverse direction and then in the longitudinal direction. The process and apparatus of this invention may be used in the production of "balanced" film having similar tensile strengths in mutually perpendicular directions or "tensilised" films having a greater tensile strength in one direction, usually the longitudinal direction, than in other directions. The invention may, for example, be used. in a process for the production of "tensilised" film in which the film is stretched first in its transverse direction and then in its longitudinal direction.

[0019] The invention is especially suitable for the longitudinal stretching of amorphous polyethylene terephthalate films having a thickness in the range 90 to 2000 µm.

[0020] In one embodiment of the invention which is suitable for the stretching of thin films, e.g. films of polyethylene terephthalate of thickness in the range 90 to 750 µm, the stretching tension is established between sets of slow and fast nip rolls and the film is preheated by passage over matt surfaced preheating rolls located between the slow nip rolls and the counter-rotating rolls. The first counter-rotating roll is positively driven at substantially the peripheral speed of the slow nip rolls whereas the second counter-rotating roll is idling. In order to reduce "neck-in" on the first counter-rotating roll, a lay-on roll is employed to press the film firmly into contact with the counter-rotating roll, preferably located at or close to the initial touchdown of the film on the counter-rotating roll, i.e. the region of first contact of the film with the counter-rotating roll.

[0021] In a further embodiment of the invention which is suitable for stretching thicker films, e.g. films of polyethylene terephthalate of thickness from 750 to 2000 µm, the apparatus and stretching processes are similar to those of the embodiment described in the preceding paragraph, with the exception that the lay-on roll associated with the first counter-rotating roll may be omitted. In a modification of this embodiment, the second counter-rotating roll is maintained at a temperature below but approaching the stretching temperature, i.e. in the range from 60° to 85°C, since such a temperature is effective in improving the surface quality of the film particularly by reducing surface scratching and improving gloss. It has been found that the second counter-rotating roll should be positively driven when such temperatures are employed.

[0022] The films manufactured according to this invention may be used in any of the commonly known uses for which polymeric films are useful, e.g. as photographic bases, magnetic tape bases, insulants for electrical devices, for instance as slot liners, packaging films, drawing office materials, bases for coating with metallising layers, cable wrapping, bases for printed circuits, electrical capacitor dielectrics, stamping foils, and labels.

[0023] In order that the invention may be more readily understood it is further described with reference to the accompanying drawing which illustrates schematically an assembly of rolls for longitudinally stretching a polyethylene terephthalate film, the rolls being viewed from their ends.

[0024] Amorphous polyethylene terephthalate film 175 µm thick is extruded and rapidly quenched in a known manner and supplied to the apparatus in the direction of the arrow G and is transported continuously through the apparatus. The apparatus includes a slow cluster of nip rolls 11 and a fast cluster of nip rolls 12. The slow nip rolls 11 include two driven rolls 14 and 15 and an idling roll 16. Likewise, the fast nip rolls include two driven rolls 18 and 19 and an idling roll 20. The driven rolls 18 and 19 rotate at a peripheral speed approximately 3.5 times that of the rolls 14 and 15.

[0025] A preheating section includes three idling steel rolls 22, 23 and 24 having a matt surfaced chromium plating layer of Centre Line Average about 3 microinch and heated by the passage of hot water to a surface temperature of about 90°C.


of first contact of the film with the region of first contact of the film with the roll 26 thereby pressing the film firmly into contact with the roll 26 to limit the slippage and stretching of the film on the roll surface and hence limit ''neck-in" on the roll.

[0026] The first counter-rotating roll 26 has a chromium plating layer having a mattness represented by a Centre Line Average of about 12 microinch and the second'counter-rotating roll 27 has a polished chromium plating layer of Centre Line Average 2 to 3 microinch.

[0027] The first counter-rotating roll 26 is heated to a temperature in the range 80° to 90°C by the internal passage of hot water to heat the film to the required stretching temperature.

[0028] The second counter-rotating roll 27 is cooled to about 35 °C by the internal passage of cold water to quench the stretched film to below the stretching temperature.

