AT514510B1 - Künettenfüllmaterial - Google Patents

Abstract

Kunettenfüllmaterial, characterized in that it contains the following 3 components: - an accelerator, alkali metal or alkaline earth metal salt base, preferably calcium carbonate and / or calcium nitrate, - a surfactant, preferably lauryl sulfate and - a flow agent, preferably a polycarboxylate.

Description

description

KÜNETTENFÜLLMATERIAL

The invention relates to a Künettenfüllmaterial, as well as a multi-component mixture as a liquid additive for a Künettenfüllmaterial, in particular for a flowable, selbstverdichtendes Künettenfüllmaterial.

A "trinket" is a grave-shaped open excavation form, especially in civil engineering and hydraulic engineering, especially for the installation of pipes, use. After installing the pipes, the trench is closed again by introducing filler material. As such a Künettenfüllmaterial finds a flowable mixture of several components use: the aggregate, the binder and an additive ("additive") to adjust certain properties of the filler.

[0003] As a supplement, substances from natural aggregates, recycled aggregates, as well as artificial aggregates (e.g., slag, chippings, ashes) may be used.

As binders, various cements and hydraulic and non-hydraulic binders (for example: metallurgical or slag sands, ashes, limestone flours) may preferably be used. It is also possible to use liquid biopolymers as a binder substitute. The metallurgical or slag sand is produced by granulation of liquid blast furnace slag with water and / or air. It is a fine-grained (<5 mm), glassy by-product of pig iron production in the blast furnace. In 2005, about 5.7 million tonnes of blastfurnace slag were produced in Germany. Blastfurnace slag consists of approx. 30-45% CaO, 30-45% SiO 2, 5-15% Al 2 O 3, 4-17% MgO, 0.5-1% S and traces of other elements. The composition varies depending on the feedstock of the blast furnace (Möller). Its true density is about 2.9 g / cm3. Slag granules can be very dense, but also very porous. Compared to mineral substances, they are often relatively difficult to grind.

From WO 2007/096686 A1 (EP 1 986 970 AO) a hydraulic binder based on fly ash type F is known. This binder gives the concrete considerable strength at an early stage (at room temperature).

As additives both flow agents, plasticizers, air entraining agents, stabilizers and accelerating and early strength-forming additives can be used.

From WO 2009/024829 A1 (EP 2 178 806 AO) a concrete building material is known which contains activated fly ash.

The present invention has as its object to provide a novel Künettenfüllmaterial, as well as a multi-component additive for a Künettenfüllmaterial available, which gives the Künettenfüllmaterial a number of advantageous properties.

The multicomponent mixture according to the invention as a liquid additive for a Künettenfüllmaterial is characterized in that it contains the following components: - an alkali and / or alkaline earth metal salt as an accelerator, [0011] - a surfactant, - a Flow agent, and [0013] - water.

An accelerator is a substance that has an accelerating effect on C2S and C3S hydration. For this purpose, alkali or alkaline earth salts, preferably sodium chloride, calcium carbonate, calcium chloride, sodium thiocyanate, calcium nitrate, sodium carbonate and calcium formate, in particular calcium carbonate, calcium chloride and / or calcium nitrate are suitable.

Surfactants have an air-entraining effect: foam and air bubbles are stabilized in the aqueous solution by preferential adsorption to surfaces and reduction of the surface tension of the water. According to the invention, a lauryl sulfate is preferably used.

Plasticizers improve the processability of the concrete at the same water-cement value or reduce the water content and thus the water-cement value with the same processability, which leads to an increase in the compressive strength and the tightness. A combination of the two variants is also possible. According to the invention preferably Polycar boxylateter, polyacrylates, naphthalene and melamine sulfonates and lignosulfonates are used.

According to the invention, a polycarboxylate ether is preferably used as the flow agent.

As water, both fresh water, recycled water, surface water, groundwater and other residual water can be used.

A particularly preferred embodiment of the mixture according to the invention is characterized in that - the accelerator is calcium carbonate and / or calcium nitrate, - that the surfactant is lauryl sulfate, and [0022] - that the flow agent is a polycarboxylate ether.

The mixture according to the invention preferably contains the accelerator between 20 and 30% by mass, the surfactant between 1 and 20% by mass and the flow agent between 10 and 30% by mass, the remainder being 100% by mass of water ,

The invention also relates to the use of a mixture according to the invention as an additive for a Künettenfüllmaterial, as well as a Künettenfüllmaterial, which is characterized in that it contains a mixture according to the invention.

