DE3327039A1 - Building components bound by inorganic hydraulic binders - Google Patents

Abstract

Building components bound with inorganic hydraulic binders such as cement or gypsum and provided with organic reinforcements such as fibres are to be designed in such a way that they show an expansion and shrinkage behaviour which can be satisfactorily calculated. For this purpose, it is provided according to the invention that the building components or building panels bound with inorganic hydraulic binders are provided with at least one layer of at least the same thickness, which consists of organically or inorganically bound silicate.

Description

Components bound with inorganic hydraulic binders

The invention relates to inorganic hydraulic binders, such as cement or plaster of paris, bonded and provided with organic reinforcement such as fibers Components, preferably building panels, in particular wood cement panels.

In components of this type, there is a problem that such Parts show an expansion and shrinkage behavior that is difficult to control. This is primarily due to the fact that the expansion and shrinkage behavior of the respective Moisture absorption of the reinforcements is dependent, but also on the storage and Installation time of the components or building panels, so that an aging process, the expansion and Shrinkage behavior influenced in an unpredictable way The invention is accordingly based on the object, components or building panels of the aforementioned Art to create a flawlessly despite the use of the above components show calculable expansion and shrinkage behavior, so that adjustments to the respective Construction requirements are possible without difficulty.

This object is achieved in that the with the components or building boards bound with inorganic hydraulic binders at least one layer of at least the same thickness are provided, which are made of organic or inorganically bound silicate.

With this arrangement it is achieved that the bonded fiber layer a layer is assigned, the dimensions of which can be predicted in a precisely predictable manner Change depending on moisture, with an aging of this layer and thus time-dependent Changes do not occur. This layer consisting of silicate is thus under the above conditions are able to apply their properties to the fiber-reinforced To transfer building plate, so that the entire plate is now manageable stretch and Has shrinkage properties under the influence of moisture and no signs of aging shows.

The following can be considered as silicates: i.) Natural silicates such as granular ones Calcium silicates; silicate stone powder or grains and quartz sand.

2.) Synthetic silicates a) crystalline like expanded clay b) amorphous like Glass, foam glass and broken foam glass The silicates can be organic or inorganic be bound, preferably they can be with hydraulic binders, such as cement or plaster of paris, but organic bonds in the form of plastic are also possible possible.

If inorganic binders are used, there is the advantage that that the entire board due to the inorganic bonding of the fiberboard in one Operation can be produced in which on a layer of fibers and binding agent a layer of silicate and binder is applied. Become organic binders Used for the silicate layer, at least one component or a Plate made of silicate and binder, on which then a layer is applied from fibers and binders.

With the arrangement according to the invention, it is also possible to use building boards or to produce components that have a multilayer structure, in each case a silicate layer is embedded between two bonded fiber layers. in the As a rule, such building panels or components therefore have a three-layer structure, wherein the silicate layer is enclosed between two bonded fiber layers is.

In the case of such a three-layer structure, the silicate layer has at least a thickness which corresponds at least to the thickness of one of the two outer layers.

Such a three-layer plate is also in a single operation can be produced by applying a layer of fibers and binding agent to a layer Silicate and binding agent is applied and a layer is added to these in turn made of fibers and binders.

The composition according to the invention is particularly advantageous Applicable to wood cement panels, in which the respective outer or a layer on both sides of cement-bonded wood fibers. Such wood cement panels show the moisture and aging behavior mentioned at the beginning in a particularly striking way.

The ratio of the strength of the bonded fiber layer to the strength the silicate layer in the composition according to the invention can be 1: 1 to 1: Be 10.

When applying the composition according to the invention to a wood cement board The following proportions come into consideration: Example 1: a) for the wood cement layer Wood fibers 8 to 60 ß (wt.%) Cement 40 to 92% "b) for the silicate layer Silicate grains 20 to 90% (% by weight) cement 10 to 80% "This has proven to be particularly advantageous The following mixing ratio has been proven: Example 2: a) for the wood cement layer Wood fibers about 38% cement about 62% b) for the silicate layer Silicate grain size about 72 ffi cement about 28 ffi um for fiber cement panels, in particular Wood cement boards of the above type, non-combustibility according to fire class To achieve A2 according to DIN 4102, it has already been proposed to use such a plate to add a proportion of 20 to 70 ffi manganese oxide.

It has been shown that panels of this type also meet fire class A2 especially with regard to the toxicity of the smoke gases up to a strength of about Easily reach 16 to 20 mm.

