DE19805365C2 - Process for the production of heat and / or sound absorbing and moisture regulating moldings or layers and their use - Google Patents

Description

The present invention relates to a method for producing Heat or soundproofing and moisture regulating Building materials according to the preamble of claim 1 and their use according to claims 8 to 13.

Such methods are for example from GB-PS 1,585,659 and DE-A-195 29 714 known. The binder consists of gypsum or Alpha hemihydrate and the filler made of polystyrene.

DE 44 46 968 A1 describes a slurried material made of plaster and foamed polystyrene particles and a component made from them.

FR 2 657 103 A is a fire protection element made of anhydrite and polysty rol or vermiculite known.

EP 0 652 188 A1 discloses a method for producing a molded part made of plaster and granulated, cellulosic material.

U.S. Patent 5,558,707 describes lining fire doors made of plaster with a void content of 54-60%.

Finally, JP 58-036 955 A is a mixture of alpha hemihydrate and blast furnace slag and a light aggregate.

The building materials industry has produced 3 different product groups from alpha hemihydrate, processed anhydrite (natural or synthetic product), which can be defined as follows:

• 1. Cleaning materials
• 2. Various plates for sub-floors, wall elements, cardboard plates
• 3. Floor screeds.

Other products made from alpha hemihydrate or natural or synthetic anhydrite has not been produced.  

In recent years, the building materials industry has launched various products in the aforementioned sense made of polystyrene or recycling material and cement as a binder. These products were manufactured either in plate form or as a fill or leveling layer under screeds or in the form of bricks or as finished parts. The density of these products is between 300 and 400 kg / m ³ and the products have good thermal insulation properties (lambda = 0.07-0.12 W / (mK). Depending on the binder content, these products show a more or less elastic behavior when subjected to stress , while the thermal insulation properties change.

Furthermore, it is known to make plasterboard from a mixture of plasterboard and To produce fly ash, using as an additive pumice, pearlite and vermiculite be set (DE 31 13 501). The fly ash is used as a lean agent (Zu impact material) used.

It is known to use gypsum with building materials and / or secondary raw materials use in building structures and building elements, whereby plaster with active Fine ash is a suspension that is used to fill voids is used in components (DD 277 667). Zie used stone chips and broken concrete. The mixture exhibits very poor acoustic and thermal insulation properties.

In addition, a mortar is known which is to be produced from calcium sulfate hemihydrate and fly ash, in particular ground calcium hemihydrate being used (DE 32 04 908 A1). The use of this agent as a mining remediation mortar requires very high initial / early high skills (<5 N / mm ² after 5 hours) that can only be achieved with a specially ground calcium sulfate hemihydrate.

Ultimately is a binder as well as a building material made from it known mixture, which consists of a latent hydraulic blast furnace slag (Blastfurnace slag) and a synthetically produced calcium sulfate carrier (α-half hydrate) (DE 37 01 717 C1). This binder becomes Her position of building materials with high skills and tightness. Thermal insulation properties are therefore not achievable.

The invention has for its object a method for producing Propose moldings or layers in which the process product ne good sound and heat insulation also has a moisture-regulating effect and has high strengths, including recycled construction waste are used, the miscibility of which can easily be afforded got to.

The mixture according to the invention consists of alpha hemihydrate and / or natural Lich or synthetic anhydrite in combination with a Ash according to claim 1. As a filler Remnants of construction made of concrete and brick chippings with foamed glass beads are becoming rial or brick chippings and polystyrene flakes. The polystyrene flakes or grains can be made directly from a manufacturing process come or be processed secondary products (recycled polystyrene).

Surprisingly, it has been shown that a combination of polystyrene (especially from recycled polystyrene) and alpha hemihydrate respectively natural or synthetic anhydrite in combination with the ash in the Building materials made from it behave similarly to comparable ones cement-bound building materials, but there are a number of advantages. The calculated lambda value is between depending on the density 0.05 and 0.08 W / (mK). Higher proportions of binders reduce thermal insulation properties, but increase stability, moisture resistance regulating effect and sound insulation. It also turned out that this material can be mixed much better with polystyrene than ze ment-bound building materials.

The following product groups offer themselves as new areas of application:

1. Compensation layer under the impact sound insulation of screeds

You can use the conventional leveling layer made of chippings, for example to be dispensed with. The advantage lies in the much lower weight and the incomparably better thermal insulation.

2. Substructure for screed or flowing screed (as impact sound insulation mung)

Instead of a conventional footfall sound insulation made of mineral fiber or Foam sheets are the mixture of polystyrene and anhydrite or Al pha hemihydrate and ash seamlessly on the entire floor area brought. This saves the time-consuming cutting of the impact sound Insulation boards on the edge or the adaptation of the boards to raw re and installations. The screed can be designed as a composite screed, as a screed on a separating layer and as a floating screed.

