DE2548688A1 - Rapid setting thixotropic cements and mortars - contg. water soluble thixotropic agent, carbonate ion source, an aluminate and aluminium oxide - Google Patents

Abstract

Additives to hydraulic cement to accelerate the onset of setting comprise (a) a cpd. to promote thixotropy in the mortar or cement, (b) a source of carbonate ions, (c) an aluminate and (d) an aluminium oxide. Promotes rapid onset of setting (e.g. within 1 hour) and prevents cement and mortal flowing out of gaps e.g. in shuttering after pouring before setting has occurred. The additives are esp. useful for addn. to pumpable or spraying cement compsns.

Description

Additive for mortar and concrete for

Accelerating the start of solidification (addendum to patent ... Ref .: P 25 27 546.1) The invention relates to an additive for mortar and concrete to accelerate of the start of solidification according to patent ... (Ref .: P 25 27 546.1). Normal concrete begins about 3 to 4 hours after pouring into the formwork with solidification. The beginning solidification is determined with the Vicat device that the needle of the Device in the specimen no longer penetrates to the ground.

There are already means known that cause the hydraulic Concrete or hydraulic mortar set earlier than normal concrete begins.

This is how the solidification of a mortar or concrete begins to be sufficient Amount of calcium chloride is added, about an hour after pouring into the formwork. However, the addition of significant amounts of calcium chloride has that Disadvantage that there is a risk that the reinforcement of the component due to corrosion is attacked.

There is also a need in technology to remove concrete and mortar to solidify much faster, thus reducing the risk of cement paste runs out in considerable quantities between arches of the formwork. The invention lies the underlying task is to avoid these disadvantages.

According to the main patent, the additive contains a thixotropy of the mortar or concrete, e.g. a water-soluble, linear substance Polyethylene oxide, a carbonate releasing substance, an aluminate and an aluminum oxide.

The effect of this mixture on the mortar or concrete is surprising. While adding only one of these substances to normal concrete the period up to at the beginning of the setting of the mortar or concrete practically no or at most is reduced to approx. 1 hour, starts with the addition of this agent to the concrete solidification after about 30 to 60 seconds. It is essential that that thixotropy occurs, i.e. at the moment when the concrete or mortar comes to rest, this is thixotropic, so stiffened gel-like and that then after The solidification already begins after the very short period mentioned above. This additive can be particularly advantageous for pumpable mortars and concretes1, for example, lightweight concrete can be used1 in particular for sprayed and spun concrete and also for Any other concrete that does not have a too large grain size of the aggregate.

A running out of the concrete glue by lying the formwork is because of the thixotropic state prevented. Since the solidification in an extraordinarily short Time begins, a lower layer of concrete can cover the layers of concrete applied on top wear. The advantages for sprayed and spun concrete are due to the dimensional stability of the mortar or concrete provided with this additive.

The main patent is improved according to the additional invention, that instead of the polyethylene oxide a water-soluble linear unbranched macromolecular Compound based on polyacrylamides with a molecular weight between about 1 million and about 10 million can be used.

In a preferred embodiment of the invention, linear non-ionic polyacrylates with molecular weights between 4 and 6 million are used. Anionic or cationic modified polyacrylates can also be used, known in chemical engineering as flocculants. In embodiments of the invention, the polyacrylamide can be used together with that described in the main patent water-soluble linear polyethylene oxide can be used.

The carbonate-releasing substance can be used in embodiments of the invention essentially contain soda. Calcined, i.e. anhydrous, is preferred Soda used, which among other things has the advantage that the required amount of soda is proportionate can be kept low.

The carbonate residue in the soda reacts very quickly with the calcium ions to insoluble calcium carbonate, which is responsible for the reaction mechanism of the entire additive can be significant ~.

The aluminate can predominantly consist of sodium aluminate (Na2AlO2) exist. Obviously it is essential for the reaction mechanism of the additive that this aluminate forms a calcium-aluminum compound with the Salziumiorlen contained in the cement paste comes in.

