DE102007026638B4 - Process for the production of fire-resistant boards - Google Patents

Abstract

Process for the production of fire-resistant boards from renewable raw materials and a binder,
characterized,
that from blend compositions of
50-300 parts by weight of renewable raw materials in the form of chopped cereal, rapeseed, flax, hemp or rice straw, singly or in admixture,
a binder in the form of
300-900 parts by weight magnesium carbonate,
100-350 parts by weight of magnesium oxide,
100-270 parts by weight of magnesium chloride
such as
20-100 parts by weight of water
the plate is made such that the two outer sides of the plate have a higher binder content than the core of the plate.

Description

The The invention relates to a method for producing fire-resistant boards, from renewable raw materials and a binder.

It There is a big one desire for components with good properties in terms of strength and fire resistance at low weight using renewable resources the production.

in the Generally, such components are made of wood fibers or wood chips Use of a binder produced. Preferably, the Mass processed to plates. Because with components often a great fire resistance is required become ordinary still additives such as bristles, phosphates and the like added to the wood particles.

It is also known defoliated Vermiculite because of its big heat resistance on the surface apply such components.

such However, fibreboard or particle board made of exfoliated vermiculite do not have the required flame resistance and mechanical strength. To the Leaves others defoliated vermiculite very difficult to mix with wood particles and the 40 forwarding from burns takes place over the interconnected wood particles. Try the wood particles with finely ground defoliated Vermiculite to coat and thus the wood particles opposite to isolate a burn-on have become uneconomical exposed. Since the defoliated Vermiculite itself has a very low strength, one also gets only components with low strength.

As well is known, chipboard, which from chips, waste particles or fibers consist after mixing with a binder, preferably synthetic resin to press. These plates also have low strength and are pretty brittle and fragile. Furthermore is with these plates only a low heat resistance but expect a high level of dust. In addition, from such plates existing construction elements not with large thickness and large dimensions be produced economically, because the prints required for Compaction of the material require considerable effort, the often is not profitable.

Indeed have such pressed plates against the material they replaced should, especially opposite Wood, the big one Advantage that their production material is extremely inexpensive, because for this purpose wood fibers or other vegetable waste, shavings of all Art, animal or mineral substances or even natural or artificial fibers can use. Furthermore These plates were characterized by a high dimensional stability and a Insensitivity to Cracking and shrinkage. These plates have only a small one Strength, so that a use is not possible everywhere in the construction industry.

Furthermore, from the AT 166 233 B a method for producing magnesia cement is known. In this process, magnesium bicarbonate is used in the binder mixture instead of or in addition to magnesium chloride or magnesium sulfate for setting the caustic burned magnesite, ie magnesium oxide. Wood chips are used as fillers, but fire-resistant boards can not be produced by this method.

From the DE 752 357 A For example, a process for producing magnesia cements is known. Essential is the addition of magnesium hydroxide produced from basic magnesium carbonate. Only with this specially prepared basic magnesium carbonate is the production of a stone wood mortar possible. Such special binders do not allow the economical production of fire resistant panels.

From the DE 691 03 500 T2 is a lightweight board known. The mass for the production of lightweight board consists of foamed siliceous inorganic particles, an inorganic binder, water and a binding agent for the binder. The amount of inorganic particles is 40 to 65%, that of inorganic binders 5 to 20%, of water at least 10% and the setting agents 0 to 10%. It is essential that the inorganic binder of sodium silicate for water-repellent building boards and for other building boards of magnesium oxychloride or magnesium oxysulfate.

Of the Invention is based on the object, a process for the preparation of fire resistant plates to create from renewable raw materials and a binder, that's easy to do is and plates with high strength, universal usability results, which always have a good fire resistance without any special additives.

According to the invention Problem solved by the characterizing features of claim 1. Special Embodiments can be found in the subordinate claims 2 to 11th

The mass for making the fire-resistant plates has
50-300 parts by weight of renewable raw materials in the form of chopped grain, rapeseed, flax, hemp or rice straw
300-900 parts by weight magnesium carbonate,
100-350 parts by weight of magnesium oxide,
100-270 parts by weight of magnesium chloride as well
20-100 parts by weight of water.

