BE1002298A3 - Cold binding agent for bitumen based. - Google Patents

Abstract

The cold binder for building industry purposes consists of components A and B. Component A contains 40-60 wt% bitumen or polybutadiene-polystyrene mixed polymer modified bitumen, 20-40 wt% liquid fatty acid, 20-40 wt% filler. Component B contains 10-20% by weight liquid factis prepared from drying or semi-drying plant oil and sulfur, 10-20% by weight or magnesium oxide, alkaline earth metal oxide or hydroxide or mixture thereof, 60-80% by weight or filler, at preferably quartz flour or sand with a grain size of 0-3 mm, and the mixing ratio of components A and B is 1-3: 3-1.

Description

       

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  Bitumen-based cold-binding agent
The invention relates to a cold-binding, two-component agent that is applicable in the construction industry.



   In many areas of the underground and aboveground construction industry there are adhesive and joint sealing tasks of such a nature that they cannot be filled with hot bitumen sealing compounds, or in many cases even with solvent-containing or emulsion products. Various products on two-component epoxy resin or polyurethane base, which also contain coal tar and / or bitumen, as well as solvents, are available for the piece-like repair of roof insulation or for the sealing of expansion joints in high-quality construction objects (bridges, tunnels, cladding rings) and for the filling of joints. The drawback of this is that in general they can only be used for specific, specific adhesion purposes, or that they contain 40-60% solvent and are therefore environmentally polluting and fire-hazardous.



   For example, the solvent or aqueous emulsion-containing, also cold-processable bitumen compositions cannot be used for purposes in which the drying of the adhesive film is not guaranteed, or the volume decrease (shrinkage) occurring during the drying is excluded, such as e.g. in case of adhesion of waterproofing plates with each other or when filling expansion joints. Tar epoxy or bitumen epoxy masses with a high filler content are generally known for the repair of concrete streets and tracks, because they adhere well to concrete and have the desired elasticity. Due to the high cost, they are only used for special construction objects, e.g. for the repair of airport runways. Epoxy resin based adhesives resp. rubber and synthetic rubber adhesives are known.

   For the joint sealing, sealants and fillers on a plastic basis are used, such as products based on polysulfide, butyl rubber, polyisobutylene, polyurethane or based on silicone rubber. Disadvantages are

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 however the high costs, so that they are only spread to a limited extent.



   The disadvantage of the known products is on the one hand their costlyness, on the other hand the fact that they cannot be used for different application purposes. It is, for example, an unresolved task that the adhesive automatically expands in the required layer thickness and thus removes the unevenness of the surface, or that the position of the material to be adhered is also corrected or corrected randomly after application, and thus the processing time. can be regulated. The permanent plastic properties can only be achieved by adding expensive plastics, usually also the use of solvent cannot be avoided.



   The object of the invention is to provide a cold-applicable, permanent plastic agent with adjustable binding time, which is suitable for multiple applications, is water and solvent-free and easy to treat; its use does not have any health or environmental disadvantages.



   According to the invention, the two-component agent, which is water and solvent-free and cold-binding, is characterized in that
Component A
40-60 wt. % bitumen or bitumen modified with 2-6 wt. % polybutadiene-polystyrene
20-40 wt. % liquid fatty acids
20-40 wt. % filler, and
Component B
10-20 wt. %, 5-10 wt.% prepared from drying or semi-drying plant oil and sulfur. % sulfur containing liquid factis
10-20 wt. % zinc oxide, magnesium oxide, alkaline earth metal oxide or hydroxide, or mixture thereof
60-80 wt. % filler, preferably quartz flour or sand with a grain size of 0-3 mm

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 and the mixing ratio between components A and B is 1-3: 3-1.



   The other embodiment of the water and solvent-free, cold-binding, two-component agent according to the invention is characterized in that
Component A
40-60 wt. % bitumen
20-40 wt. % liquid fatty acid with an average of 17-18 carbon atoms or naphthenic acid
5-10 wt. % of sulfur factis prepared from pretreated rapeseed oil and sulfur with a total sulfur content of 17-19 wt. %,   and
Component B
10-20 wt. % zinc oxide, magnesium oxide, calcium oxide (quicklime) or hydroxide, or chlorine lime or mixture thereof
10-90 wt. % filler
1-20 wt. % rubber flour and the mixing ratio between components A and B is 1-3: 3-1.



