DE581684C - Process for the production of purified rubber - Google Patents

Description

Process for making purified rubber The invention relates to a process for making purified rubber from raw Commercial rubber or rubber milk. Such purified rubber is in particular intended for the production of electrical insulation materials, which are used as raw materials Contain rubber and remain effective even after long periods of time under water to be used. Preferably the rubber purified according to the invention comes for the production of insulation of conductors of submarine cables in question.

As is well known, rubber can be of the consistency in which it is usually used occurs in the trade, not with a satisfactory result for insulation of the conductors used by subsea telegraph and telephone cables. If you tried To use rubber for this purpose, it has become necessary for the successful operation essential electrical properties of the cable after the cable has been laid gradually worsened. This deterioration is due to the ingestion of water through the rubber, reducing the effectiveness of the cable.

The raw rubber on the market contains rubber hydrocarbons in addition to rubber a large number of other substances that are collectively named in rubber manufacture Non-rubber materials are designated and z. B. proteins, esters and glycosides. The presence of these non-rubber materials in rubber is detrimental when the latter is used for electrical insulation of signal lines, because they, especially after lying in water for a long time, reduce the dielectric resistance and the dielectric constant and increase the dissipation of insulation for alternating current.

Some of these non-rubbers are soluble in water and can Therefore, raw rubber can be extracted by washing in water, and it has become show that this achieves an improvement in the electrical insulation capacity will. It has shown, that the water absorption capacity of the raw rubber relies to a large extent on the presence of these water-soluble ingredients and that the rubber shows a reduction in this absorption capacity after its removal. However, some of the non-rubbers are and remain almost insoluble in water hence in rubber, where they have an adverse effect, as over time some of them are broken down into simpler chemical compounds, e.g. B. amino acids, which are soluble in water, so that the rubber always increases with the passage of time absorbs more water, resulting in a deterioration in its electrical properties and features follows.

The purpose of the invention is to remove these usually in water insoluble compounds in order to obtain a purified rubber in this way, the z. B. as electrical insulating material, especially for an unlimited length Use in water without noticeable deterioration is suitable.

According to the invention, the raw commercial rubber becomes the exposure subject to a body containing the rubber or the proteins in the rubber can swell while the raw material at the same time or after z. B. with overheated Treated with water or steam.

In one embodiment of the invention, an improved electrical is obtained Insulating material by treating rubber with steam and superheated water, to which glycerin has been added so that its boiling point is increased. Here will be some of the non-rubbers, which are insoluble in water by themselves, become water-soluble Converted into products that, together with those present in rubber from the start, water-soluble components are extracted from the rubber by means of water can. The glycerine also supports the hydrolytic action, since it increases the im Rubber attacks existing proteins and causes them to swell, so that they the more exposed to hydrolytic action of water and steam on the raw rubber through which they and the other insoluble constituents of the non-rubber substances converted into simpler, water-soluble chemical bodies. The raw rubber can either be washed first with water in a known manner to make the water soluble Remove constituents and then subject them to the treatment described, to make some of the water-insoluble constituents water-soluble, or the raw rubber can immediately with the superheated water and steam in the presence of glycerin be treated. In either case, the rubber so treated will eventually become washed with water to extract the products of hydrolysis therefrom.

The rubber to be treated is rolled into pelts or finely chopped up and placed in an autoclave. Sufficient water and glycerin are added to cover the rubber and after the air has been expelled from the autoclave or replaced with an inert gas such as carbon dioxide, the vessel is closed and its temperature gradually increased to a suitable level, e.g. B. 150 to 250 ' , and held at this level until the reaction has reached the desired degree of completeness, which is the case at 150' in about 6 hours. It has been found desirable, although not necessary, to use an autoclave with some kind of stirring or mixing device capable of constantly exposing new surfaces of the rubber to the action. After the autoclave has cooled, the rubber is removed and washed in the usual way. If necessary, the procedure can be repeated several times with the same amount of rubber. Finally the rubber is rolled out and dried.

Because the rubber, from which the proteins have been removed, is very light Absorbs oxygen and quickly spoils it, must in the manner described treated rubber by adding small amounts of antioxidants, e.g. B. para-aminophenol, to be made permanent.

The rubber protein has been found to be partially soluble in glycerine and other oxy compounds. If raw rubber in glycerine is heated to a temperature of 150 to 250 °, the glycerine slowly diffuses into the rubber and causes the protein distributed through the mass to swell. When this swollen gum is removed from the glycerin and treated with superheated water and steam, the reaction between the water and protein is found to be complete in about 3 hours rather than in about 24 to 30 hours when the pre-treatment, e.g. B. with glycerine, is omitted. Other suitable oxy compounds are e.g. B. Glycol and Acetine.

According to another feature of the invention is therefore the raw rubber first treated with a compound that can cause the protein to swell, and then a hydrolytic action, preferably with superheated water and steam exposed.

The degree of cleaning of the rubber as a result of the described Treatments emerges from the following examples in which the protein content of the rubber before and after the treatment serves as a benchmark because the protein is one of the most important non-rubber bodies and it is easy to determine analytically can.