The inventive liquid additive reduces the one hand, the necessary amount of addition water in the mixture, while stabilizing effect by the introduction of artificial air pores. Thus, e.g. Air pores in an amount of 8 to 25% in the mixture be present.

Furthermore, it leads to an accelerating development of early strength of the concrete within the first 24 hours by activation of the silicate phase formation of the binder, without increasing the 28-day strength.

By the introduction of artificial air pores in the mixture and the frost resistance of the product is increased, and it is a segregation of the mixture components prevented in the flowable state.

With the mixture according to the invention can be achieved a 24 hour stability of the dynamic load plate value of Evd> 15 MN / m2 in the backfill zone and Evd> 20 MN / m2 in the repair zone. After 28 days the load capacity Evd is> 90 MN / m2.

The mixture according to the invention has the effect that the final strengths are in no case increased or influenced after 28 days, whereby an easy Wiederaufgrabbarkeit is ensured. The final strength after 28 days is at most 1.0 N / mm 2 (uniaxial compressive strength).

The multicomponent mixture according to the invention is particularly suitable for producing a flowable, self-compacting Kunettenfüllmaterials for backfilling of cavities and pipe trenches.

With the following example, a preferred embodiment of the invention will be described in more detail.

EXAMPLE

For the following formulation for a Künettenfüllmaterial a multicomponent mixture according to the invention was used, which had the following composition:

3 kg of the mixture according to the invention are used per m3 Künettenfüllmaterial.

By way of example, the constituents for 1 m3 of Künettenfüllmaterial are given below: Hydraulic binder (preferably cement or granulated binder) in an amount of 1 to 80 kg / m3; · Hydraulically effective additives (preferably ground slag or fly ash) in an amount of 1 to 80 kg / m3; · Natural, recycled or artificial aggregate 0 to 63 mm 1,400 to 2,900 kg / m 3 · The multicomponent mixture according to the invention in an amount of 0.2 to 10 kg / m 3 · Water: 110 to 295 liters / m3.

The air pore content in the ready-mixed mixture is 5 to 25%.

Example recipe for 1m3 Künettenfüllmaterial: · hydraulic binder cement CEM ll / A 42.5 N 40 kg / m3 · hydraulically active additive ground slag 10 kg / m3 · natural aggregate gravel pit Sierning 0 to 32 mm 1.940 kg / m 3 · the multicomponent mixture according to the invention 4.3 kg / m 3 · water 203 l / m 3 mixing time in the compulsory mixer 90 seconds air pore content after mixture 15%

Claims (9)

claims 1. Künettenfüllmaterial, characterized in that it contains a multi-component mixture as a liquid additive, characterized in that the mixture contains the following components: - an alkali and / or alkaline earth metal salt as accelerator, - a surfactant, - a flow agent, and - water , 2. Künettenfüllmaterial according to claim 1, characterized in that the mixture contains the accelerator between 20 and 30% by mass, the surfactant between 1 and 20% by mass and the flow agent between 10 and 30% mass%, the remainder to 100 Mass% consists of water. 3. Künettenfüllmaterial according to claim 1 or claim 2, characterized in that the accelerator is selected from the group consisting of sodium chloride, calcium chloride, calcium carbonate, sodium thiocyanate, calcium nitrate, sodium carbonate and calcium iat. 4. Künettenfüllmaterial according to claim 3, characterized in that the accelerator is calcium carbonate, calcium chloride and / or calcium nitrate. 5. Künettenfüllmaterial according to any one of claims 1 to 4, characterized in that the surfactant is lauryl sulfate. 6. Künettenfüllmaterial according to any one of claims 1 to 5, characterized in that the flow agent is a polycarboxylate ether, a polyacrylate, a Naphtalinsulfonat, a melamine sulfonate or a lignin sulfonate. 7. Künettenfüllmaterial according to claim 6, characterized in that the flow agent is a polycarboxylate ether. 8. Künettenfüllmaterial according to claim 1 or claim 2, characterized in that - the accelerator is calcium carbonate and / or calcium nitrate, - that the surfactant is lauryl sulfate, and - that the flow agent is a polycarboxylate ether. 9. Use of a mixture containing the following components: - an alkali and / or alkaline earth salt as accelerator, - a surfactant, - a flow agent, and - water, as Künettenfüllmaterial. No drawings for this