WO2017140435A1 - Initiation of cement hardening by the addition of carbon dioxide to the mixing water - Google Patents

Abstract

The invention relates to a method for producing a rapidly hardening cement suspension or a rapidly hardening concrete, having the step of: mixing a non-hydraulic cement comprising cement clinker with mixing water and optionally with at least one aggregate to form a cement suspension or a concrete, the cement clinker being characterized by a limestone concentration of at most 50% (w/w) and the mixing water containing carbon dioxide.

Description

 description

Initiation of cement hardening by adding carbon dioxide to the mixing water

The invention relates to a process for producing a fast-curing

Cement suspension or a fast-curing concrete, as well as molded articles produced by such a method.

Such a method comprises the steps of mixing a non-hydraulic cement comprising cement clinker with make-up water and optionally at least one aggregate to a cement suspension or a concrete, the cement clinker being characterized by a limestone content of at most 50% (w / w).

Concrete is a versatile and widely used building material commonly produced as a mixture of a binder and an aggregate. As a rule, cement is used as a binder. The addition of water, which is typically referred to as make-up water or make-up water, leads to a chemical reaction of the cement (setting), which hardens this and forms a solid building material mixture, the concrete. In principle, cements can be divided into two categories: Hydraulic cements, such as Portland cement, bind a large part of the

Mixing water to form hydrates and hydroxides during setting. However, this hydration reaction proceeds very slowly, so that the curing of such a concrete takes up to one month. Non-hydraulic cements such as Solidia cement, however, hardly react with the

Mixing water, in which case the mixing water serves only as a solvent of the setting reaction and is not reacted. In the setting reaction, the cement components react with carbon dioxide. Usually, for the production of concrete products using non-hydraulic cements, first a cement suspension made of the non-hydraulic cement, mixing water and other additives such as sand and gravel, formed into the desired body and then in so-called curing chambers carbon dioxide added to start the setting reaction. Depending on the duration between mixing and the addition of carbon dioxide, there may be an undesirable demolding of the concrete product due to the lack of setting reaction.

It would therefore be desirable for the setting reaction to begin immediately after the mixing and shaping of the concrete product to prevent demolding.

Against this background, it is the object underlying the invention to provide a simple and economically viable method for producing a fast-curing cement suspension or a fast-curing concrete.

This object is achieved by a method having the features of claim 1. Advantageous embodiments of the invention are in the corresponding

Subclaims and are described below.

According to claim 1, a method for producing a fast-curing cement suspension or a fast-curing concrete is provided. The method comprises the step of mixing a non-hydraulic cement comprising cement clinker with make-up water and optionally with at least one aggregate to a cement suspension or a concrete, wherein the cement clinker is characterized by a limestone content of at most 50% (w / w), and wherein the

Mixing water contains carbon dioxide.

Advantageously, by the method according to the invention, the setting reaction already begins when the cement suspension or the concrete is mixed together. Thus, the products produced by the process begin early to build up a certain hardness and achieve dimensional stability. The setting time is significantly reduced. In particular on longer travel paths from the shaping to the curing chamber, the reject rate can be reduced by demoulding due to vibrations (uneven travel paths).

In the context of the invention, a non-hydraulic cement is in particular a non-hydraulic binder for building materials such as concrete, where the non-hydraulic cement hydraulic cement solidifies and hardens after stirring with water in the presence of carbon dioxide, wherein the water is substantially not bound by the binder. For the purposes of the invention, concrete is in particular a mixture which comprises cement, water and in particular an aggregate.

As a cement clinker in the context of the invention, in particular the fired component of the cement is called, which causes the addition of water and carbon dioxide, the curing of the cement.

According to one embodiment of the invention it is provided that the mixing water contains carbon dioxide in a concentration in the range of 0.5 g of carbon dioxide per kg of water to 3.35 g of carbon dioxide per kg of water, in particular at or above the saturation concentration.

As saturation concentration in the context of the invention is in particular the

Carbon dioxide concentration in the mixing water understood above which no more carbon dioxide can be dissolved in the mixing water. According to a further embodiment of the invention it is provided that the mixing water has a temperature in the range of 0 ° C to 10 ° C, preferably 0 ° C to 4 ° C.

Advantageously, the solubility of carbon dioxide in water increases with decreasing temperature. In addition, a cooling of the mixing water in the

seasonally stronger production period in the summer a better

Ensure production quality.

According to one embodiment of the invention, it is provided that the cement clinker has a limestone content (CaO) of 40% (w / w) to 50% (w / w). According to a further embodiment of the invention it is provided that the cement clinker a

Limestone content from 42% (w / w) to 48% (w / w).

