DE2236163A1 - Partially-stretched film prodn - using strands in centre layer of higher m pt than outer layers - Google Patents

Abstract

The multi-head extruder develops outer layers such as of polyethylene with drillings to give a centre layer of strands of e.g. polyamide, so that on passing through the cooling channel the friction effect by the still-molten outer layers between the cooling channel wall and the solid strands gives them a partial stretching effect. An armoured and reinforced character is introduced into partially stretched film material.

Description

Process for the production of a partially stretched plastic film material Addition to German patent., .........

(German patent application P 19 23 852.9-16) The invention of the main patent relates to a method for producing a partially stretched plastic film materials by combining plastic layers in the melt flow with directly subsequent stretching of the film material thus formed, with at least three layers Made of thermoplastic plastic, namely a middle layer with a higher melting temperature and two outer layers with a lower melting temperature from a nozzle head in a common extrusion channel can be introduced.

The invention is based on the object described above Design the manufacturing process for Verbundfeli @@ material in such a way that the immediate Stretching can be used directly at the exit of the extrusion channel and the process can run in a particularly less prone to failure manner, obne that on the process in one work step is dispensed with.

According to the invention of the main patent, this object is achieved by that the combined layers so long through a cooling section of the common extrusion channel be carried out until the higher melting temperature of the middle layer, but not the lower melting temperature Qer outer layers is undershot and until the as sliding layers on the extrusion channel walls, still plastic outer ones Layers by their adhesion to the already solidified middle class and their Rubbing on the walls of the extrusion channel creates an immediate effect at the outlet of the Generate extrusion channel permitting pull-out resistance.

The outer layers, which are still plastic, act as sliding layers between the inner film already solidified at the exit of the extrusion channel and the channel walls and at the same time serve as braking layers, which are affected by their friction the extrusion channel walls and their adhesion to the middle layer have a pull-out resistance generate the necessary for the stretching of the solidified middle layer Can absorb traction.

It was recognized that the process principle used in the main patent can also be used to make a composite material in which between two consecutive, non-stretched layers form a system of stretched threads lies. Has such a composite material Properties common to different Applications have advantages over the method according to the Nauptpatent, for example because the physical properties are essentially determined by the two successive, Closed layers are certain, while the strength bonds are through the system of threads will be improved.

The invention is based on a method for providing a partial stretched plastic film material by cleaning plastic layers in the melt flow with immediately subsequent stretching of the film material thus formed, with two Layers of thermoplastic material with a lower melting temperature together Die head are introduced into a common extrusion channel and between them both layers are thermoplastic with a higher melting temperature introduced and together with the two layers from the nozzle head into the common The extrusion canal is introduced and the combined layers continue for so long be passed through a cooling section of the common extrusion core until the higher Melting temperature of the thermoplastic introduced between the two layers (U.nststoffs, but not below the melting temperature of the layers themselves and until the sliding layers on the extrusion channel walls e.nli e, still plastic layers due to their adhesion to the already solidified, between they imported thermoplastic higher melting temperature and their Friction on the walls of the extrusion channel unites the direct stretching at the outlet of the extrusion channel permitting pull-out resistance. In doing so, according to the invention suggested that the thermoplastic higher melting temperature between the layers are introduced in single stream filaments.

The individual stream filaments of the higher melting thermoplastic Plastic ergobeii creates a system between the adjacent layers of stretched plastic threads, which allow a kind of reinforcement of the film material.

The method according to the invention can be carried out with a flat nozzle head known per se be carried out, in which case a longitudinal stretching by setting the Withdrawal speed can be effected.

The plastic film material can also be known per se Make way in the form of a hose using a ring nozzle head; you can stretch the length in the same way as when working with the flat diameter by regulating the withdrawal speed.

The invention also provides a device for performing the Procedure. This is based on the device according to the main patent, comprehensive a multi-channel nozzle head with a flat nozzle-like confluence of the individual layers and a subsequent to the confluence, the resulting Kuntstoffolienmterial temperature control channel lying on both sides, the temp control channel as a The cooling channel is formed with arranged on both sides of the resulting plastic material Coolant channels. It is proposed that there be holes in the multi-channel nozzle head are provided, which the individual stream filaments to one of the layers or to the Bring up the junction of the two layers.

