DE1953158B - Use of a water-permeable aerated concrete for lining tunnels and mine tunnels - Google Patents

Description

.The \ orlicgendc [invention relates to the use a water-permeable aerated concrete for the purpose of expulsion of tunnels and mine tunnels, in particular by spraying.

Hei underground cladding of tunnels. Mine tunnels or aboveground Stiitz-Hiauern The problem often arises at length, etc., a flat water outlet or over larger ones liereicl.c extensive diuretic lungs of the mountains lulcr earth in such a way that the real The lining is not damaged by the hydrostatic pressure of the water accumulation and is then also permeable to water will.

It is known that such places can be drained using the drainage method, the water being drained off by means of rain pipes built into the ictoia lining. In stretches or tunnels with a later final construction in reinforced concrete or in the case of sprinkled clay lining with anchoring, the areas in question were protected from mountain fouling by foil insulation and the water / wiping of the lining was drained away by means of ribbed foil, drainage pipes, and the like. In pressurized mountain areas, the backwater can seep more or less uncontrolled through the layers of squeeze wood.

Attempts have already been made to remedy this problem with special filter stones, which have been laid on the mountain as a pore wall without an intermediate layer. The shotcrete lining was then applied to this pore wall. The areal relaxation and division of the water through the pore wall prevented larger uncontrollable water escapes, but the pore wall made of hollow stones can only be used up to the elm because the filter stones cannot absorb any ridge pressure.

Einkonibeton, which is a porous type of concrete and essentially a grain structure with a has a relatively narrow grain range is already known. It is also known to use aerated concrete of decomposition products from cation-active and anion-active compounds. This results however, a concrete that is not suitable for lining tunnels or mine galleries. It was also known to produce pumpable mortar mixes that contain finely divided silicate fillers and contain small amounts of a cellulose ether. Such mixtures can be used well in cavities and spaces penetrate from building structures. For this reason, they are not suitable for the production of porous linings.

According to the invention, the use of a water-permeable aerated concrete, made from a Mix that

a) granular mineral aggregates of a uniform Grain fraction in the range from 3 to 30 mm with a tolerance range of 4 to 15 mm and

b) a macromolecular water-soluble substance in an amount of 0.05 to 2.0 percent by weight, bezocen on cement,

contains, with a water-cement ratio of 0.32 up to 0.48 is recommended for lining tunnels or mine sluices. Under a "uniform grain fraction" should be understood to mean such a grain fraction as it is usually is used for the production of single-grain concrete.

The expression »tolerance width of 4 to 15 mm * refers to the fact that is known per se be that within the uniform grain fraction (Einkornhaufwerk) deviations from an averaged Far are allowed. In the case of smaller grain sizes, the range within which the grain diameter is can fluctuate, namely the tolerance range or the deviation from the calculated value only slightly (See example. Mixture 1, grain diameter 3 to 7 mm. (I. II. Tolerance width of 4 mm) and with larger Grains (see example. Mixture II. Grain diameter-r 15 to 30mm. i.e. Tolcranzbrcilc 15mm) greater. In accordance with the invention, the mixture for spraying out tunnels or tunnels is particularly advantageous Mine tunnel used.

/ to be used for the production of the product according to the invention Concrete mix can be used as usual granular mineral aggregates for example broken rock or minerals containing expansion aggregates such as pumice. Volume. Slate.

Laval it and the like, the mineral fillers should expediently have an oval or round structure so that the individual grains can easily glide past one another during processing. It is advantageous * as a granular mineral aggregate

it uses gravel. »It's cheap, the tolerance range, in particular with relatively small grain sizes, to be kept as small as possible. In some cases it can turn out to be Prove favorable alongside the granular mineral ones

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minor amounts »η Ashes tfibres to be used. The amount of asbestos fibers should not be 5 "/" of the weight of the aggregate exceed.

The most diverse natural or synthetic substances can be used as water-soluble macromolecular substances Polymers are used. Among the natural washer-soluble substances are, for example various so-called vegetable gums suitable, For example, galactomannan such as locust bean gum or guar flour or xanthan guin or water-soluble starch products. The latter include, for example, methyl starch, hydroxyethyl starch, Carboxymelhyl starch or oxidatively degraded starch. To produce the according to the invention However, concrete mixes are preferably water-soluble as water-soluble macromolecular substances Cellulose ether used. For example, methyl cellulose, hydroxyethyl cellulose, HydiOxypropyl Cellulose, Methylhydroxypropyl Cellulo.se. Ethylhydroxyatliylcellulo.se, Hydroxyäthylcarboxymeihylcellul ·) : e.

