DE1058181B - Joint filler - Google Patents

Description

Joint filling compound The invention relates to a joint filling compound suitable mass consisting of swellable synthetic that is intimately mixed with mineral oil Composed of rubber and synthetic resin in fine form. The mineral oil makes the synthetic rubber or the synthetic resin is swollen and eventually forms at normal temperature with it a gel.

The use of mixtures of synthetic rubbers or resins with solvents as joint filling compounds has already been described. Included the mixtures had to be prepared at the point of use and by evaporation of excess solvent, often large amounts of valuable material, into the desired liquid form. Nasch the procedure. of the present invention There is no need for such cumbersome operations, since the material is in a paste-like state is present and in this form in the. Grout can be spread. The paste solidifies then at any temperature without further post-treatment.

The swellable compound can be of a type that is resistant to paraffin oils is stable, but in mineral oils that contain a greater proportion of one or several aromatic coals contain hydrogen, is swellable. One such Mineral oil can of course also be used to make the mass.

The proportions of the swellable compound and the mineral oil can thereby may be different depending on the nature of these two materials. Crazy general however, there are no more than 60 and no less per 100 parts by weight of mineral oil than 2 parts by weight of the swellable compound.

Except the synthetic rubber or synthetic resin and The mixtures can also contain tar and / or a mixture of pitch in the mineral oil Powder or granulate form with an anthracene oil or another oil, which mainly from hydrocarbons or from hydrocarbons and phenols exists, included.

The specified mixtures can pass through without increasing the temperature simply mixing the ingredients in the cold to make a paste, which is then filled into the joints. Gelling also takes place without an increase in temperature after a certain amount of time. However, the mixture must not be made so early that gelling before pouring the mass into the joints. entry. As swellable synthetic rubber and resin are polystyrenes, butadiene-styrene copolymers, Butadiene-acrylonitrile copolymers and also butadiene-methyl-isopropenyl ketone copolymers suitable. Mineral oils are mixtures of liquid aromatic hydrocarbons, as they are used as "aromatic extracts" in the processing of crude oil for production from lubricating oils are suitable. The one in which the synthetic rubber swells or hydrocarbons contained in the mineral oil used, therefore do not need to be free from other substances. There can also be certain aromatic Oils derived from tar and, in addition to aromatic hydrocarbons, also phenols included, can be used, e.g. B. heavy kerosol oil and anthracene oil. Using Part of the oil is used to swell the synthetic rubber or such oils Resin and the rest to soften any pitch used.

Besides the synthetic rubber or synthetic resin, the Mineral oil and possibly a tar or equivalent mixture can be used in the mass or contain more fillers. Asbestos can be used as a fibrous filler will. As non-fibrous fillers, organic materials such as coconut shell melil, Powdered sawdust and cork and mineral fillers, e.g. B. Limestone powder, Chalk, silicate and rock flour are suitable. Materials such as kaolin can used when mixing the synthetic rubber or the resin with the other ingredients.

The mixing of the individual ingredients can be done by various methods be made. The final mix is preferably made from two pre-mixes, of dents one of the .synthetic rubber or the resin in powder or Granular form together with any pitch used in powder or granulate form, the other the mineral oil along with your oil used in conjunction with the pitch or tar, contain. The fillers can be included in one or both of the premixes be. The two premixes are mixed just before the joints are filled.

In addition to the components already mentioned, the masses can also have one more smaller proportion of volatile compounds compatible with the synthetic rubber or resin Contain solvents. The use of such a solvent makes it possible it to lower the viscosity of the mass at the time of processing, if this is necessary.

Mixtures that are difficult to melt can be carried out according to the invention Use of a high molecular weight polymer and / or partial crosslinking getting produced. An example of such a polymer is the copolymer from styrene and butadiene with 501 / o or more styrene. Certain butadiene-acrylonitrile copolymers can also be used. These are relatively infusible masses Particularly suitable for filling joints on airfield runways for jet planes be used. The recoil gases of the engines of these aircraft have a relative little effect on the very difficult to melt masses.

The following examples illustrate the invention. The ones in the examples The amounts given are parts by weight.