Al 2 O 3 is preferably used as aluminum oxide, which in itself alone does not noticeably affect the solidification process of the concrete.

The individual substances can be added to the concrete one after the other, however, the remedy can also be mixed beforehand and then immediately before the Lirlbrirlgerl can be added to the mortar or concrete in the formwork.

The additive is either dry or with the addition of water added to the concrete or mortar. For example, for the purpose of better kinmixing in the concrete or mortar the additive in the ratio agent to water like 1 to 0.8 mixed with water. So much admixture is added to the mortar or concrete, that the mixture to 100 parts by weight of the hydraulic binder (cement) three Contains parts by weight of dry substance of the additive. When pumped to the place of use Concrete is added as nal as possible at the place of use, but it is harmless if the addition, for example, still 15 m tzor the mouthpiece of the hose line he follows.

The effect of the additive can be made even more advantageous, when you consider the thixotropy inherent in normal concrete or mortar, which is practical is hardly noticeable, amplified with known means, for example by the fact that the hydraulic binder in a particularly finely ground state during mixing concrete or mortar is used. However, all of these known measures work only to the fact that it is just noticeable that the concrete or mortar is still State is stiffer than in the moved state, the inventive effect that immediately, when the concrete or mortar comes to rest, it is gel-like stiffened, however, does not occur by any of the known means. According to the invention it is both for the stiffening of the concrete as well as for the early start of the setting point Advantageous if particularly finely ground marl lime is used for the concrete or mortar mix is used. In principle, it is advantageous if all the mortars are solid Components have a very high degree of distribution. The binder can even be ground so finely that its particles are colloidal in at least one direction Have dimensions. The measures influencing the thixotropy can Increase effect, however, it should be noted that the stiffening of the concrete by the additive according to the invention is much stronger than the sum of the Results of each action would match, including those by adding degree of stiffening achieved by linear polyethylene oxide or polyacrylamide alone. Although it is known to add bentonite to concrete or mortar as a thixotropic agent, however, the effect achieved in this way is not comparable with that achieved by the one according to the invention Additive achieved effect, with the help of which stiffening occurs so quickly, that continuously poured concrete or mortar onto the mortar layer that has just been applied can be. The mere addition of the linear polyacrylamide described above to the Concrete by itself creates a stiffening of the concrete, which admittedly has the effect the addition of all the additive in terms of stiffening the thixotropic Concrete or mortar not achieved, but the effect of the addition of bentonite in terms of the thixotropic properties by far surpasses. The addition a linear water-soluble polyacrylamide to a concrete, its binder is in a very finely ground state or in a mortar, all of which solid constituents in a very finely ground state are therefore considered to be self-contained Invention viewed, It is possible that the polyacrylamide is thixotropic Properties of the concrete or mortar are only generated when it is added, whereby the admixture preferably takes place immediately before processing, or but the concrete or the mortar may already have insufficient thixotropic properties MaS or latent and these properties are made possible by the polyacrylamide reinforced that they are practically exploitable.

The concrete or mortar can stretch as long as you like up to the The place of application, for example also in pipelines. This Method is particularly suitable for route safety in mining, where it is not it is possible to mix larger quantities of concrete on site. The mortar or the concrete will therefore through permanently installed pipelines from the surface of the earth to the point of use and only a short distance from the point of use, for example the additive is added a few meters beforehand. Building mortar walls for underground route protection depends crucially on the fact that it is very light-flowing Mortar can be transported long distances, the mortar then ater in as much as possible stiffens and solidifies for a short time.

These mortars also give gas-tight walls, which is good for pit ventilation and weather management is particularly important.

It is advisable to mix the additive as closely as possible to ensure with the mortar or concrete. This can be done in a number of ways are, for example, by moving agitators or the like .. Particularly useful however, it is admixing with the aid of a static continuous mixer.