If thicker panels are produced on this basis, the Non-flammability still guaranteed, but smoke gases can arise Toxicity is outside the permissible limits.

In a particularly advantageous manner, the inventive Component or plate structure on such bonded fiber components provided with manganese oxide or use fiberboard by using a multilayer structure of the type described at the outset Type is used in which the total thickness of the bonded fiber layers 16 up to 20 mm. The rest of the panel's thickness is made up of the silicate layer delivered.

With the use according to the invention, non-flammable Manufacture building panels according to DIN 4102 fire class A2 of practically any wall thickness.

When used on a wood cement board, the following proportions apply Consider: Example 3: a) for the wood cement layer wood fibers 8 to 20% cement 10 to 70 ffi manganese oxide 20 to 70% b) for the silicate layer silicate grain size 20 Up to 90% cement 10 to 80% The following has proven to be particularly advantageous here Proven mixing ratio: Example 4: a) for the wood cement layer wood fibers about 12% cement about 48 ffi manganese oxide about 40 ß b) for the silicate layer Silicate grain approx. 72% cement approx. 28%

Claims (23)

A claims With inorganic hydraulic binders, such as cement or gypsum, bonded and with organic reinforcement, such as fibers, provided components, preferably building boards, characterized in that those with the inorganic hydraulic Binder-bound components or building boards with at least one layer at least the same thickness are made of organically or inorganically bound silicate consists. 2. Components according to claim 1, characterized in that the silicate natural or synthetic silicate. 3. Components according to claim 2, characterized in that the natural Silicate granular calcium silicate and / or silicate rock flour and / or quartz sand is. 4. Components according to claim 2, characterized in that the synthetic Silicate is crystalline or amorphous. 5. Components according to claim 4, characterized in that the synthetic is crystalline silicate expanded clay. 6. Components according to claim 4, characterized in that the synthetic amorphous silicate glass and / or sight glass and / or broken foam glass. 7. Components according to one of the preceding claims, characterized in that that the silicates are bound organically or inorganically. 8. Components according to claim 7, characterized in that the silicates are bound with hydraulic binders such as cement or plaster of paris. 9. Components according to claim 7, characterized in that the silicates are bound with organic binders such as plastics. 10. A method for producing components or building panels according to claim 7 or 8, characterized in that on a layer of fibers and binder a layer of silicate and binder is applied. II. A method for producing components or building panels according to claim 7 or 9, characterized in that initially a component or a plate from Silicate and binder is produced, on which then a layer of fibers and binder is applied. 12. Components according to one of the preceding claims, characterized in that that a silicate layer is embedded between two bonded fiber layers is. 13. Components according to claim 12, characterized in that the components or building boards show a three-layer structure, with the silicate layer between two bonded fiber layers is included. 14. Components according to claim 13, characterized in that the silicate layer has at least one thickness which is at least the thickness of one of the two cover layers is equivalent to. 15. Process for the production of components or building panels according to a of claims 12 to 14, characterized in that a layer of fibers and binder a layer of silicate and binder is applied and added on top of this, in turn, a layer of fibers and binding agent. 16. Components according to one of the preceding claims, characterized in that that the components bound with the inorganic hydraulic binders or Construction panels are wood cement panels. 17. Components according to one of the preceding claims, characterized in that that the ratio of the thickness of the bonded fiber layer to the thickness of the silicate layer i is 1 to 1:10. 18. Components according to claim 17, characterized in that the Holzzementschict from 8 to 60 ffi wood fibers and 40 to 92 ffi cement and that the silicate layer consists of 20 to 90% silicate grain and 10 to 80 fio cement. 19. Components according to claim 18, characterized in that the wood cement layer Made of about 78 ß of wood fibers and about 62% cement and that the silicate layer consists of about 72% 0 silicate grain and about 28 ffi cement. 20. Components according to one of the preceding claims, characterized in that that the bonded fiber layer is provided with Hangancxyd. 21. Components according to claim 20, characterized in that the total thickness of the bonded fiber layers does not exceed 16 to 20 mm. 22. Components according to claim 20 or 21, characterized in that the wood cement layer made from 8 to 20% wood fibers, from 10 to 70% cement and from 20 to 7p% manganese oxide and that the silicate layer consists of 20 to 90% silicate grain and consists of 10 to 80% binder. 23. Components according to claim 22, characterized in that the wood cement layer consists of about 12% wood fibers, about 48% cement and about 40% manganese oxide and that the silicate layer consists of about 72% silicate grain and about 28% cement.