When producing hose material, it is possible to use the pull-off device to rotate relative to the extrusion channel and in this way a screw or wavy. i.gen course of the stretched reinforcement threads in of the finished material. A material with a helical shape Reinforced> threads can be a composite material with crossed reinforcing threads are further processed simply by the fact that the adjacent areas the innermost layer in the radial direction is sealed together or welded will.

The accompanying figures explain the invention using an exemplary embodiment. The figures show: FIG. 1 a section through an annular nozzle head for implementation of the method according to the invention; Figure 2 shows an overall system for performing the Invention according to the method; FIG. 3 shows a partial section through one according to the method extruded hose; FIG. 4 shows part of a composite film with crossed stretching directions.

The ring nozzle head is denoted by 10 in FIG. 1. He has three concentric Annular channels 12, 14 and 16, ven which the channels 12 and 16 on screw presses 20, 28 are ruled out, which process polyethylene. The channel 14 is as a distribution channel is formed on which, evenly distributed over the circumference, essentially axially extending bores 18 connect to the confluence Strive towards between the two channels 12, 16. The channel 14 is made of a polyamide processing screw press connected.

The further cooling treatment of the extruded into the extrusion channel 38 Material in the head extension 34, which by an insulating layer 36 against the ring nozzle head 10 is isolated, history by means of the cooling channels 40, 42, 44, the are connected to a coolant supply (not shown).

Due to the different temperature setting of the coolant in the Cooling channels 42 and 44 can create a desired temperature gradient in the head extension 34 are maintained.

The plant according to Fig. 2 consists of the screw presses 24 and 28, which feed the ring nozzle head 10. The composite film tube emerging from the head extension 3L is used to stretch the tapes or threads from a pressure medium supply (not shown) inflated forth and pulled off by a pair of take-off rollers 50. Through guide rollers 62 the hose is laid flat and fed to the pair of take-off rollers 60.

As a result of the cooling in the extrusion channel 38, the polyamide stream threads become solidifies, while the polyethylene layers at the exit from the extrusion channel 38 are still thermoplastic, so that they can be used as a lubricant for the polyamide threads serve and on the other hand by their adhesion both to the polyamide threads as well generate a pull-out resistance on the walls of the extrasion channel 38, which makes it allows the polyamide threads, which are designated in Figure 1 with 64, in the longitudinal direction to stretch.

In Figure 2 an inflation of the resulting tube is shown. It should be remembered, however, that inflation should be done with the greatest of caution, if at all is possible because each of the polyethylene layers when exiting the extrusion channel 38 have not yet solidified and, on the other hand, the threads 64 unintentionally give way of the polyethylene layers between successive threads cannot prevent it.

From Figure 3 is the cross section of an inventively produced, sus two layers of polyethylene 66, 68 and threads 64 in between Vorbundischlauches recognizable. In the manufacture of this hose were the take-off rollers 60 relative to the head continuation set 34 rotates so that the resulting Threads 64 run helically.

In Figure 4, a material is shown that was created by that the opposing areas of the inner layer 68 with each other welded or sealed. I; ian recognizes the screws here too running threads 64, which now intersect.

The method according to the invention can be used, for example, to produce of polyamide-polyolefin composite films have been used, the tapes or threads made of the higher melting polyamide and the outer layers made of the polyolefin lower melting point exist. Even better adhesion. the polyamide tapes or - Threads on the outer layers are achieved if a terpolymer is used for the outer layers of ethylene is used with acrylic acid and acrylic acid esters. An example of one such terpolymers is the product Lupolen KR 1285 of basic aniline and Sodafabriken k ('. Another possibility of a good adhesion of the tapes or threads with the outer layers consists of one, the lower melting layers Produce ionomer resin, for example from the ionomer resin, which under the Trade name Surlyn A is available from Du Pont de Nemours.

The composite films produced according to the invention are above all Advantageously applicable in packaging technology.

