DE3046576A1 - Pneumatically transportable building material - based on calcium sulphate hemi:hydrate, and used esp. for making dams and pillars in underground mines - Google Patents

Abstract

Material contains alpha-CaSO4, 1/2H2O, and opt. also aggregates and fly-ash. The material also contains crush-resistant and polished (i.e. round) grains (I) which preclude or reduce stoppages in the pneumatic transport system used to convey the material to a site. Grains(I) pref. consist of round grains of gravel or slag, and possess a grain size range (all in mm) of 1-4; 1-5; 1-8; 2-4; 3-6; 3-8; 3-10; or 5-15 mm. Pref. material contains by wt. 19-71% alpha CaSO4, 1/2H2O and fly-ash, or only alpha CaSO4, 1/2H2O; 7-25% grains(I); and 22-56% anhydrite-II, or cement and/or CaO. Building materials contg. alpha CaSO4, 1/2H2O tend to jam in pneumatic conveyor pipes. The invention includes round grains(I) of gravel or slag to avoid such blockages.

Description

The invention relates to a building material, in particular

for the construction of dams and pillars in mining and tunneling, consisting of a fine-grained binder and, if necessary, additives, which is transported pneumatically and then blown.

The invention also relates to a method for pneumatic transport and for blowing a building material, using fine-grain binders such as alpha-gypsum hemihydrate and, if necessary, an aggregate via rotary feeders or similar devices smuggled into a blow line, pneumatically transported to the place of use and blow it there, if necessary with the addition of water and / or a stimulator will.

Dams are used in underground mining and in the tunnel for the most diverse Purposes and erected on the most diverse itoll (n. As they are usually next to the Blocking off weather routes must also take on expansion functions, can be used as building materials only those materials are used for these dams that are available in a relatively short time Cure time while developing a strength and bearing capacity. As building materials natural anhydrite, anhydrite II and dam building materials based on cement and / or lime are used used. In recent years, attempts have also been made to use beta-gypsum hemihydrate and alpha-gypsum hemihydrate as a building material for the manufacture of dams and pillars to be used in underground mining.

The use of beta-gypsum hemihydrate is therefore different because the strengths that can be achieved do not meet the requirements. The cement and lime-based building materials are usually not hygienically neutral, so that they can be used and processed, in particular by blowing negative corrosion effects are not possible everywhere.

As is well known, anhydrite II has its greatest reaction rate in the range of 15-250C. Higher temperatures bring more and more decelerations the setting process, with the building material anhydrite II no longer at 40 ° sets. The setting reaction at temperatures accelerated from 25 to 40 ° C, but not pushed beyond 40 ° C.

The disadvantage here, however, is that the additives are used for acceleration the setting reaction is an impairment of the strengths, so that their Use is only possible within narrow limits. With increasing depth, the mountain temperature rises and the above values are particularly important in the areas where the dams are placed need to be reached quickly. Therefore it was necessary to use a different binder to develop or to find for a dam building material. Alpha-gypsum hemihydrate reacts Already fast at 20 ° C, but only shows its greatest reaction speed at 420C on. Alpha gypsum hemihydrate is therefore suitable as a binder for dam building materials, especially for use at higher mountain temperatures. All the more so, because such a building material is generally suitable for pneumatic transport, dr is preferred in underground mining and tunneling because the building material is then Introduced in relatively large quantities per unit of time at the point of use via blowing can be.

It has now been shown that in the pneumatic conveyance of alpha-gypsum hemihydrate, due to its crystal structure, partly considerable Difficulties in handling can arise. Showed for the same reason themselves when processing alpha-gypsum hemihydrate in underground areas, mostly via pneumatic transport, blockages in the blow lines.

Because on the one hand according to the increasing depth and on the other hand the pneumatic conveying of the dam building materials, which is already required at present Good eligibility is essential over sometimes very long stretches the development of a building material based on alpha hemihydrates is required, which Conveying pneumatically over long distances without any problems and without difficulties blows away. It has been proposed to use fly ash with alpha-gypsum hemihydrate to mix and thus the ability and blowability of the dam building material to increase. It has been found, however, that even with intensive mixing the fly ash with the alpha gypsum hemihydrate in the conveyance and in the blowing Segregation occurs, on the one hand renewed funding difficulties and on the other hand to sometimes considerable and worrying fluctuations in strength development of the setting alpha gypsum hemihydrate / fly ash building material.

The invention is based on the object of a pneumatic system without Impairments transportable, even with effective mountain temperatures of to create dam building materials that set1 perfectly at temperatures above 30 ° C.

The object is achieved according to the invention in that a shatter-proof, Round-grain sweeping grain in the alpha-gypsum hemihydrate and optionally Flugascl-e-Cemisch is provided in such a proportion that clogging in the pneumatic Transport can be reduced or even avoided entirely.

Such a building material also binds in at temperatures above 30 ° C the desired speed and reaches the prescribed strengths. The sweeping grain ensures trouble-free pneumatic transport and targeted Blowing, because the round grains are accelerated by the blown air so that they carry away the alpha-gypsum hemihydrate particles and the fly ash. Because of the special Formation of the sweeping grain avoids caking on the surface. Simultaneously the sweeping grain acts gently on the lining of the blow pipe. The sweeping grain has thus not only a certain cleaning and transport function, but at the same time also a mixing and directional function at the discharge of the blow line. The mechanical strength development of the alpha hemihydrate is caused by the sweeping grain not noticeably impaired as far as the proportion of the round grain Fegekornes is 7-25% by weight of the total amount.