In addition to the natural water-soluble macromolecular substances mentioned, a wide variety of Synthetic polymers are used such as polyacrylamide, the alkali salts of polyacrylic acid, water-soluble copolymers of acrylamides with acrylamide substituted on the nitrogen such as the copolymer of acrylamide and N-tert-butyl acrylamide. Also suitable are the v. water soluble polyvinyl methyl ether or polyvinyl alcohol or polyvinylpyrrolidone and their water-soluble Copolymers with, for example, vinyl acetate. Finally, the Alkali salts of polystyrene sulfons: "ire.

Conventional types of cement, in particular, are also used to produce the cement mix but blast furnace cement. In addition, so much water is added that a ratio of water to cement from 0.32 to 0.48 is adhered to, whereby of course the inherent moisture of the aggregates must also be taken into account. Will gravel ve; -wcndct. so must with a humidity of about 5 to 15 "/ '" can be expected. It is to be regarded as surprising that concrete mixes can also be sprayed by the process according to the invention which fall below the ratio of 0.38.

According to an advantageous form of implementation the concrete mixtures to be used in accordance with the crimping process anion-active or non-ionic wetting agents added. They should be in an amount of around 0.005 to 0.08 percent by weight, based on cement. Suitable wetting agents are, for example, alkali salts, in particular sodium salts of sulfonic acids such as Dodc.'ylbenzenesulfonic acid c. or also lettalkoliol- : ■ uronic acids. With good success, for example the sodium salt of l.aurylsulfonsäiirc can be used. In particular, non-ionogenic wetting agents are used the addition product is ethylene oxide with alkylphenols or with fatty alcohols. A a suitable wetting agent from this group is, for example, the addition product of 9 moles of ethylene oxide of 1 mole of nonylphenol.

Finally, the concrete mixes to be used in accordance with the requirements may contain additives aqueous dispersions of thermoplastics, especially of polyvinyl esters ^ and aqueous Dispersions of bitumen are added. As aqueous dispersions of synthetic plastics The commercially available dispersions of polyvinyl propinnate, polyvinyl acetate, or, for example, are suitable the copolymers of butadiene and styrene.

The manufacture is to be used in accordance with the designation Mixing takes place in conventional mixers, especially compulsory mixers. The water-soluble macromolecular substances are added either in solid form or as concentrated aqueous solution or paste. The same applies to the anionic or nonionic new agents. It has proven to be beneficial to use mixtures in which about 200 to 300 kg of blast furnace cement 1000 to 2000 kg of aggregates such as gravel can be used. In certain cases it can also be useful be to add accelerators that are still known to the concrete mixes. Here come for example Calcium chloride, silica or water glass are possible. According to the invention it is possible for the first time to use aerated concrete to be sprayed pneumatically. With this wet spraying, it is not only due to the good initial adhesion that it falls little rebound, but the rebound can easily be used again will. The time-consuming removal of the no longer usable rebound from is thus eliminated the construction site. It is also not necessary, as is usually the case. Formwork in the manufacture of aerated concrete to use. According to the invention can without Additional layers of aerated concrete up to 25 cm can be applied in one operation. With that so far known shotcrete could only be achieved a layer thickness of 5 to 10 mm.

The aerated concrete used according to the invention is not foamed Concrete, but rather a water-permeable concrete, which is constructed similarly to a sintered ball filter, wherein the spaces between the grains are open and essentially only a cement to the There are contact surfaces.

After the application of the intended use Aerated concrete can be subjected to static loads after a short time, so that it is more efficient V01 drive can be carried out. It is also not necessary to moisten the concrete for further setting, because the water retention capacity of the mixture of cement and macromolecular water-soluble Fabrics is very good.

Examples

Various mixtures of clay were made according to the

A method according to the invention, wherein the Mixture I from 250 kg blast furnace cement. 1500 kg of gravel (grain size 3 to 7 mm) and so \ icl water existed.

that the WZ ratio was 0.3S.

