DE4401802A1 - Binder for internal plaster - Google Patents

Abstract

A binder for internal plaster is based on calcium sulphate capable of binding with water. A fine particulate residue contg. essentially calcium sulphate from exhaust gas desulphurisation in coal-fired combustion plants with a specific surface area according to the Blaine method of greater than 10,000 cm<2>/g in an amt. of 10-80 pts.wt. dependent on the surface area of the calcium sulphate present in an amt. of 20-100 pts.wt. and whose surface area is in the region of ca. 1,000-10,000 cm<2>g/g is contained to set a water requirement of the plaster in the region of 0.4-0.7.

Description

The invention relates to a binder for interior plaster according to the preamble of claim 1.

In interior plaster so-called gypsum plaster are known in which usually a calcium sulfate β-hemihydrate containing more than 70% by weight Plaster and aggregates and additives or a multiphase plaster, d. H. on Calcium sulfate β-hemihydrate, calcium sulfate anhydrite-II and optionally Gypsum containing about 10% by weight of aggregates and additives are used, wherein their solidification characteristic is set according to the needs. Also, lime / gypsum-in Plasters with about 40 wt .-% calcium sulfate β-hemihydrate known. As Zu For example, fine sands and / or light surcharges come in fra ge. As additives are appropriate accelerators, retarders, thickeners o. The like. Used.

The requirements for such interior plasters are first and foremost good processability, high water demand, high yield and ge rings, strength matched to the ground. Besides, they have to be as bright as possible and hygienic. Desirably they should also be machinable.

These requirements lead in addition to those compared to burned gypsum high cost of calcium sulfate alpha-hemihydrate (the particular in accordance with the method described in DE-PS 38 19 652 from the in Flue gas desulphurisation resulting gypsum and thus from a residue  produced) to the latter for the appropriate use in Interior plaster is not suitable because this plaster modification far too high Strengths that about the impact of nails ver or ver prevent, and leads to spalling. Beyond that is the fertility such plasters too low.

In the exhaust desulphurisation of coal and especially stone coal-fired incinerators such as power plants in spray absorption method (SAV) falls a very fine, essentially calcium sulfite semi-hydrate containing residue.

The object of the invention is to provide a binder for an interior Plaster to create according to the preamble of claim 1, which made it possible light to recycle wastes.

This object is achieved according to the characterizing part of Claim 1 solved by a finely divided, substantially Calci Sulfur-containing residue from flue gas desulphurisation of carbohydrates incinerators with a specific Blaine surface <10000 cm² / g in an amount of 10 to 80 parts by weight depending from Blaine's specific surface of calcium sulphate, which is in the range of about 1000 to 10000 cm² / g, for adjusting a usual water claim is included.

Such a substantially calcium sulfite-containing radical substance used in exhaust gas desulphurisation by means of spray absorption from coal-fired power plants, usually includes the Pha sen calcium sulfide hemihydrate, hydrated lime (Portlandit Ca (OH) ₂) and Calci and falls with a specific surface to Blaine <10 000 cm² / g (although no Blaine values can be found in this range determine more experimentally, but correspond the corresponding BET values with these Blaine values). He has the following, for example Composition:

CaO 56 parts by weight free lime 13 parts by weight (range 10 to 15) SO₂ 20 parts by weight SO₃ 3 parts by weight SiO₂ 4 parts by weight   Cl 1 part by weight CO₂ 13 parts by weight rest 2 parts by weight

The bulk density of such a residue is about 0.5 g / cm³ and the water requirement W (water) / F (solids) ratio at about 1.4. The Residue has a light color and is hygienically harmless (in heavy metals, toxic compounds and radioactivity). He acts with respect to the water-bondable calcium sulfate of the bandage by delaying, but otherwise (except for his usual free lime content) inert, d. H. the calcium sulphate leaches off and on also causes no efflorescence or other undesirable reactions at the finished plaster. As a result, in particular interior plasters can be on inexpensive production of the calcium sulfate alpha-hemihydrate base, which meet the above requirements for interior plasters. however can also be based on using this residue on interior plasters calcium sulfate β-hemihydrate and / or anhydrite II and / or anhydride III and / or -Alphahalbhydrat be prepared.