   The bitumen is added with 2-8 wt. % resp. 2-6 wt. % thermoplastic mixed polymer of the type SBR or SBS modified. Such products are Europren 161A and 161B (Enichem, Italy), Catiflex 1101, 1184, 1186 (Shell Co.), Finapren 411, Claprene (Shell). The molecular weight of these products (synthetic rubber) is 120-280,000. The liquid fatty acid can be tallow oil fatty acid, the iodine value of which is 84-92. As fatty acids, tallow fatty acid, technical fatty acid with an iodine number of 20, saponification number 185-210, sunflower oil fatty acid, rapeseed oil fatty acid, palm kernel oil fatty acid, coconut oil fatty acid or linseed oil fatty acid can be used.

   The inert filler with a grain size of 0-1 mm is sand or quartz flour, andesite, basalt, stone flour, talc, kaolin, bentonite, or clay, microsilica powder, clay earth hydrate, corundum flour, asbestos fiber, mineral wool, plastic fiber, viscose fiber, etc. or mixtures thereof. The drying or semi-drying oil suitable for the factis preparation is

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 sunflower, rapeseed, cottonseed, pumpkin seed, sesame, hemp seed, olive, soy, fish, corn, linseed or castor oil, of which the iodine value is 80-200, although a drying plant oil varnish can also be used used.



  The quality and composition of the inert filler may be the previous one, however the use of sand with a grain size of 0-1 mm is advantageous. The ratio of components A and B may vary within the stated limits, however, it should be noted that for adhesion purposes the use of a mixture with a ratio of 2: 1, while for joint sealing purposes a 1: 1 mixture is effective.



   The agent according to the invention is prepared in such a way that bitumen above its softening point, advantageously between 160-180 ° C, is mixed stepwise with stirring with the thermoplastic SBS mixed polymer, to the homogenized mixture with vigorous stirring.
 EMI4.1
 bare oleic acid and add the filler o to the still warm mixture, let the mixture cool to 30 DEG-40 DEG C. and store the resulting component A separately.



   In a separate step, a faction with a total sulfur content of 8-10 wt.% Is boiled from drying plant oil and sulfur. % After cooling, the zinc or magnesium oxide resp. the alkaline earth metal oxides, after which the component B thus obtained is homogenized after addition of the fillers. Compliance with the mixing order of the components is effective; the stability of the product improves if the indicated mixing sequence is used.



   Alternatively, in the preparation of component A, the bitumen is mixed at C with hard or semi-hard factis, then with oleic acid, while in a separate step the zinc or magnesium oxide or the alkaline earth metal oxides, respectively. the chlorine lime, the fillers and the rubber flour are added and homogenized.



   The essential precondition for the use of the product is the full and complete mixing of components A and B, generally involving mixing times of 5-10 minutes

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 to be enough. The processing time of the liquid, mortar-like mass is 2-2.5 hours depending on the temperature, although the processing time can be extended or, by adding an aliphatic carboxylic acid to component A, a maximum of 5% based on the mass of the same can be substantially shortened. , and can be controlled essentially between 10 minutes and 24 hours. During the processing time, the mortar-like mass does not thicken, spreads well on its own, while after a certain time the ligation begins suddenly, and the mass hardens in 10-15 minutes, but the permanent plastic state remains.



   The composition of the agent according to the invention is new, and a similar bitumen-containing adhesive or a similar joint sealing agent is not commercially available and is not known. The ligation of the agent occurs in a cold state
 EMI5.1
 ambient temperature takes place, preferably at temperatures o of approximately 20 C and probably consists of 3 sub-processes:
The saponification between the metal oxide and free fatty acid used forms a bond, the duration of which can be regulated. By adding an aliphatic carboxylic acid, this time can be shortened, by adding factis, the bond can be prevented, so that the duration is longer.

   Simultaneously with this process, partially or completely cross-linked bonds form between factis, metal oxide, unsaturated fatty acid and optionally the unsaturated bonds of the synthetic rubber. In the layers of bonded mass which are in contact with air and light, the unsaponified residue of the semisaturated plant oil and of the unsaturated fatty acid hardens for a relatively long time under oxygen uptake, the mass used "hardening". This can be determined by the cessation of tackiness and a slow increase in the softening point.



   The agent according to the invention has the advantage that the layer thickness can be varied when used; it is not necessary to take into account the rapid start of the ligation; the mass "expands

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 expresses itself. Due to the controllability, the position (location) of the materials to be adhered can also be adjusted after construction, whereby the material to be adhered is neither damaged by heat or chemical action. After use, the mass constantly remains plastic and takes over the movements without cracks. The mass adheres well to a dry base, then the layer becomes moisture-resistant, does not absorb water and also binds under water.