3. Bricks for exterior walls with a low k-value with a low binding agent tel share

Bricks with continuous vertical and horizontal cavities are moved in the conventional process and the cavities with flow poured concrete. The concrete takes on the static function, while the brick serves as formwork and due to the high polystyrene portion has a low k-value. Due to the precise manufacture the brick can be used both with and without plaster interior plaster become.

4. Bricks for partition walls with and without cardboard or plaster coating plaster (sandwich elements) and with and without reinforcement made of fibers or Fabrics and with a high binder content

The stones or slabs can either be in the natural surface be left or in the production with a coating of cardboard or gypsum plaster that simultaneously covers the finished wall surface forms and must be easily reworked if necessary.  

5. Plates

as thermal insulation boards,
as a plaster base,
as a substructure for tiling or
as a substructure for screeds.

6. Finished parts

Floor-to-ceiling finished parts for exterior and interior walls can be prefabricated in the factory adorned and easily relocated and reworked on site. To horizontal and vertical cavities with fluidized concrete poured, whereby this concrete braid takes over the static function.

Processing methods

Depending on the area of application, the product can be installed damp, slightly ver sealed and peeled off (e.g. leveling layer or step sound insulation) or pressed into molds, the filling volume around Is reduced by 20% and only small voids remain (for example at Thermal insulation boards, bricks for external walls). By using Al In contrast to Ze. pha hemihydrate or anhydrite can be used as a binder ment as binding agent - a controllable, rapid hardening with simultaneous ho Achieve shape accuracy.

Examples example 1

A binder consisting of 54% by weight of fly ash, from a caloric power plant with a proportion of 12% by weight of free CaO, which was brought to Ca (OH) ₂ by quenching, and 46% by weight of alpha Hemihydrate. 100 parts by weight of this binder were mixed with 72 parts by weight of water, residual building mass made of concrete and brick chippings (in a grain fraction <= 16 mm) and foamed glass beads (in a grain fraction of 1-2 mm). Based on the finished product, the proportion of residual construction mass was 130 kg / m ³ , the proportion of glass beads 200 l / m ³ and the proportion of binder 350 kg / m ³ . Additives were added to the binder. The finished product was in the form of a screed as in Example 1, which had the following compressive strength after 28 days and the following heat transfer value:
σD28 = 6.24 N / mm ²
λ = 0.78 W / mK

Example 2

A binder as in Example 1 was used. 100 parts by weight of this binder were mixed with 65 parts by weight of water and brick chippings and polystyrene flakes from recycled material. Based on the finished product, the proportion of brick chips was 123 kg / m ³ , the proportion of polystyrene flakes was 240 l / m ³ and the binder proportion was 360 kg / m ³ . The finished product was in the form of a screed as in Example 1, which had additional heat-insulating properties and had the following compressive strength after 28 days and the following heat transfer value:
σD28 = 2.56 N / mm ²
γ = 0.58 W / mK

Claims (13)

1. Process for the production of heat and / or sound absorbing and moisture-regulating moldings or layers, in which one of egg A mixture of 40 to <100 mass% alpha hemihydrate and / or anhydrite and <0 to 60 mass% reactive ash from combustion plants Binder, a mixture of fillers from construction waste made of concrete and brick chippings with foamed glass beads or brick chippings and polysty roll flakes, and at least one additive using a mixer Water is mixed and the mixture is then pressed in a mold or by stamping into the desired final shape or large is applied to ceilings. 2. The method according to claim 1, characterized in that an ash with a content of free CaO between 2% and 25% is used. 3. The method according to claim 1, characterized in that as an anhydrite ground natural material is used. 4. The method according to claim 1, characterized in that the proportion of the binder mixture on the shaped body or the layer is chosen with 100 to 400 kg / m ³ . 5. The method according to claim 1, characterized in that the binder Mixture of additives, especially superplasticizers, in a concentration of 0.2 to 2% will give. 6. The method according to claim 1, characterized in that the binder mixed products to reduce water solubility in a concentrate on <4% can be added. 7. The method according to claim 1, characterized in that herge thereafter provided shaped stones with a plaster layer and / or coating made of cardboard be provided. 8. Use of a layer produced by the method according to one of claims 1 to 6 as a compensating material under a screed with a bin demittel Content of 150 to 350 kg / m ^3rd 9. Use of a layer produced by the method according to any one of claims 1 to 6 as a compensating material under a screed with a Bin demittelteil of 150 to 350 kg / m ³ , which contains residual building materials as filler. 10. Use of a layer produced by the method according to one of claims 1 to 6 as impact sound and / or thermal insulation under a screed, with a binder content of 100 to 280 kg / m ³ . 11. Use of a molded article produced by the process according to one of claims 1 to 7 for external walls, with a binder content between 100 and 400 kg / m ³ . 12. Use of a molded article produced by the process according to one of claims 1 to 7 for inner walls, with a binder content between 200 and 600 kg / m ³ . 13. Use of a molded article produced by the process according to one of claims 1 to 7 as a heat, sound insulation or plaster base plate or as a substructure for tile and plate coverings, the plate having a binder content of 100 to 280 kg / m ³ .