The specific surface area of the calcium sulfate may be in the Use of alpha-hemihydrate by the freeness of the latter and / or by admixtures of the others listed, generally finer Calcium sulfate modifications are adjusted. The same applies to the other calcium sulfate modifications. For a calcium sulfate with egg Blaine specific surface area of about 2000 to 4000 cm² / g are suitably in the binder about 20 to 50 parts by weight Contain calcium sulfate. For a calcium sulfate with a specific Blaine surface of about 4000 to 6000 cm² / g is more convenient example, in the binder about 40 to 70 parts by weight of calcium sulfate ent hold. For a calcium sulfate with a specific surface area after Blaine of about 6000 to 8000 cm² / g are conveniently in the bandage containing about 70 to 85 parts by weight of calcium sulfate.

The binder advantageously contains up to about 21 parts by weight Hydrated lime. This hydrated lime, the used residue already from bring along, but the content can also by appropriate addition be adjusted by hydrated lime. A content of hydrated lime leads  teilhafterweise to the fact that the interior plaster mixture becomes alkaline, which in the is particularly useful if the residue contains sulfates. also Lime hydrate reacts in the long term to give strength. He also it allows a content of hydrated lime, a pozzolanic reaction add partner according to the content of hydrated lime, the ent resulting in speaking strength-forming reactions, so that the weight Share of calcium sulfate by the proportion by weight of hydrated lime and give If appropriate, pozzolanic reactant can be reduced. The puz zolanische reactants expediently has a specific Surface according to Blaine from 3000 to 6000 cm² / g. For this come ge ground trass flour, fly ash, silicate production residues such as Grinding sand, granulated slag o. The like. In question.

Conveniently, the chloride content of calcium sulfite containing residual material reduced. This can be done, for example, by elek trostatic separation process, washing, calcining o. The like. Happen. in the especially a chloride content <100 ppm is sought.

Made of calcium sulfate and residual material (including Kalkhy drat) existing binders can be used to produce the interior plaster usual additions are added, such as limestone sand until about 40 parts by weight and / or light aggregates in an amount of 1 to 3 Parts by weight based on the binder. In addition, over Liche retarder and accelerator for setting the solidification and thickener are added.

Interior plasters made of this binder fulfill the requirements of The conditions listed above and are also machine accessible.

example 1

An interior plaster is produced according to the following recipe:

54.87 kg of calcium sulfate alpha-hemihydrate (Blaine's specific surface area of 2200 cm² / g)
45.00 kg residual material of SAV according to the above composition
0.03 kg of highly viscous, water-soluble cellulose ether as thickening Ver
0.03 kg of alkyl polyglycol ether
0.05 kg of citric anhydrite.

This results in the following technological data:

Mixing water demand W / F 0.50 Frischrohdichte 1.51 g / cm³ fertility 100 l fresh mortar / 100 kg dry mortar dry bulk 1.05 g / cm³ initial setting approx. 140 min after mixing (adjustable via amount of citric anhydrite) Pressure resistance (DIN 1168) approx. 5.6 N / mm² Bending tensile strength (DIN 1168) approx. 1.6 N / mm²

The interior plaster is machine-accessible and workable after approx. 70 min.

Example 2

An interior plaster is produced according to the following recipe:

45.71 kg calcium sulfate alpha-hemihydrate (Blaine's specific surface area of 2200 cm² / g)
43.00 kg residual material of SAV according to the above composition
1.00 kg of hydrated lime
10.00 kg limestone crushed sand with a grain size of 0 to 1 mm
0.20 kg of highly viscous, water-soluble cellulose ether
0.005 kg of alkyl polyglycol ether
0.08 kg of citric anhydrite.

This results in the following technological data:

Mixing water demand W / F 0.58 Frischrohdichte 1.44 g / cc fertility 110 l fresh mortar / 100 kg dry mortar dry bulk 1.03 g / cc Pressure resistance (DIN 1168) approx. 3.8 N / mm² Bending tensile strength (DIN 1168) approx. 1.3 N / mm²

Example 3

An interior plaster is produced according to the following recipe:

42.715 kg of calcium sulfate alpha-hemihydrate (Blaine's specific surface area of 2200 cm² / g)
44,000 kg residual material of SAV according to the above composition
14,000 kg of calcareous crushed sand with a grain size of 0 to 1 mm
0.200 kg of highly viscous, water-soluble cellulose ether
0.005 kg of alkyl polyglycol ether
0.080 kg of citric anhydrite.

This results in the following technological data:

Mixing water demand W / F 0.53 Frischrohdichte 1.46 g / cc fertility 103 l fresh mortar / 100 kg dry mortar dry bulk 1.04 g / cm³ Pressure resistance (DIN 1168) approx. 4.0 N / mm² Bending tensile strength (DIN 1168) approx. 1.8 N / mm²

Example 4

An interior plaster is produced according to the following recipe:

22.65 kg calcium sulfate alpha-hemihydrate (Blaine's specific surface area of 2200 cm² / g)
40.00 kg residual material of SAV according to the above composition
2.00 kg of hydrated lime
25.00 kg limestone crushed sand, 0 to 1 mm
0.25 kg of highly viscous, water-soluble cellulose ether
0.02 kg of alkyl polyglycol ether
0.08 kg of citric anhydrite.