   In the practical application of the agent, the adhesion, joint sealing or other work can be carried out with simple devices without risk of fire and health damage, and requires no workmanship. The agents according to the invention can, among other things, be used for joint filling in concrete footpaths, roofing insulation elements, for bonding parquet floors, roofing membranes. Its use is extremely economical, since the active substance content of the product can be composed of cheaply accessible components, while the properties of the agent can be varied by changing the ratio of components A and B.



   Further details of the invention are further elucidated on the basis of the following exemplary embodiments.



  Example I
A joint-fit mass was prepared from the following components:
Component A:
 EMI6.1
 o 38 wt. % bitumen B-90 (softening point 46 C, penetration 71-100)
2 wt. % styrene-butadiene mixed polymer (Europrene 161A), average molecular weight 280,000 20 wt. % oleic acid (oelen) 40 wt. % sand with a grain size of 0-1 mm Component B: 10 wt. % liquid factis with a sulfur content of 10 wt.% prepared from sulfur and sunflower oil. %

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10 wt. % zinc oxide (zinc white)
80 wt. % sand with a grain size of 0-1 mm.



  In component B, the plant oil can be partially or completely replaced by liquid coal tar or liquid gasoline pyrolysis tar.



   For the preparation of component A, the bitumen was used
 EMI7.1
 heated in a heatable, agitated Q-device with vigorous stirring to 180 ° C with addition of the mixed polymer over 45-60 minutes. The oleic acid was then added to the homogeneous mixture, stirred vigorously for a few minutes, and the still warm mixture was mixed with fine sand with further stirring. Stirring was continued under water cooling until the mixture had reached a temperature of 35 DEG-40 DEG. Then the black liquid product was filled into containers. In the preparation of component B, de factis was first prepared from drying
 EMI 7.2
 plant oil and sulfur, by heating the plant oil to 130-140 ° C, adding the powdered or lamellar sulfur and stirring at this temperature for 3-4 hours until complete sulfur incorporation.

   The resulting plant oil factis formed a dark brown, highly transparent, deposit and cloud-free liquid. The cooled liquid factis was mixed with the zinc oxide (zinc white) to form a homogeneous paste. The fine sand was then added. A so-called earth-moist mass was obtained, the color and appearance of which resembles that of wet sand, which mass can be packed in bags. Components A and B thus prepared were mixed by hand using a machine to a mass ratio of 1: 1 in small quantities, in larger quantities. The complete mixing can be achieved in 5-10 minutes. The processing time of the liquid and self-dispersing pouring mass thus prepared is 2-2.5 hours, depending on the temperature, during which the mass does not thicken, flow and spread.

   Subsequently, in particular at a temperature above 20 ° C, the binding process suddenly begins and the mass in the joint or in the "pot" binds in 10-15 minutes.

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  Example II
An elastic composition suitable for cold adhesion was prepared by mixing the components A and B described in Example I in a mixing ratio of 2: 1. The mass applicable for adhesion has a lower viscosity and shorter binding time than the mass according to Example I.



  Example III
The fast-binding types of the joint casting and adhesive compositions described in Examples I and II were prepared by adding 0.05-0.5 wt. % concentrated acetic acid was added. This addition of acetic acid can also take place at the application site, at ambient temperature. With this solution, the binding time can be set and changed independently of the temperature between wide limits.



  Example IV
A hard-bonding, non-elastic bonding compound was prepared from the following components:
Component A:
 EMI8.1
 c 40 wt. % bitumen B30 (softening point 60 C, penetration 20-45)
20 wt. % liquid C-C plant fatty acid
17 18
40 wt. % quartz sand with a grain size of
1-3 mm
Component B:
10 wt. % liquid factis with a sulfur content of 10 wt.% prepared from drying plant oil varnish and sulfur. %
10 wt. % lime hydrate powder (dry fired building lime)
80 wt. % quartz flour with a grain size of
0-1 mm.



  The two components were used in a 1: 1 mixing ratio. A fast-binding mass was obtained. Instead of bitumen, partial or full coal tar pitch (goldron) or blown gasoline pyrolysis tar pitch with a similar softening point can be used.

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  Example V
An oxide mass, dyeable with oxide colors, was prepared from the following components:
Component A:
60 wt. % liquid, distilled fatty acid-goldron (iodine color number 100)
40 wt. % reduced, sorted gravel with a grain size of 1-3 mm
Component B:
10 wt. % liquid factis with a sulfur content of 10 wt.% prepared from rapeseed oil and sulfur. %
10 wt. % MgO (Calcined Magnesium)
80 wt. % dolomite flour or limestone flour with a grain size of 0-1 mm.