According to a further embodiment of the invention it is provided that the cement clinker silicates mainly in the form of wollastonite / pseudowollastonite (CaO ^* Si0 ₂ ) and / or Rankinit (3CaO ^* Si0 ₂ ), that is in particular that the present in the cement clinker silicates to over 50% (w / w) in the form of

Wollastonite / pseudo-wollastonite (CaO ^* Si0 ₂ ) and / or Rankinit (3CaO ^* Si0 ₂ ) are present. According to a further embodiment of the invention it is provided that the cement clinker at least 50% (w / w) silicates in the form of

Wollastonite / pseudo-wollastonite (CaO ^* Si0 ₂ ) and / or rankinite (3CaO ^* Si0 ₂ ).

According to a further embodiment of the invention, it is provided that the at least one aggregate is an aggregate, in particular sand and / or gravel.

According to a further embodiment of the invention, it is provided that the cement suspension or the concrete is formed before curing, in particular immediately after mixing the non-hydraulic cement with the mixing water and optionally with the at least one additive to at least one body, in particular to a Paving stone, a concrete design element or a roof tile. According to a further embodiment of the invention it is provided that the body is formed by extrusion.

According to a further embodiment of the invention it is provided that the body after molding with carbon dioxide, a carbon dioxide-containing gas mixture or a carbon dioxide-containing solution, in particular a carbon dioxide-containing aqueous solution, is circulated, in particular in a chamber which is preferably completed.

According to a further embodiment of the invention it is provided that the cement suspension or the concrete is mixed in a limited by a shutter recording.

According to a further aspect of the invention, a molding of an at least partially hardened cement slurry or an at least partially hardened concrete is provided, wherein the at least partially hardened cement slurry or the at least partially hardened concrete is produced by the method according to the invention.

Advantageously, the molded article of the invention already has a certain hardness immediately after mixing and molding, so that the molded article of the invention can safely be transported to a device for complete curing of the molded article without the molded article breaking or being demoulded.

An at least partially hardened cement suspension or an at least partially hardened concrete in the sense of the invention designates a cement suspension or a concrete in which or in which part of the cement clinker used has been converted into calcite and / or silica, in particular quartz (SiO ₂ ).

According to one embodiment of the invention, it is provided that the shaped body based on the weight of the cement clinker used calcite from the reaction of the non-hydraulic cement with carbon dioxide in a concentration in the range of at least 0.1% (w / w), 0.5% (w / w), at least 1% (w / w), at least 1 .5% (w / w) or at least 2% (w / w) and / or silica from the reaction of the non-hydraulic cement with carbon dioxide at a concentration in% Range of at least 0.1% (w / w), 0.5% (w / w), at least 1% (w / w), at least 1 .5% (w / w) or at least 2% (w / w ) having.

According to a further embodiment of the invention, it is provided that the calcite and / or the silica, which are formed from the cement clinker, are distributed substantially homogeneously within the molding of the invention. This means in particular that the surface and the core of the molding according to the invention have substantially the same concentrations of calcite formed from the cement clinker or silica resulting from the cement clinker. According to a further embodiment of the invention, it is provided that the shaped body is designed as a paving stone, a concrete design element or roof tiles.

Further details and advantages of the invention will be explained by the following description of exemplary embodiments with reference to the figure. It shows:

Fig. 1 is a schematic representation of an embodiment of the invention. The chemical setting of a non-hydraulic cement, such as the Solidia

Cement, carried out by C0 ₂ , with the produced concrete products are washed around and trigger a chemical bonding. In the technology described above, the C0 _{2 is added} only after mixing and shaping, thereby curing the product. In contrast to conventional products with Portland cement, in which the hardening already starts during / after mixing and molding, the molded parts can be demolded due to the lack of setting of the product. In addition, during the entire period of the transport route to the closing of the curing chamber, the chemical setting process. This time can be about 3 to 4 hours, without this time is used. To use this time and to initiate the Abbindevorgang early, the mixing water C0 ₂ can be added to saturation. This allows the molded product to begin immediately after mixing with the setting process.