This results in the following technological data:

Mixing water consumption W / F | 0,50 Frischrohdichte 1.41 g / cc fertility 106 l fresh mortar / 100 kg dry mortar dry bulk 1.01 g / cm³ Pressure resistance (DIN 1168) approx. 2.0 N / mm² Bending tensile strength (DIN 1168) approx. 1.0 N / mm² water retention about 98%

Example 5

An interior plaster is produced according to the following recipe:

33.715 kg calcium sulfate alpha-hemihydrate (Blaine's specific surface area of 2200 cm² / g)
44,000 kg residual material of SAV according to the above composition
10,000 kg of calcareous sand, 0 to 1 mm
0.200 kg of highly viscous, water-soluble cellulose ether
0.005 kg of alkyl polyglycol ether
0.080 kg of citric anhydrite.

This results in the following technological data:

Mixing water demand W / F 0.54 Frischrohdichte 1.44 g / cc fertility 105 l fresh mortar / 100 kg dry mortar dry bulk 1.01 g / cm³ Pressure resistance (DIN 1168) approx. 3,6 N / mm² Bending tensile strength (DIN 1168) approx. 1.3 N / mm²

Example 6

An interior plaster is produced according to the following recipe:

35.715 kg of calcium sulfate alpha-hemihydrate (Blaine's specific surface area of 2200 cm² / g)
44,000 kg residual material of SAV according to the above composition
10,000 kg hard coal fly ash
10,000 kg of calcareous sand, 0 to 1 mm
0.200 kg of highly viscous, water-soluble cellulose ether
0.005 kg of alkyl polyglycol ether
0.080 kg of citric anhydrite.

This results in the following technological data:

Mixing water demand W / F 0.53 Frischrohdichte 1.40 g / cm³ fertility 104 l fresh mortar / 100 kg dry mortar dry bulk 1.03 g / cc Pressure resistance (DIN 1168) approx. 3.8 N / mm² Bending tensile strength (DIN 1168) approx. 1.5 N / mm²

The mixing water requirement was determined according to DIN 1168 in each case.

Claims (11)

1. binder for a plaster on the basis of water-bondable calcium sulfate, characterized in that a finely divided, substantially calcium sulfide-containing residue from the flue gas desulfurization of coal-fired incinerators with egg ner specific surface area Blaine <10000 cm² / g in an amount from 10 to 80 parts by weight, depending on the surface of Blaine of calcium sulfate, which is in the range of about 1000 to 10000 cm² / g, for adjusting a usual water claim is included. 2. A binder according to claim 1, characterized in that as bindable calcium sulfate alpha, beta hemihydrate and / or anhydrite is used. 3. A binder according to claim 1 or 2, characterized that in a calcium sulfate with a specific surface of Blai ne from about 2000 to 4000 cm² / g about 20 to 50 parts by weight bindefähi ges calcium sulfate are included. 4. A binder according to claim 1 or 2, characterized that in a calcium sulfate with a specific surface of Blai ne from about 4000 to 6000 cm² / g about 40 to 70 parts by weight bindefähi ges calcium sulfate are included. 5. A binder according to claim 1 or 2, characterized that in a calcium sulfate with a specific surface of Blai ne from about 6000 to 8000 cm² / g about 70 to 85 parts by weight bindefähi ges calcium sulfate are included. 6. A binder according to any one of claims 1 to 5, characterized ge indicates that up to about 21 parts by weight of hydrated lime are included. 7. A binder according to claim 6, characterized in that an addition of a pozzolanic reactant according to Ge just contains hydrated lime. 8. A binder according to claim 7, characterized in that the pozzolanic reactant has a specific surface area  Blaine from 3000 to 6000 cm² / g. 9. A binder according to any one of claims 6 to 8, characterized ge indicates that the proportion by weight of calcium sulfate is around the weight part of hydrated lime and optionally of the pozzolanic reaction part ners is reduced. 10. A binder according to claim 6, characterized in that an addition of a latent hydraulic reaction partner according to the Content of hydrated lime is included. 11. A binder according to any one of claims 1 to 10, characterized ge indicates that calcium sulfate alpha-hemihydrate bindable calcium is sulfate.