The mixture II consisted of 300 kg of blast furnace cement. 1650 kg of gravel with a grain size of 15 to 30 mm. so much water was added that the WZ ratio was 0.40.

Various amounts of water-soluble macromolecular substances and wetting agents were added to these mixtures given. In the table below, the serial number of the batch is in 6s of the first column specified. This is followed by the concrete mix used, the amount and type of water-soluble macromolecular ones Substance as well as the wetting agent.

On-
SiIt-C mixture Water soluble, macromolecular substance > HO 0OD cP after H ö ρ ρ 1 e r at 20 ° C 4000 cP according to H ö ρ ρ solution Wetting agents 1 1 Methyl cellulose, Viscosity in 2 ° / _Q iger 0.5kg HyclropropylmethyIcelUilose, Visco.sitätio2 ^ll / niger nacli Hopple r at 20 ⁰ C Viscosity in 10% solution 2 I. Losuni Methyl cellulose Viscosity in 2% > 1 e r 100,000 cP - 2.0 kg after H ö ρ ρ 1 : r at 20 ° C solution 3 I. 30OcP Methyl cellulose Viscosity in 2% 0.2 kg of sodium lauryl sulfate 2.0 kg after Il ö ρ ρ 1 ϊ r at 20 ° C solution 4th 1 30OcP Methyl cellulose Viscosity in 2 ° / ₀ iger 0.1 kg of ethylene oxide on nonylphenol 1.0 kg 4500 cP according to H ö ρ ρ 1 he at 20 ⁰ C Viscose (Molar ratio 9: 1) *) 5 Il 30OcP 0.8 kg Hydroxyäthylcarboxylmethylcellulose, ler at 0.1 kg of sodium lauryl sulfate 1.2 kg did in 2% solution 6th II 20 ⁰ C solution 0.12 kg of sodium lauryl sulfate 1.0 kg Polyacrylamide, at 20 ³ C to Hopf Guar flour, viscosity in 2% solution 7th II 2.0 kg lOOOOcP to Hopi - > ler at 20 ⁰ C 8th I. 0.1 kg of ethylene oxide adduct with nonyl phenol (molar ratio 9: 1)

*) 1.2 kg of an aqueous dispersion containing 40% solids and composed of SO "/" bitumen and 2O ° / o polyvinyl propionate was present.

All ingredients were mixed vigorously in a compulsory mixer and could then be sprayed pneumatically will. In all cases, after setting, an aerated concrete was obtained that had a strength 3 days between about 120 and 280 kg / cm-.

In batches 1 and 6, the water permeability was determined on a plate measuring 50 × 50 × 10 cm. On the vertically positioned plate, a sheet metal frame was placed tightly on the area of 10 x 50 cm, so that no water could run off to the side. Then 141 water were poured in all at once. After 3 seconds the water had completely entered the plate and began to flow out from below. The vertical Surfaces became damp without the water flowing out.

given composition in a thickness of 20 cm. After 28 days it became Cut cubes of dimensions 10 x 10 x 10 cm and the compressive strength measured.

Properties of the concrete mixes

In a tunnel, mixtures according to the above-mentioned method were applied at various points on the walls.

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approach Compressive strength, kp / cm ' 1 390 2 310 3 258 4th 223 5 387 6th 403 7th 344 8th 295

Claims (5)

Patent claims: 1. Use of a water-permeable porenhetone, made from a mixture that a) granular mineral aggregates of a uniform grain fraction in the range from 3 to 30 mm with a tolerance width of 4 to 15 mm and b) a macromolecular water-soluble substance in an amount of 0.05 to 2.0 percent by weight, related to cement, 15th contains, whereby a water-cement ratio of 0.32 to 0.48 is maintained for the lining of Tunnels or mine tunnels. 2. Use of the mixture according to claim 1 for spraying tunnels or mine tunnels. 3. Use of the mixture according to claim 1, which contains water-soluble cellulose ethers. 4. Use of the mixture according to claim 1 and 3. which still contains Ö.C05 to 0.08 percent by weight, based on cement, an anion-active or non-ionic Contains wetting agent *. 5. Use of the mixture according to claim 1, 3 and 4. additionally an aqueous dispersion a thermoplastic material, in particular a polyvinyl ester, as well as a bitumen dispersion.