Fig. 1 illustrates a preferred method of the invention. Non-hydraulic cement 11, such as Solidia cement available for example from the company Lafarge cement GmbH, Karsdorf / Unstrut, Germany, is mixed with mixing water 12 and an aggregate 16 as an aggregate, especially sand and / or gravel, and a still liquid or Flowable concrete 13 is created. Alternatively, the non-hydraulic cement 1 1 already have the above-mentioned aggregate 16. The non-hydraulic cement contains cement clinker with a limestone content of about 42% (w / w) to 48% (w / w) and consists mainly of

Wollastonite / pseudowollastonite (CaO ^* Si0 ₂ ) and rankite (3CaO ^* 2Si0 ₂ ). the

Mixing water is added to the mixture before mixing with the cement carbon dioxide to saturation, for example, about 1, 7g per kg of water at 20 ° C and ambient pressure. As a result, the setting reaction begins immediately upon mixing according to the following formulas:

CaO ^* Si0 ₂ + C0 ₂ + H ₂ 0 - »CaC0 ₃ + Si0 ₂ + H ₂ 0

3CaO ^* 2Si0 ₂ + 3C0 ₂ + H ₂ 0 - »3CaC0 ₃ + 2Si0 ₂ + H ₂ 0 Immediately after mixing, the still liquid, but already solidifying concrete 13 is poured into a mold or casing, in which it solidifies further or completely to form a shaped body 14. Alternatively, the product can also be removed from the mold immediately after molding and only then transferred to the curing process. Preferred moldings 14 are paving stones, concrete design elements or roof tiles. The already solidifying molded body 14 can be additionally spent in a curing chamber, where it is surrounded by carbon dioxide. Alternatively, the concrete 13 in the form or the

Shuttering be made. The moldings 14 produced in this way are characterized by an initially higher hardness so that they can be safely transported already a short time after the preparation of the cement suspension 13 or of the concrete 13. Also, an early demolding can be carried out with a lower reject rate.

LIST OF REFERENCE NUMBERS

 cement

 mixing water

 Liquid cement suspension / flowable concrete

 Moldings of partially hardened cement suspension or concrete

carbon dioxide

 Aggregate, in particular sand and / or gravel

Claims

claims

Process for the preparation of a cement suspension or a concrete, comprising the step:

 Mixing a non-hydraulic cement (1 1) comprising cement clinker with mixing water (12) and optionally with at least one aggregate (16) to a cement suspension (13) or a concrete (13), the cement clinker by a limestone content of at most 50% ( w / w), characterized in that the mixing water (12) contains carbon dioxide (15).

A method according to claim 1, characterized in that the

Mixing water (12) contains carbon dioxide (15) in a concentration in the range of 0.5 g per kg of water to 3.35 g per kg of water, in particular at or above the saturation concentration.

A method according to claim 1 or 2, characterized in that the mixing water (12) has a temperature in the range of 0 ° C to 10 ° C, preferably 0 ° C to 4 ° C.

Method according to one of the preceding claims, characterized in that the cement clinker has a limestone content of 40% (w / w) to 50% (w / w), in particular a limestone content of 42% (w / w) to 48% (w / w). w).

Method according to one of the preceding claims, characterized in that the cement clinker silicates mainly in the form of

Wollastonite / pseudo-wollastonite (CaO ^* Si0 ₂ ) and / or rankinite (3CaO ^* Si0 ₂ ).

Method according to one of the preceding claims, characterized in that the cement clinker at least 50% (w / w) silicates in the form of

Wollastonite / pseudowollastonite (CaO ^* Si0 ₂₎ and / or Rank Init (3CaO ^* Si0 _2).

7. The method according to any one of the preceding claims, characterized in that it is at the at least one additive to a

 Aggregate, preferably sand and / or gravel.

8. The method according to any one of the preceding claims, characterized in that the cement suspension (13) or the concrete (13) prior to curing, in particular immediately after mixing of the non-hydraulic cement (1 1) with the mixing water (12) and optionally the at least one aggregate (16), is formed to at least one body (14), in particular to a paving stone, a concrete design element or a roof tile.

9. The method according to claim 8, characterized in that the body (14) is formed by extrusion.

10. The method according to any one of claims 1 to 8, characterized in that the cement suspension (13) or the concrete (13) in one by a

 Cladding limited intake is mixed.

1 1. Shaped body (14) of a partially hardened cement suspension (14) or a partially hardened concrete (14), characterized in that the partially hardened cement suspension (14) or the partially hardened concrete (14) by a method according to one of claims 1 to 10 will be produced. 12. Shaped body according to claim 1 1, characterized in that the

 Shaped body (14) based on the weight of the cement clinker calcite used from the implementation of the non-hydraulic cement (1 1) with

 Carbon dioxide (16) in a concentration of at least 0.1% (w / w), 0.5% (w / w), at least 1% (w / w), at least 1 .5% (w / w) or at least 2% (w / w) and / or a silica from the implementation of non-hydraulic

Cements (11) with carbon dioxide (16) in a concentration of at least 0.1 % (w / w), 0.5% (w / w), at least 1% (w / w), at least 1 .5% (w / w) or at least 2% (w / w).

13. Shaped body according to claim 1 1 or 12, characterized in that the shaped body (14) as a paving stone, a concrete design element or

Roof tile is formed.