Experiments have shown that as a conveying and mixing aid The sweeping grain used is expediently a round grain gravel. Such a sweeping grain is particularly resistant to shattering and also has a favorable surface that meets the requirements particularly well. Tests have shown that also a round slag grain can serve as a sweeping grain.

The desired stabilization of eligibility and blowability and at the same time ensuring the strength development of the alpha gypsum hemihydrate is achieved by setting the proportion of swept grain in a range of 1-4 or 1-5 or 1-8 or 2-4 or 3-6 or 3-8 or 3-10 or 5-15 mm. It is advantageous that a such material in particular in the form of round gravel grains is available in sufficient quantity. Where such gravel material is not is available or can only be obtained with great effort, this can be in power plants or Round-grain slag that occurs in your own mine is also an inexpensive substitute be.

Wherever alpha gypsum hemihydrate is not available in sufficient quantities is or where for other reasons anhydrite II dam construction material or dam construction material on a cement and / or lime basis, the alpha gypsum hemihydrate component can be used be partially substituted by such material. According to a corresponding Formation of the building material according to the invention is characterized by the fact that it contains a proportion of alpha-gypsum hemihydrate or alpha-gypsum hemihydrate and fly ash 19-71% by weight, 7-25% by weight of Fegekorn and anhydrite II dam construction material or dam construction material based on cement and / or lime of 22-56% by weight. Of the Building material according to the invention is expediently transported and blown pneumatically, fine-grained binders, such as alpha-gypsum hemihydrate, and optionally an aggregate of silver rotary valves or similar devices into one Blow line introduced, pneumatically transported to the place of use and there if necessary, with the addition of water and / or a stimulator, and the sweeping grain of the rest of the building material mixture before being channeled into the blow pipe is metered in and mixed with it.

This process ensures that the sweeping grain or the Sweeping grain content in the building material advantageously fulfills the intended tasks.

After an embodiment of the method it is provided that the sweeping grain at the same time with the other building material components in the specified amount in the Chambers of the rotary valve is entered. Since over the rotary valve one Batch-wise introduction of the building material into the blow line can be done at this Make the dosage of the sweeping grains particularly good.

But it is also possible to use the building material components for days to be mixed with one another, to be temporarily stored underground and to be mixed again before the pre-blowing.

Such a decay to the Bestr @@@@ 11 @nt against.

to set up central supply underground @@ ta @ @@ men ti @ Dammbaustoft and from here to one or more companies with the required dam building material supply.

T is particularly important when using other injection devices it is advantageous to remove the swept grain from the rest of the building material mixture at the intermediate bunker discharge to supply. Here, too, is a good dosage and subsequent mixing of the Building material given in the desired form.

The invention is particularly characterized in that a building material is created that the special conditions of underground mining and tunneling Sufficient in a particularly advantageous manner. The building material itself binds even if it is unfavorable from high temperatures of over 30 ° C and has the necessary strength values on. The Fe <; e grain, which is a component of the building material, leads to a multiple effect in such a way that the otherwise difficult or impossible to transport pneumatically Alpha-gypsum hemihydrate now pneumatically without difficulty, even over long distances can be transported without clogging and that at the same time Blowing at the discharge of the blow line takes place evenly and in a targeted manner and that the strength development is not or at least not adversely affected.

It is particularly advantageous that it is used in pneumatic transport of the new building material does not come to segregation, but that the sweeping grain, in particular if the grain size range is adhered to, remains in the specified association.

Claims (10)

Dam building material with Fegekorn patent claims 1. Building material, in particular for the construction of dams and pillars in mining and tunnel construction, consisting of a fine-grained binder and, if necessary, additives, the pneumatic is transported and then blown, characterized in that a shatterproof, Round-grain sweeping grain in the alpha-gypsum hemihydrate and if necessary Fly ash mixture is provided in such a proportion that clogging in the pneumatic Transport can be reduced or even avoided entirely. 2. Building material according to claim 1, characterized in that the proportion of the round grain sweeping grain is 7-25 (, ew.-8 of the total amount. 3. Building material according to claim 1 and claim 2, characterized in that that the sweeping grain is a round grain of gravel. 4. Building material according to claim 1 and claim 2, characterized in that that a slag round grain serves as the sweeping grain. 5. Building material according to claim 1 and claim 2, characterized in that that the grain fraction has a grain range of 1-4 or 1-5 or 1-8 or 2-4 or 3-6 or 3-8 or 3-70 or 5-15 mm. 6. Building material according to Ansrpuch 1 and claim 2, characterized by a proportion of alpha gypsum hemihydrate or alpha gypsum hemihydrate and fly ash of 19-71 wt. t, of Fegekorn of 7-25 wt.% and of anhydrite II dam building material or dam construction material based on cement and / or lime from 22-56% by weight. 7. Method for pneumatic transport and for blowing a Building material according to claim 1 or one or more of the following claims 2 to 6, with fine-grained binders such as alpha-gypsum hemihydrate and optionally an aggregate via rotary feeders or similar devices into a blow line smuggled in, pneumatically transported to the place of use and there if necessary blown with the addition of water and / or a stimulator, through this characterized that the sweeping grain of the rest of the building material mixture before the introduction is metered into the blow line and mixed with it. 8. The method according to claim 7, characterized in that the sweeping grain at the same time with the other building material components in the specified amount in the Chambers of the rotary valve is entered. 9. The method according to claim 7, characterized in that the building material components mixed above ground, temporarily stored underground and mixed before blowing will. 10. The method according to claim 7, d a d u r c h g e k e n n z e i c N e t that the sweeping grain of the remaining building material mixture at the intermediate bunker discharge is fed.