DE1814445B2 - Binder for road surfaces contng a vinyl polymer tar and - Google Patents

Abstract

Prepn. of hydrocarbon binder for road surfaces by (a) prepg. a suspension of anthracene-type mineral oil and a vinyl polymer at ambient temp., and (b) rapidly mixing this suspension with tar or liquid asphalt heated to 140 deg.-170 deg.C. This mixing is pref. completed within one min. The suspension cont. 15-40% wt. polymer which is pref. vinyl chloride.

Description

The invention relates to the production of a binder from tar or liquefied pitch and vinyl polymers, in particular for road construction, for the production of pavements for roads and Airfields.

For a number of years, binders based on tar or liquefied pitch have been used, into which a vinyl polymer or copolymer, in particular polyvinyl chloride, is incorporated. These However, binders known as "Goudron-Vinyl" have the following disadvantages: If the binder on the basis of tar and vinyl polymer is manufactured beforehand in the factory, can be used at prolonged reheating to temperatures on the order of 140 ° C for use either as asphalt concrete or as a road and wear layer, a segregation of tar and vinyl polymer occur, making the binder unusable for all purposes.

This property is well known to those skilled in the art and constitutes the main difficulty of use of binders based on tar and vinyl polymers. Furthermore, the binder obtained is Relatively difficult in most paraffinic solvents and in aromatic solvents soluble (this property is desired for road surfaces on airfields). From this property practically insurmountable difficulties arise when a pipeline for the promotion of the Product clogged.

If the binder is not prepared in advance, but used in the manner described in French patent specification 1383140, by covering the chippings of the ceiling material hot with tar or pitch made flowable and then briefly ^{inserting it into the mixture at a temperature of 100 to 150 0 C} If a finely divided vinyl polymer is incorporated in powder form, the above-mentioned disadvantages are avoided. It has been shown, however, that the powdered polymer, especially in the case of polyvinyl chloride in the mixer, can stick to the blades and the walls, where it gels at the temperature used to form rubber-like lumps which are found in the coated grit where they are are undesirable. Furthermore, the vinyl polymer converted in this way is lost for the improvement of the properties of the binder.

It was also found that even then the quality of the binders was still very far from the optimal properties are removed, even if they exceed those of the usual tar and bitumen, if you have the polyvinyl chloride either in suspension in oil or in the form of granules a pitch added and the mixture obtained is stirred and heated.

ίο Experience has shown that the polymer, in particular the polyvinyl chloride, regardless of whether it is added in a suspension or in the form of granules tends to gel before it is distributed in the tar. When this gelation has occurred, is it is impossible to re-solubilize the polymer, and a large part of the polymer plays a role only the role of an active filler, instead of improving the theological properties of the To contribute tar or pitch. This is illustrated in particular by the following experiment:

For example, when using a suspension of polyvinyl chloride in anthracene oil, the boils between 250 and 400 ° C and has a density of 1.100 to 1.150, it is found that the temperature rapid gelation of this solution is about 104 ° C. This temperature can, for example to be measured on the maquenne block, where the conversion of the liquid suspension into a rubber-like material, which then practically no longer disperses properly in the tar is, can be easily observed.

The use of anthracene oil and other plasticizing substances is true of the person skilled in the art known for a long time. For example, British patent specification 726 816 mentions anthracene oil for softening of coal tar in addition to low-melting resins, which have the same effect. According to British Patent 805 655 are very small amounts of polyvinyl chloride with a comparative large amount of anthracene oil mixed at temperatures above 100 ° C, with probably a Solution occurs. In British Patent 853 525 a method is described in which after mixing the polyvinyl chloride anthracene oil dispersion with the tar, the mixture for one Is heated to 140 ° C for 30 minutes. Also according to German patents 638 920 and 757 293 only a very small amount of polyvinylchloride is used and becomes hot Completely dissolved in anthracene oil, or polyvinyl chloride becomes many with anthracene oil and / or coal tar Heated to 150 to 200 ° C for hours. All of these known Processes suffer from the aforementioned disadvantage of rapid gelation of the mixture Polyvinyl chloride and anthracene oil tainted, and the dispersion of the resulting rubbery Materials in the tar encounter the greatest difficulties.

The invention is based on the object of eliminating the above-mentioned disadvantages and a To make process available that the production of a binder from tar or liquefied pitch and vinyl polymers with improved properties at lower manufacturing costs. This Process is characterized in that one 15 to 40 percent by weight at ambient temperature Polyvinyl chloride containing suspension of polyvinyl chloride boiling between 250 and 400 ° C

the anthracene oil prepared in the usual way and this suspension in less than a minute with a tar or liquefied pitch heated to a temperature in the range from 140 to 170 "C mixes.

In the method according to the invention, a suspension is thus initially formed at ambient temperature of polyvinyl chloride in anthracene oil, which boils between 250 and 400 ° C. The polymer is introduced in finely divided form, and it is advantageous to work with strong movement, in order to obtain a homogeneous suspension in which no gel formation takes place, since at ambient temperature is being worked on.

Then the suspension is quickly mixed with the tar kept at 140 to 170 ° C. or with the tar Bad luck. It is advantageous to work in a high-speed mixer in which the two products, namely the suspension of polyvinyl chloride in anthracene oil and the tar or pitch, with metering pumps to be introduced. Mixing usually takes less than a minute, preferably 10 to 40 seconds.