Example I The following materials made a moderately stiff: Paste mixed and this mass used to fill a joint: ground polystyrene . . . . . . . . . . . . . . . . . 25% pitch in granulate form ......... ...... ... 30% mixture of liquid aromatic hydrocarbons ................. 90/0 Anthracene oil ........................... 36% The pot life of the mixture is about 11/2 hours. The mixture forms a rubber-like, solid one in the cold Body.

Example 1I The following materials are mixed to form a paste and this mass is filled into a joint: ground polystyrene. . . . . . . . . . . . . . . 22.5% pitch in granulate form ... .......... ... 22.5% asbestos .............................. 9.5% mixture of liquid aromatic hydrocarbons ............... 7.5% Anthracene Oil ......................... 38 1/0 This mixture is similar to that of the first example. However, its processing time is about 6 hours.

Example III butadiene-styrene copolymer with styrene content ....................... 11 0/0 pitch in granulate form. ............... 26 1/0 anthracene oil ... .. .................... 50% asbestos ... .. .. .......... ............. 7.5% kaolin ... .. ... . ..................... 5.50 / 0 A commercially available product with a styrene content of 85% and a butadiene content was used as the butadiene-styrene copolymer used by 151, 'o. The copolymer was first mixed intimately with the kaolin and this powder was mixed with the other solid components, pitch and asbestos. This mixture was finally mixed with the anthracene oil to form a stiff paste. This paste was poured into the joints and formed a tough, rubbery gel that had acceptable jet fuel and heat resistance.

Example IV Butadiene-acrylonitrile copolymer 5 1 / o pitch in granular form . . . .. .. .. .. .. ... 35 0/0 anthracene oil ......................... 50 0/0 asbestos ... .. .. .. .. .. .. ............... 7.5% kaolin ............... ............... 2.5% The mixture was prepared in a manner similar to that described in Example II. the Thick paste made from the ingredients was placed in a joint and formed a rubbery gel with good resistance to jet fuel and against heat.

In Examples III and IV it was found to be useful at the construction site only the final mixture of the two premixes anthracene oil and powder from the four solids.

The anthracene oil given in the examples can also be used by heavy Creosol oil with similar properties can be replaced.

Claims (7)

PATENT CLAIMS: 1. Joint filling compound, characterized in that it consists of a mineral oil made from aromatic hydrocarbons, optionally with the addition of small amounts of phenols, such as. Creosol oil and anthracene oil, and is mixed with finely divided, synthetic rubber or swellable resin that is swellable by the mineral oil, the rubber or resin (e.g. polystyrene, a butadiene-styrene copolymer or a butadiene-acrylonitrile copolymer) is resistant to swelling by paraffin oil, and the proportion of the mineral oil is chosen so that it is sufficient for the swelling of the rubber or the resin and the final formation of a gel at normal temperature, but not for its solution, and that the mineral oil and the used synthetic rubber or the resin is mixed as required with a tar and / or a mixture of finely divided or lumpy pitch and an anthracene oil or another oil consisting essentially of hydrocarbons or of phenols and hydrocarbons and / or with a filler. 2. Mass according to claim 1, characterized in that that on 100 parts by weight of the mineral oil not more than 60 and not less than 2 parts by weight of the swellable compound come. 3. Composition according to claim 1 and 2, characterized in that it is still a tar and / or a mixture of pitch. in powder or granular form with an anthracene oil or another essentially Contains oil composed of hydrocarbons or hydrocarbons and phenols. 4th Composition according to Claims 1 to 3, characterized in that it is used as a swellable compound contains a polystyrene. 5. Composition according to claim 1 to 3, characterized in that that it contains a butadiene-styrene copolymer as a swellable compound. 6. Composition according to claim 1 to 3, characterized in that it is a swellable Compound contains a butadiene-acrylonitrile copolymer. 7. Composition according to one of the preceding claims, characterized in that it also contains a filler. B. mass according to claim 7, characterized in that it contains asbestos. Considered publications: German Patent Nos. 899 394, 757 293, 713 254, 915 483; French Patent No. 902 529; Dutch Patent No. 53 80'5; W agne r-S arx, "Lackkunstharze", 1950; P. 183; Payne, "Organic Coating Technology", 1954, p.366.