DE102005011266B4 - Building material mixture and their use - Google Patents

Abstract

Free mixtures of materials containing clay or clay mixtures, comprising per cubic meter,
- 1100 to 2000 kg of aggregate or excavated soil,
- 200 to 500 liters of water,
5 to 150 kg of a calcium silicate hydrate-forming binder and 5 to 300 kg of a binder based on CaSO ₄ ,
- up to 5 kg stabilizer,
- 50 to 500 liters of foam
- And up to 6% flow agent or plasticizer, based on the total binder amount.

Description

The The invention relates to a clay or clay mixtures containing Materials free building material mix and their use.

From the German patent DE 198 51 256 C2 is a method for solidifying in particular pollutant-containing, dusty to coarse-grained, non-hydraulic accumulation materials, earth, loose rock or recycled building materials known in which first an aqueous suspension of 50 g to 100 g of clay powder per 1 liter of water is prepared by intensive mixing. Subsequently, the waste materials, the earth or the recycled building material are mixed with the prepared aqueous suspension. This is followed by curing and solidification of the mixture, wherein the mixture 10 to 40 percent by weight of clay flour suspension and 1 to 10 percent by weight of inorganic binder are added. The clay powder used is preferably activated bentonite. As inorganic hydraulic binder cement and / or fly ash is used.

to Control of the curing process The known mixture, the mixture advantageous seed material-clay flour binder added as setting accelerator or retarder. This best practice is suitable to reuse existing on-site excavated material and to fill of trenches or channels use. However, the disadvantage is the resulting high density, which respect the buoyancy of piping to float the pipes in the trench to lead can, what only buoyancy backups, such. B. loading benches preventable is. The curing from stress banks made of a stiffer material however, to delays in the construction process.

Known are also building materials, which in liquefied form by means of pumps in trenches and channels introduced can be. The disadvantages of these known fillers are that the liquid Verfüllstoff from defined sands with a given grading curve must harden, relatively slowly and after its hardening has a strength that is so high that in certain stress situations and laying conditions to subsequent, z. T. delayed damage on the laid pipelines by load entries from the surface comes. This is the case, for example, when due to the high Strength vibrations of road traffic in the road substructure be initiated. Another disadvantage of known systems of liquid fillers is that under certain environmental conditions, eg. B. too high a concentration of water-soluble salts, only very slowly or incomplete hardening and at delayed corroboration often not reach their final strength.

at the liquid filling materials based on sands and bentonite additives is immediately after filling and curing the required ultimate strength achievable. Due to chemical interactions of the clay-containing soil mortar with adjacent substances or with the sand in the soil mortar mixture added groundwater ingredients occur in many cases technological disturbances of the construction progress as a result of a delayed or an unscheduled running Curing.

In the method for the production of filling compounds from crushed concrete, masonry, mortar, roof tiles or mixtures according to DE 197 17 763 C1 These materials are comminuted to particle sizes <40 mm, the comminuted material with 10 to 50 percent by mass of water, 0.5 to 5 percent by mass of clay-soda mixture and mixed with 1 to 10 percent by mass of cement or hydraulic lime. The filling material thus created should be suitable for the foundation, backfilling or covering of structures, ducts or cable ducts, for filling roads and paths and for the integration of pipelines. Even with this known filling compound, however, changes in the hardening process that can not be influenced occur due to the clay base of the mixture.

To the State of the art belong Method of temporary soil liquefaction on the addition based on cement suspensions. Such mixtures have the property post-cure, so a later one Access to such laid lines only with considerable effort possible is. Also, the vibration and load transmission takes place in such solidified Areas undamped, causing damage at the covered Lead lines can.

From the DE 10302772 A1 For example, a filling building material is known which has self-hardening properties. Basically, the local building material to achieve the initially liquefied later self-hardening properties must have silty or clayey materials and additionally contain cellulose components as water-absorbing substance.

Out the entire state of the art is so far no filling building material become known, which on the one hand quasi manually, d. H. spatenstechbar caking up and the other way over has such a density, that a floating of pipes when filling ditches, containing such piping, without mechanical or other Aid for locking the pipes safely preventable is or greatly reduced.