Such a continuous mixer consists of a pipe section in which successively several layers of corrugated lamellas are arranged, the Separate partial flows from the medium flowing through the pipe section and with others Mix partial flows. Such static mixers are in CZ-Chemie-Technik, 3 (1974) Pages 247 to 250.

Since within the mixing device there is already a rapidly solidifying Concrete mix forms, this concrete mix should be avoided within the mixer solidifies. It is therefore advisable to switch off the Flow of the liquid concrete mix through a suitable shut-off device somewhere within the conduit through which the concrete mix flows can be, for example immediately before the mixer or in the immediate vicinity Near the end of the pipe or hose line from which the concrete enters the formwork is filled to ensure that there is no rapidly solidifying concrete mix within the mixing device is located. This can be achieved in a simple way by that a suitable time before the Time at which the concrete flow comes to a standstill within the mixing device, the supply of the additive is interrupted. It is then the mixing device through not with additive provided concrete flushed empty.

It can be expedient to also use those connected to the mixing device Rinse pipes empty through non-solidifying concrete.

According to one embodiment of the invention, a device is provided, which ensures that before switching off the promotion of the concrete mixture at still When the mixing device is filled, the supply of the additive is switched off in good time will. This safety device can, for example, be an electrical one Act device with which the Stop valves or gate valves actuated for both the concrete mix and the admixture, and when the operator presses a button, for example receives the signal to interrupt the concrete supply, first the supply of the additive interrupts to the mixing device and a predetermined time later the mortar or concrete feed. But it is also possible, for example, both shut-off devices designed to be operable by hand and to lock each other mechanically, so that the mortar or concrete supply cannot be interrupted before the supply of the Additive is interrupted.

Further features and advantages of the invention emerge from the following Description of several embodiments for the additive and for the concrete mix and from the description of an exemplary embodiment of a device according to the invention based on the drawing, which shows the details essential to the invention, and from the Claims. The individual characteristics can be used individually or in groups in any combination can be realized in one embodiment of the invention.

The single figure shows partly in section, partly schematically an embodiment of a device according to the invention with a static Continuous mixer.

In the arrangement shown in the figure, there is a static continuous mixer 1 provided, which has a plurality of packages 2 and 3 arranged one behind the other, which are layered from corrugated fins and which are arranged in a tube 4. The mixer 1 is connected to a pipeline 6 in a manner not shown, in the one shut-off device? is built in. On the left in the figure Another short pipe 8 is connected to the outlet of the mixer a flexible hose 9 is connected, the free end 10 of which is the outlet opening for the mortar. The second input for the mixer 1 is through a relative thin pipe 12 is formed, the free end of which ends inside the mixer and in which a shut-off device 13 is installed. The other end of the pipe 12 stands with a storage container 15 for the additive dissolved in water in connection; a pump 16, which is switched on in the train of the pipeline 12, conveys liquid from the storage container 15 into the mixer 1.

There is a control device 18 is provided with the help of a hand lever 19 is operable.

The mixer 1 is supplied with liquid mortar without additives through the pipe 6 fed and conveyed in the mixer 1 with the pump 16 from the storage container 15 Additive mixed. At the end of the mixer 1 on the left in the figure is the Additive mixed completely and evenly with the concrete and the mixer 1 leaving mortar has thixotropic properties. As long as the concrete is therefore Moved within the mixer 1, the pipeline 8 and the hose 9, he is liquid and can therefore be used without difficulty up to opening 10 of the hose (3 are conveyed, from where it is brought into the Schaluik.

As soon as the concrete mass in the formwork is at rest, it solidifies almost immediately and therefore does not run through leaks in the concrete formwork the end.