In this way the polymer is dispersed in the binder before gel formation takes place. Here, the vinyl polymer is intimately mixed with the tar or pitch and in a few tens of seconds a perfectly homogeneous binder obtained, in which all the polymer is effective for improvement the theological properties of tar is exploited. The proportions of the two too Mixing products are made according to the desired properties of the final binder chosen and can easily be determined by a person skilled in the art.

The binder obtained in this way according to the invention differs fundamentally from the Products of the known processes. This difference becomes particularly evident in the following experiment illustrates.

1. A binder based on tar and vinyl polymer is produced in the classic way, by powdered polyvinyl chloride, which has a K value of 78 to 81, in an amount of 5 percent by weight of a flowable pitch which has a BRTA viscosity of 100 seconds (10 mm, 30 ° C) is added by adding the mixture for 2 hours while increasing the temperature to 140 ° C is mixed up. A measurement of the viscosity of the binder obtained with a penetrometer using Cone at temperatures of 0 and 25 ° C gives values (in mm / 10) from 40 to 45 at 0 ° C and 220 up to 230 at 25 ° C.

Note that this is done with the cone penetrometer The measured viscosity is actually a measure of the improvement made by the polyvinyl chloride Theological properties is that tar allows penetration without the addition of polyvinyl chloride too big to be measured.

2. A binder of the same composition is prepared by the method according to the invention, by a suspension of 25 percent by weight polyvinyl chloride in anthracene oil with the Pitch made flowable is mixed in the turbo mixer. The proportion of polyvinyl chloride in the binder is the same as above, namely 5 ° / o. The same polyvinyl chloride is used and the The viscosity of the mixture of anthracene oil and fluidized pitch is also 100 seconds. In this case, the penetrations measured with the cone at 0 and 25 ° C are 35 to 38 0 ° C and 200 to 210 at 25 ° C.

It should be noted that these penetrations are significantly lower than in the case of the one described under 1 Attempt. This corresponds to a higher viscosity due to the polyvinyl chloride, and

ίο a binder of a different nature, that does not contain gelled polyvinyl chloride that is not dispersed in the tar.

The possibility is not to be overlooked in the case of the binder according to the invention its use for the production of kerosene-resistant concrete with special creep and fatigue resistance, which is also particularly suitable for the construction of airfields and motorways. In addition to bitumen, products containing polyvinyl chloride had previously been used for this purpose, which, however, did not meet the special requirements, as also from the later comparative tests emerges. It is particularly surprising that, by the special procedure, it is measured the invention succeeds in providing a binder for road construction available that is used in the for Application coming temperatures possesses a sufficient flowability to the rock Distribute evenly over the entire surface without the need for products that have been used up to now segregation is to be feared. Also the application of the resulting mixture to the Construction of the airfields and roads can be done without difficulty as long as the binder is used is still warm enough, and when it cools down to ambient temperature, the binder gets its own excellent mechanical strength.

The particular suitability of the concrete produced with the help of the binder according to the invention for the construction of airfields and motorways is confirmed by the following example.

example

According to the invention, a binder is made from a bituminous coal pitch that has an EVT value of 55, manufactured. The EVT value is the temperature at which the measured according to the BRTA standard (10 mm) Viscosity is 50 seconds. The pitch, heated to a temperature of 150 ° C, is mixed in a turbo mixer mixed with 20 percent by weight of a previously prepared suspension, the 25 percent by weight Contains polyvinyl chloride (K value 78 to 81) in anthracene oil. The binder obtained is mixed with rocks of the following composition:

Porphyry chippings 3 to 8 mm 36%

Porphyry crushed sand 0 to 3 mm 25 Vo

River sand 0 to 5 mm 33%

Limestone filler under 0.074 mm 6 Vo

The proportion of binding agent is 8 Vo, based on the rock.

This attempt is repeated, but with the

mentioned binder replaced by bitumen 80/100 and the proportion of bitumen to 6.7 percent by weight is lowered, which corresponds to the same volume of binder in the rock in both cases.

A comparison of the two concrete products shows the following:

a) The concrete obtained with the binder produced according to the invention shows ^{a deformation of 1.5 mm under a static load of 100 kg / cm 2} , and the deformation remains a linear function of the pressure up to over 100 kg / cm ² .

In contrast, in the bitumen-based sample, the deformation reaches 5.5 mm at a pressure of 60 kg / cm ² , and this deformation becomes exponential as soon as the pressure reaches 15 kg / cm ² .

b) If samples in the form of a parallelepiped are subjected to the shear test at 50 ° C, a linear deformation of 0.5 microns / minute is obtained for the concrete at a force of 1.2 kg Bitumen base 80/100, while this deformation is only 0.2 microns / minute at a force of 8 kg for is the concrete which contains the binder produced according to the invention.

c) If a slab of each of these two types of concrete is rolled over with a loaded, pneumatic tire, that moves back and forth at a rate of 1 cycle / second and sags from 1.5 mm to a length of 40 cm, it is found that the bitumen-based concrete 80/100

ίο by a few millimeters (2 to 3) after 15,000 cycles is extended and has transverse cracks due to fatigue. The one with the binder according to the invention In contrast to this, the concrete produced is not measurably extended and shows after 100,000 cycles no visible cracks.

Claims (1)

Claim: Process for the production of a binder from tar or liquefied pitch and vinyl polymers, in particular for road construction, characterized in that at Ambient temperature a suspension containing 15 to 40 weight percent polyvinyl chloride of polyvinyl chloride in anthracene oil boiling between 250 and 400 ° C in the usual way and you can get this suspension in less than a minute with a temperature in the range Mixes tar or liquefied pitch heated from 140 to 170 ° C.