  The two components were used in a 1: 1 mixing ratio. Before coloring, 5-10% iron oxide red or an oxide green color was added to the leveling compound until the desired color was achieved.



  Example VI
For joint filling or adhesion of vertical surfaces, component B according to example I was mixed in a mixing ratio of 1: 1 or 1: 2 with component A with the following composition:
Component A:
38.0 wt. % bitumen B-90
2.0 wt. % 60/40 polybutadiene-polystyrene blend polymer
19.5 wt. % tall oil fatty acid
40.5 wt. % microsilica powder (with an SiO content
 EMI9.1
 2 of 92%, waste powder is produced during ferrosilicon preparation and has a grain size of less than 6 µm up to 50%).



  In the preparation of component A, the modified bitumen was mixed hot with the microsilica powder, and after the homogenization, the tall oil fatty acid was added. Proceed as in example I.

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  Example VII
From the components described below, an agent for adhesion and pouring mass was prepared:
Component A:
60 wt. % bitumen B-90
 EMI10.1
 35 wt. oleic acid (C-C) 17 ia 5 wt. % hard factis prepared from pretreated rapeseed oil with a sulfur content of 19%
Component B:
1 wt. % Ca (OH)
2
9 wt. % zinc oxide
10 wt. % rubber flour (regrind from rubber tires with a maximum grain size of 1 mm)
80 wt. % quartz sand (grain size max. 1 mm).



  The bitumen was mixed with the hard factis at 160-170 ° C, cooled and mixed with oleic acid. Component B was prepared by mixing zinc oxide, rubber flour and quartz sand.



  Example VIII
An agent which can be used as a pouring mass was prepared from the following components:
Component A:
60 wt. % bitumen B-90
 EMI10.2
 30 wt. % 17 to 10 wt. % medium hard factis, produced from rapeseed oil, with a sulfur content of 19%
Component B:
10 wt. % chlorine lime (with an active chlorine content of 25-30% by weight)
10 wt. % rubber flour (according to example VII)
80 wt. % quartz sand.



  The mixture was prepared according to the procedure described in Example VII.



  Example IX
An adhesive and pouring composition was prepared from the following components:
Component A according to example VIII and
Component B:

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5 wt. % zinc oxide
5 wt. % magnesium oxide
20 wt. % rubber flour
70 wt. % quartz sand.



  The composition was prepared according to Example VII.


    

Claims (6)

  CON C LUS LESSON 1. Water and solvent-free, two-component cold-binding agent, characterized in that Component A: 40-60 wt. % bitumen or bitumen modified with 2-6 wt. % polybutadiene-polystyrene, 20-40 wt. % liquid fatty acid, 20-40 wt. % filler, and Component B: 10-20 wt. % liquid factis prepared from drying or semi-drying plant oil and sulfur containing 5-10 wt. % sulfur, 10-20 wt. % zinc or magnesium oxide, alkaline earth metal oxide or hydroxide, or mixture thereof 60-80 wt. % filler, preferably quartz flour or sand with a grain size of 0-3 mm and the mixing ratio of components A and B is 1-3: 3-1.  EMI12.1   Agent according to claim 1, characterized in that it contains fatty acid goldron instead of bitumen and fatty acid. Agent according to claim 1, characterized in that it contains oleic acid or oleic tall oil fatty acid or mixed liquid vegetable fatty acid as the liquid fatty acid.  EMI12.2   Agent according to claim 1, characterized in that the drying or semi-drying oil is sunflower, rapeseed, hemp seed, olive, fish, linseed or soybean oil or such an oil-containing varnish.  Agent according to claim 1, characterized in that it contains lime hydrate powder or quicklime as alkaline earth metal oxide.  EMI12.3   6. Water-cold binder consisting of two components, with m k, dat  <Desc / Clms Page number 13>   Component A: 40-60 wt. % bitumen 20-40 wt. % liquid fatty acid with an average of 17-18 carbon atoms or naphthenic acid 5-10 wt. % of sulfur factis prepared from pretreated rapeseed oil and sulfur with a total sulfur content of 17-19 wt. %, and Component B: 10-20 wt. % zinc oxide, magnesium oxide, calcium oxide (quicklime) or hydroxide, or chlorine lime or mixture thereof 10-90 wt. % filler 1-20 wt. % rubber flour and the mixing ratio of components A and B is 1-3: 3-1.