Example i White plantation crepe rubber was mixed in glycerin to about Heated igo ° until the product has swelled to a dark brown mass throughout. This took about half an hour. The rubber was then hot off Glycerin removed, drained and then placed in an autoclave, which contains enough water to cover the rubber. The autoclave was then closed and the temperature of the contents increased to 150 ° for about three and a half hours, whereupon after the device has cooled, the rubber is removed, washed and dried became.

As a result of this treatment, the protein content of the rubber was reduced by its original value of 2.8 ° / o in the raw rubber to 0.75 ° / o in the treated one Rubber diminished. Without the combined treatment of glycerin and water, that is by means of treatment with water alone in the autoclave, requires the treatment about 25½ hours to complete; this involves the reduction in protein content from 2.8 per cent to 0.9 per cent.

In a modified embodiment, the rubber is before the Purification treatment by hydrolysis by treatment with an organic solvent, z. B. benzene or toluene, caused to swell by either adding it to the agent immersed in or exposed to an atmosphere laden with the vapor of the agent is. The swelling agent for the rubber should preferably be in the superheated water be noticeably soluble at the temperature at which the water is mixed with the proteins and other non-rubber substances contained in rubber can react. example 2 White plantation crepe rubber was in a benzene-laden atmosphere stored until it had absorbed about 10% of its weight in solvent. He was then placed in an autoclave along with water and left on for 3 hours 18o ', whereupon it was washed and dried.

As a result of this treatment, the protein content of the rubber was found reduced to 0.6 per cent.

By the treatment according to the invention, the raw rubber becomes one Given a condition in which it undergoes hydrolytic treatment for conversion of the water-insoluble substances in water-soluble ones is more accessible, because through the The raw rubber or the proteins contained therein swell a larger surface is exposed to the action of the hydrolyzing body. In addition, through Selection of a suitable source agent for the entry of the hydrolyzing body in the. Rubber facilitates because the hydrolyzing body has an affinity for it the swelling agent has.

A rubber made according to the invention is to a higher degree thermoplastic than the original raw rubber. By removing the non-rubber components the electrical properties of the rubber, e.g. B. the dielectric Resistance, dielectric constant and permeability for alternating current, made more resistant in the presence of moisture, and the water absorption capacity of rubber is reduced.

If you clean the obtained after the treatment methods described Rubber used to insulate submarine cables is preferred with gutta-percha or balata or both substances mixed, which have preferably been cleaned beforehand are. The purified rubber can also be used as the rubber component of blends to be used.

A mass of rubber with a protein content of 0.2 g%, gutta-percha of ordinary quality and a high-melting bitumen had a dielectric constant of 2.80. After the mass had been in water for three months, its dielectric constant had increased to 2.95. A similar mass, made with ordinary rubber, initially had a dielectric constant of 2.78, but after three months in water the dielectric constant had increased to 3.18.

A mass of rubber, which by means of the method according to Example i cleaned and with an equal weight of dirt and resin-free Gütta-percha was mixed, had a dielectric constant when examined at 1.66 'and 2,000 cycles from 2.53. This value rose to 2.66 when the material was immersed in water for three months left lying. The dielectric constant of a control mass with the same content of ordinary rubber rose under the same conditions from 2.53 to 2.8q .. The values of the permeability of both masses for alternating current remained at 1.66 'and 2,000 cycles below 1o micro-micro-Siemens to the cubic centimeter.

Rubber made according to the invention can be easily vulcanized will. For example, a mass of according to the method of Example i purified Rubber with the addition of zinc oxide, sulfur and a high-melting bitumen with a low ash and free carbon content manufactured and vulcanized. The dielectric constant of this mass increased at Store in water of 2, $ q. to 3.0 =, while the corresponding value for a similar one Mass, but containing ordinary rubber, of one at the same time similar initial value rose to 3.15.

The invention also includes insulating materials made by removing it Non-rubber components: Purified rubber mixed with a curing agent Substance, like gutta-percha or balata or both.

Rubber made according to the invention is more suitable after the addition Fillers, accelerators and other secondary ingredients for vulcanization known methods.

Even if the treatment described above in particular for Rubber has been specified so it is for. the experts in the field of the plastic resins can easily be seen that the same treatment also applies to mixtures of rubber with gutta-percha, balata and similar resins and of milk juices, e.g. B. rubber milk juice can be used.

Claims (3)

PATENT CLAIMS: i. Process for the production of purified rubber from raw commercial rubber or rubber milk with removal of the usually water-insoluble Bodies or proteins in which the raw material is subjected to hydrolytic action is to make the usually water-insoluble bodies soluble, whereupon they go through Washing can be removed, characterized in that the raw material of the Exposure to a body containing the rubber or proteins in it the rubber can swell, and that it is simultaneously or thereafter z. B. with overheated Treated with water or steam. 2. The method according to claim i, characterized in that that the rubber undergoes hydrolytic treatment with superheated water and steam is subjected to which glycerin has been added. 3. The method according to claim i, characterized in that the rubber is heated in glycerol or another oxy compound at a temperature of = 50 to 250 ' and then treated with superheated water and steam. q .. The method according to claim i, characterized in that the rubber by treatment with an organic solvent, such as. B. benzene, which is appreciably soluble in superheated water, is swollen and then treated with superheated water and steam. 5. The method according to claim q., Characterized in that the rubber is exposed to an atmosphere of benzene or another solvent = until it has taken about = o ° /, its weight of solvent.