Out The above, it is therefore an object of the invention, a further developed Building material mixture as filling building material from a temporarily flowable, self-hardening Specify mixture, wherein the liquefied building material such Density that has a floating of pipelines or similar Objects when filling of trenches with the liquefied one Material is omitted, sufficient viscosity until completion of the filling process given and on the other hand, a curing takes place, namely to a degree of hardness that the filling material almost spatenstechbar can be removed again.

Farther should the building material mixture vibration-damping and heat-insulating Possess properties, without adding the consistency or viscosity of the material sustainably influencing materials.

The solution The object of the invention is achieved by a mixture for a Backfill according to the combination of features according to claim 1 and a related use.

The inventive mixture dispenses with the addition of clay or clay mixtures containing Materials, such. B. bentonite. To achieve the necessary flowability is a prefabricated foam, optionally in conjunction with chemical liquefiers used. The inventively used Foam can also by adding pore formers, eg. B. aluminum powder or -slurry are generated. The foam causes a permanent Reduction of strength according to the task the invention and a liquefaction of the Mince. Furthermore, a desired reduction in bulk density occurs a, which leads to the reduction of buoyancy problems.

To adjust the strengths, mineral binders based on CaSO ₄ in the form of anhydrite or gypsum are used.

Around an undesirable To avoid segregation, there is the possibility of chemical stabilizers use.

Of the filling material therefore consists of a temporarily flowable, self-hardening Mixture comprising aggregates and / or excavated soil as a starting material, one or more inorganic-mineral binders and Water.

the Mixture is a density-reducing, flowability-improving foam supplied which was processed externally. The mixture thus obtained becomes then to fill used and hardens spade-resistant.

The Strength of the material leaves to adjust by the added amount of foam. In this way can the material for both the pipe bedding as well as serving be used. In addition to hazardous materials, the building material can also be recycled Materials such as concrete, masonry components, mortar, roof tiles or mixtures be added thereto. Then, if sandy to silty and clayey, so any earth from the immediate excavated soil Find use, the amount of foam is adjusted accordingly, especially increased.

conditioned by the obtained porosity due to the foam addition is the Verfüllstoff thermally insulating and vibration isolation, which is particularly in road construction or laying from thermal to protective Piping is beneficial.

Also it is possible, the filling material equip with a lower bulk density by adding lightweight aggregates or styrofoam flakes or certain earth or recycled materials be used.

positive remains to note that the building material mix no relative costly bentonite materials for adjusting the flowability as well as to obtain the desired Binding in the final state requires.

In a mixture according to an embodiment of the invention, reference is made to the following formulation with respect to 1 m ³ filling material: 1100-2000 kg Aggregate or excavated soil 200-500 l water 5-150 kg Calcium silicate hydrate forming binder 5-300 kg Binder based on CaSO ₄ 0-5 kg stabilizer 50-500 l foam 0-6% Plasticizer or condenser (based on the amount of binder)

With Such a mixture is provided with a filling material, which an optimal flowability so that even in complicated geometric conditions no unwanted cavities when filling remain. On the other hand, the filling material has a reduced density, so that laid on a trench bottom pipes are not in unwanted Floating way or change in filling their position. At long last cures the filling material almost spade-resistant and can also be opened later on the trench or canal be removed relatively easily.

Claims (4)

Material containing clay or clay mixtures containing building materials, comprising per cubic meter, - 1100 to 2000 kg aggregate or excavated soil, - 200 to 500 l of water, - 5 to 150 kg of a calcium silicate hydrate forming binder and 5 to 300 kg of CaSO ₄ based binder, - up to 5 kg stabilizer, - 50 to 500 l foam - and up to 6% plasticizer or plasticizer, based on the total binder amount. Use of the building material mixture according to claim 1 to Production of a spadeable hardening filling building material. Use according to claim 2, characterized that a foam is used, which by means of aluminum powder or slurry was produced. Use according to claim 2 or 3, characterized in that is used as a binder based on CaSO ₄ anhydrite or gypsum.