Example 1: The ring nozzle head 10 is inserted via the screw presses Polyäthyien with a melt index (measured at 190 ° C and 2 kg load) between 5 and 6 and a density of 0.920 to 0.922 at a temperature of 230 to 2400C fed. About the polyamide processing screw press 24 is the ring nozzle head 10 a 6-polyamide (Polycaprolaetam) fed. The temperature of the ring nozzle head 10 is switched to 2.0 to 240 0C. D;: r head extension 34.

is rinsed with a coolant. Through the coolant channel 40, a cooling liquid of approx. 1150C is guided through the coolant channel 44 etne Ki: 'iil £ liquid of 180 ° C and through the coolant channel 42 a coolant liquid from 1600C. When the combined layers emerge from the extrusion channel 38 this cooled to 180 to 190 ° C.

This temperature is approx. 20 to 30 ° C below the melting temperature of the polyamide and 60 to 70 0C above the melting temperature of the polyethylene.

Example 2: titer the screw presses 20, 28 is made of polyethylene a melt index, measured at 1900C and 2 kg load, between 5 and 6 and a density of 0.920 to 0.922 at a temperature of 200 0C the ring nozzle head fed. The ring nozzle head is made of polypropylene via the third screw press with a melt index, measured at 1900C and 2 kg load of o, 2 and one Density of 0.896 supplied at a temperature of 200 0C. The temperature of the coolant in the coolant channel 40 is 1100C, the temperature of the coolant in the Coolant channel 44 1500C and the coolant temperature in the coolant channel 42 140 ° C. Otherwise, the implementation of the example corresponds to the implementation of the Example 1.

Example 3: The screw presses 20, 28 produce a terpolymer of ethylene with acrylic acid and acrylic acid ester with a melt index, gomessen at 1900C and 2 kg load, between 6 and 8 and a density of 0.926 to 0.931 fed to the ring nozzle head at a temperature of 220-2300C. About the third A 6-polyamide (polycaprolactam) as in FIG Example 1 supplied, The further processing takes place as in Example 1. Upon exit of the combined layers from the extrusion channel 38, these are at 180-190 ° C cooled down. This temperature is approx. 20-300C below the melting temperature of the Polyamides and approx.

80 - 960C above the melting temperature of the terpolymer.

At this temperature, it is then stretched in the longitudinal direction stretched in the ratio of 1: 2.5, with stretching within the meaning of the definition of the "Kunststofflexikon", Carl Hanser Verlag, Munich, only for the polyamide layer is achieved because the terpolymer layers are still in a plastic state.

Claims (2)

P a t e n t a n s p r ü c h e 1. A method for producing a partially stretched plastic film material according to German patent .............. (German patent application P 19 23 852.9-16) by combining Plastic layers in the melt flow with immediately subsequent stretching of the so formed film material, with two layers of thermoplastic Kuststoff with a lower melting temperature from a nozzle head into a common extrusion channel are introduced and a thermoplastic plastic between these two layers introduced with a higher temperature and together with the two layers is introduced from the nozzle head into the common extrusion channel, wherein further the combined layers so long through a cooling section of the common extrusion channel be guided until the higher melting temperature of the between the two layers imported thermoplastic material, but not the melting temperature of the Layers themselves is undershot and until they act as sliding layers on the extrusion channel walls adjacent, still plastic layers due to their adhesion to the already solidified, between them introduced thermoplastic material with a higher melting temperature and their friction against the extrusion channel walls result in immediate stretching at the outlet; of the extrusion channel permitting pull-out resistance, characterized in that that the thermoplastic has a higher melting temperature between the layers is introduced in the form of individual stream filaments. 2. The method according to claim 1, d a d u r c h g e k e n n z e i c h n e t that in the production of tubular film material this one Is subjected to drill treatment. 3 ¢ device for performing the method according to claim 1, comprising a multi-channel nozzle head with a flat nozzle-like confluence of the individual layers and a subsequent to the confluence, the resulting plastic film material on both sides of the temperature control channel, the temperature control channel as a Cooling bar is formed with arranged on both sides of the resulting plastic material Coolant channels, characterized in that 10 bores in the multi-channel nozzle head 18 are provided, which the individual stream filaments to one of the layers or to bring up the junction of the two layers. L e r s e i t e