NO155238B - PROCEDURE FOR PURIFICATION OF ALIFATIC CARBOXYL ACIDS. - Google Patents

Description

Method for improving rubber adhesion of polyethylene terephthalate cover cords.

Yarn has been used for a long time

synthetic high polymers for the production of deck chords. Synthetic polymers are particularly suitable for

this field of application due to their high

firmness properties and the possibility, during the production of the yarns and threads, to set the extension practically to any necessary value.

On the other hand, it has from the beginning

passed a considerable difficulty when embedding the cord in the rubber cover by removing the yarn

synthetic polymers show very poor rubber adhesion.

In cord of polyamides, especially nylon, has

this difficulty was overcome in practice.

The cord yarn and/or fabric is treated

before embedding in the tire with an aqueous dispersion

of an agent that improves rubber adhesion.

The most well-known are aqueous treatments

dispersions of resorcinol-formaldehyde/vinylpyridine-latex.

When attempting to also use polyethylene terephthalate as a cover, it has been determined that this material can lead to further improvements. For example, this polyester cord has a steeper force expansion diagram and consequently a reduced tendency to "wax", i.e. to expand under longer stress and the resulting high temperatures. However, the polyester cord's rubber adhesion is still worse than that of nylon cord. For example, with the treatment agents known for nylon cords, sufficient rubber adhesion cannot be achieved.

However, methods are also known for improving rubber adhesion of polyester cords. Thus, corresponding to the French patent no.

1 282 413 on polyester cord, a layer is first applied

which has a butadiene styrene-vinylpyridine copolymer and a low-molecular-weight polyepoxide compound, then another layer which, in addition to a latex, contains a network forming part for poly-

the epoxide, preferably a polyamine. After the first layer has been applied, the cord is first heated at approx. 150°C. In connection with the second coating, it is necessary to heat it at higher temperatures of, for example, 150-260°C, so that a reaction can take place between the polyepoxide and the network-forming agent. With this method, an improvement in the rubber adhesion of the polyester cord is certainly achieved, however, this is not sufficiently high.

In Belgian patent no. 608925, a method is described which is characterized by treating polyester cord yarn with a polyepoxy compound, heating and then applying an adhesive consisting of resorcin, pyrocatechin, phloroglucin or similar compounds, an aldehyde and a latex. Then reheat. Even according to this method, a sufficiently high rubber adhesion cannot be achieved.

Good results, on the other hand, are achieved when working in accordance with the U.S. patent no. 2 902 398. According to the method described there, cord yarn is first impregnated, among other things, with polyester cord with an aqueous dispersion of a polyepoxide and an epoxy curing agent, e.g. an amino compound, then dried and treated in a second step with a latex. The rubber adhesion that can be achieved in this way amounts to more than 10 kg. In this known method, the first treatment is carried out on finished cord yarn or on cord weave.

The invention thus relates to a method for improving rubber adhesion of polyethylene terephthalate cover cords by treatment with an aqueous solution containing a glycideter of an aromatic or cycloaliphatic polyoxy compound with two or more glycideter groups and a heterocyclic or aliphatic amine in the first step and with an aqueous dispersion of a resorcin-formaldehyde pre-condensate and vinylpyridine latex in the second step, as heating takes place to harden the treatment agent applied in the first step, and the method is characterized by applying the glycide ether and the amine simultaneously with the application of the spinning finish on the threads to be used for the production of cover chords.

For the production of cover cords from polyethylene terephthalate, as is well known, threads are used which are produced by spinning the polyester melt. It is generally customary to pass the newly spun threads before further processing, i.e. winding, stretching etc. over a galette with the help of which a spinning finish is applied. This precaution is necessary to smooth the threads consisting of a large number of capillary threads and to provide a better thread connection, and thus to ensure a frictionless progress of the subsequent process steps. For example, aqueous-alcoholic or petrol emulsions of natural fats and oils and emulsifiers are used as spinning finishing agents. The emulsifiers contain e.g. ethoxylated sorbitol esters, fatty acid esters or sorbitans. Furthermore, further compounds are often added to the preparations which reduce the electrostatic charge. Also known are petrol-based spinning finishes which in particular contain paraffin oil and free fatty acid.

For the method according to the invention, all known spinning devices can be used

for polyethylene terephthalate which are miscible with treatment agents for improving rubber uk adhesion. This can be determined by a simple experiment.

The procedure can be carried out in a simple way, by mixing the aqueous alcoholic or petrolic spinning preparation with the aqueous or petrolic solution, which contains a glycideter of an aromatic or cycloaliphatic polyoxy compound with two or more glycideter groups and a heterocyclic or aliphatic amine, and applies this mixture using the galette arranged for the application of the spinning preparation to the threads. However, it is also possible to arrange two galettes one after the other

and to apply spinning finish and treatment agent

for improving rubber adhesion separately, however, immediately after each other. In both cases, you get a completely even application of the two agents. The subsequent method steps can be carried out without any disturbance whatsoever.

Since the wetting of the thread with the spinning finish must under all circumstances be carried out, the method by which the spinning finish is applied to the threads at the same time as the agent for improving the rubber adhesion means saving a process step. This is possible by the combination according to the invention of the aforementioned glycidet and heterocyclic resp. aliphatic amines, as these treatment agents do not make the threads rough and inflexible.

The procedure is explained in more detail using the diagram (fig. 1) and some examples (table I).

A polyethylene terephthalate thread 1 (1000 den/210 single threads) emerging from the spinning nozzle is fed over a galette 2 and moistened with a mixture of spinning finish and treatment agent to improve rubber adhesion (composition see the table) and then wound up. The coil 3 is brought to the stretching device 4. The stretching takes place at a temperature of approx. 225°C. The thread is then passed through a steam zone 5, in which at 245°C a slight shrinkage of the thread takes place and the thread is taken up again on spool 6. Two spools 6 are then twisted into a cord yarn of 1000 den 2 X, 500S/500Z. The cord yarn spool 7 then leads in a known manner through a vessel 8, in which there is an aqueous dispersion of resorcin-formaldehyde pre-condensate and vmylpyridine latex. Fixation of this treatment agent takes place in chamber 9 at 160 to 230°C.

Claims (3)

1. Method for improving rubber adhesion of polyethylene terephthalate cover chords by treatment with an aqueous solution containing a glycideter of an aromatic or cycloaliphatic polyoxy compound with two or more glycideter groups and a heterocyclic or aliphatic amine in the first step and with an aqueous dispersion of a resorcin-formaldehyde pre-condensate and vinylpyridine latex in the second step, in order to cure the treatment agent applied in the first step, a heating takes place, characterized by applying the glycide ether and the amine simultaneously with the application of the spinning finish to the threads to be used for the production of cover cords. 2. Method according to claim 1, paragraph terized in that it to the diglycid ether of an aromatic or cycloaliphatic polyoxy compound with two or more glycideter groups and the heterocyclic or aliphatic amine, a spin finish is placed in an aqueous-alcoholic or petrol solution, which contains a vegetable oil or fat and as an emulsifier ethoxylated fatty alcohols, fatty acids, fatty acid esters, sorbitol esters or sorbitans, whereupon the mixture applied using a moistening galette. 3. Method according to claim 1, characterized in that one applies an alcoholic solution of the glycide ether of an aromatic polyoxy compound with two or more glycide ether groups and a heterocyclic or aliphatic amine and the spinning preparation immediately one after the other using two moistening galettes.