[0029] A further quenching roll 29 having a polished chromium plated surface is cooled to about 35 °C by the internal passage of water

[0030] After passing the slow nip rolls the film is preheated by passage over the rolls 22, 23 and 24 and is finally heated to the stretching temperature by the first counter-rotating roll. The stretching span extends over those portions of the film which are heated to or above the stretching temperature. Stretching of the film occurs in the unsupported. film span between the counter-rotating rolls 26 and 27 and, to a smaller degree, in those portions of the film on the surface of the first counter-rotating roll which have reached the stretching temperature. In order to limit excessive stretching and hence "neck-in" on the surface of the roll 26, the film is pressed firmly against the roll 26 by the lay-on roll 28.

[0031] Stretching is terminated by quenching the film to a temperature below the stretching temperature of the film on the cooled counter-rotating roll 27. Additional quenching is effected on the cooled further quenching roll 29.

[0032] In a modification of the assembly illustrated in the drawing, the lay-on roll 28 is replaced by an electrostatic pinning electrode maintained at a high potential with respect to the roll 26 which should be earthed so that the film can be secured to the surface of the roll 26 by means of electrostatic charges.

[0033] In a further modification of the assembly illustrated in the drawing, the clusters of slow and fast nip rolls it and 12 respectively may be replaced by nips consisting of two rolls each. of which one or both rolls may be driven.

[0034] In another modification of the assembly illustrated in the drawing, the apparatus was used for the longitudinal stretching of amorphous polyethylene terephthalate film having a thickness of about 1900 µm. In this modification, the lay-on roll 28 was omitted and the second counter-rotating roll 27 was positively driven at a peripheral speed substantially equal to that of the rolls 18 and 19. The roll 27 was also maintained at a temperature below but approaching the stretching temperature, i.e. in the range 60° to 85°C . The film so produced was substantially scratch-free and had a glossy surface.

Claims

1, A process for continuously stretching a synthetic polymerio film in the longitudinal direction., which comprises applying a longitudinal stretching tension to the film whilst it is moving continuously in the longitudinal direction wherein the film is stretched over a stretehing span defined by two adjacent counter-rotating rolls having parallel axes of rotation and located transversely of the film and around which the film passes, the span of unsupported film between the counter-rotating rolls measured perpendicular to their axes being less than the sum of the radii to their axes being less than the of the radii of the counter-rotating rolls, and the film is heated to its stretching temperature first counter-rotating roll being heated to at least the film stretching temperature and the second counter-rotating roll being maintained at a temperature equal to or below the film stretching temperature. characterised in that the first counter-rotating roll having a surface mattness : represented by a Centre Line Average of at least 5 microinch which dees not adhere to the film when the film is heated to the stretching temperature.

2. A process according to claim 1, characterised in that the surface of the first counter-rotating roll has a surface mattness not exceeding a Centre Line Average of 35 microinch.

3. A process according to claim 2, characterised in that the surface of the first counter-rotating roll has a surface nattness of 10 to 15 microinch.

4. A process according to any preceding claim, characterised in that the first counter-rotating roll is a matt surfaced stainless steel roll or a matt surfaced chromium plated roll.

5. A process according to any preceding claim characterised in that the second counter-rotating roll has a

texture represented by a Centre Line Averege of 2 to 3 microinch.

6. A process according to any preceding claim. characterised in that the polyester film is a film of polyethylène terephthalate.

7. An apparatus for continuously stretching a synthetic polymeric film in the longitudinal direction. which comprises means for applying a longitudinal stretching tension to the film whilst it is moving countinuously in the longitudinal direction through the apparatus, wherein a film stretching span is defined by two adjacent counter-rotating rolls having parallel

and located transversely of the film path. said counter-rotating rails being spaced from each other such that the span of unsupported film between the counter-rotating rolls measured perpendicular to their axes is less than the sum of the radii of the counter-rotating rolls, means being provided to

to its stretching temperature prior to stretening the first counter-rotating roll being neated in operation to at least the film stretching temperature and the second counter-rotating roll being

in operation at a temperature equal to

stretching temperature, characterised

counter-rotating roll having a surface

represented by a Centre Line Average of at

microinch which does not adhere to the film

is heated to the stretching temperature.

8. in apparatus according to claim 7, characterised in that the surface of the first counter-rotating roll has a surface mattness not exceeding a Centre

microinch.

Drawing