The control device 18 allows by appropriate adjustment of the hand lever 19 the amount of concrete flowing through the mixer 1 per unit of time to change continuously within certain limits; however, it is not possible to use the Adjust the delivery rate so small that there is a risk of the concrete already Solidified within the mixer 1 or in the nohrleitung 8 or in the hose 9. If the delivery of concrete through the mixer 1 is to be interrupted, the liand lever 19 operated accordingly and the control device 18 then closes first the shut-off device 13 until it flows through the pipeline 6 Concrete that is not thixotropic, the thixotropic concrete from the mixer 1 of the pipeline 8 and the hose 9 is displaced. Only then is the control device 18 the shut-off device 7 is also closed. Is the concrete pumping through the hand lever 19 switched on again, the control device 18 opens the shut-off devices 7 and 13 at the same time.

In one embodiment, the additive includes the following substances in the following focus on; About 2.5 to 3 * of the one under the name Prestol 2935/74 water-soluble linear anionogens sold by the company Stockhausen, Krefeld Polyacrylamide with a molecular weight between 4.5 and 6 million, about 75% calcined Soda, about 10% Na2A102 and about 12% Al203. The percentages given are Weight percent.

The mortar or concrete is 3% by weight based on the additive Dry matter of the binder added. The admixture is added in liquid form, part of the additive is for the purpose of easier delivery dissolved in 0.8 parts of water. Thixotropy occurred after approx. 10 seconds, solidification started after approx. 9 hours. Particularly favorable values result when used as a binder for the mortar a mixture of 30 to 60 so Portland cement clinker, 6 * low-fire clinker, Approx. 30 to 45 * clay limestone marl, all very finely ground, is used. If necessary, up to 1 uh calcium chloride can be added. All percentages are percentages by weight. For one m3 of mortar, 1100 kg of this binder and about 650 kg of water are used. This mortar could after adding the above-described Additive can be poured into an approximately 2 m high formwork, the base area of which was about 1.50 m by 2 m. The mortar solidified so quickly that no mortar got through the grid forming the shuttering surfaces with a 1 mm mesh size flowed through it. It surrendered This makes them viable and sufficient for the purposes of route construction in mining gastight concrete walls.

Potassium carbonate or another carbonate ion can also be used instead of soda containing alkali or alkaline earth salt can be used. You can also use Soda other sodium salts are used, especially those whose anions are calcium ions bind, for example nitrate compounds. Such as nitrates from heavy metals or also sodium nitrate, especially those nitrates which form aluminum complexes lead who have an increased willingness to react.

Fumed silica can also be used instead of the polyacrylamide will. An aluminum sulfate can also be used as the aluminate. Also can Mixtures of various carbonates can be used instead of soda.

When choosing the commercially available polyacrylamides must it should be noted that the more water-soluble, the faster the thixotropy occurs which is polyacrylamide. The different polyacrylamides have different effects late onset of solidification.

However, this is the case for almost all products on the market between 4 and 15 hours, which is suitable for almost all purposes of the invention produced concrete and mortar is sufficient.

Claims (6)

Claims 1. Additive for hydraulic mortar and concrete to accelerate the start of setting, one of which is the thixotropy of the mortar or concrete at least a promoting substance, a carbonate-releasing substance Contains aluminate and an aluminum oxide, according to patent ... (Ref .: P 25 27 546.1), thereby characterized in that the thixotropy promoting substance is a linear water-soluble unbranched polyacrylamide with a molecular weight between 1 million and 10 million contains. 2. Means according to claim 1, characterized in that the polyacrylamide has a molecular weight between 4 and 6 million. 3. Composition according to claim 1 or 2, characterized in that it is nonionic Contains polyacrylamide. 4. Means according to claim 1 or 2, characterized in that it is cathionic Contains polyacrylamide. 5. Composition according to claim 1 or 2, characterized in that it is anionic Contains polyacrylamide. 6. Agent according to one of the preceding claims, characterized in that that the agent polyacrylamide together with a linear water-soluble polyethylene oxide with a molecular weight between 1 and 10 million, preferably 4 to 6 million.