A preferred range is included
50-300 parts by weight of renewable resources,
600-900 parts by weight magnesium carbonate,
150-350 parts by weight of magnesium oxide,
180-270 parts by weight of magnesium chloride and
10-30 parts by weight of water.

The respective composition of the mass depends on the desired Properties that the panels have according to their field of application have to. In the panel production with high fire resistance is the proportion of Binder in bulk for both outsides higher than for the core the plates. He can for both outsides be different. Binds by the added binder mixture the mass hydraulically.

When Renewable raw materials become straw from grain, oilseed rape, flax, hemp or rice in comminuted form used singly or in admixture with each other. Likewise Sisal or coconut fibers find use. The materials will be preferably to a length from 6-12 mm cut.

The Renewable raw materials are used with the hydraulically setting Binder mixture and water stirred well and introduced into the mold. Around To achieve special strength, can be in the mass reinforcements added become. For this purpose, tissue, Knitted fabrics, nonwovens of inorganic, organic or natural fibers be used. It is also possible to use a part of the renewable Raw materials, eg B. of flax or hemp or sisal or coconut fibers in longer Add dimensions of the starting material as a reinforcement.

The curing The masses in the form takes place in the air, but can by heat be accelerated.

Become Plates wanted, on one side a good thermal insulation and On the other hand, they must have high fire resistance successively masses with different proportions of renewable Poured raw materials into the mold and allowed to cure together.

In a further preferred embodiment of the method have the plates change according to their field of application Composition from a large area to other large-scale side on.

Generally is to say that the outer surfaces of the fire-resistant plates according to the invention with structured, perforated u./o. colored plastic films, too foamed Plastic films, woven fabrics, crocheted fabrics, nonwovens, papers, metal foils, Ceramics, stones and ä. can be disguised. In order to can give the plates a desired Appearance. The outer surfaces of the plates can be retrofitted with the aforementioned materials by sticking u. Ä. connected become. Likewise, it is also possible the materials to be applied in the mold before filling with the composition of the invention or to apply before curing the mass.

The subsequent Applying materials on one side as well as on both Pages of the fire-resistant plate according to the invention take place. In a particular embodiment, the materials on both Be pages of different kind.

Around a good bond between the plates and applied on the outer surfaces To obtain materials or when sticking the plates on floors, ceilings or walls can this while the setting time on the surface be treated accordingly, for. B. roughened. Likewise is it is possible the surface to shape the form accordingly.

In order to When processing the plates always the same page in the For example, a surface may look special be colored.

By the variation of the composition of the compositions of the invention from renewable raw materials and the hydraulically setting binder mixture become fire resistant Panels obtained in many areas, especially in construction or expansion can be used.

The according to the inventive method manufactured fire resistant Plates have thicknesses of 2 to 100 mm. As examples of fire resistant plates should be ceiling, floor or wall panels for sound or heat insulation, decorative Wall panels for Table covers, for roofing materials, for insulating panels or channels for supply lines, for sound proofing, for rear walls of Veneering, for Materials of doors, for documents in construction but also for Elements in furniture construction, called in aircraft construction, vehicle construction or shipbuilding become.

The plates produced with the compositions according to the invention may have both flat and any curved surface. Likewise, recesses, breakthroughs u. Ä. Already at the filling of the form considered. It just has to be in each case the case be adapted to the shape of the desired shape of the plates.

The produced according to the invention Plates show good dimensional stability at low density and low specific weight. They have a high fire resistance and are stable across from a moisture absorption.

For example gives the fire resistance test according to IMO FTP International Code of Practice for Fire Test Procedures Pat 1 Resolution MSC.61 (67) a time limit for the resistance of the components against Fire, so a high temperature at which they resurrect. there Resist the components of the invention Temperatures of 700 ° C, wherein on the side facing away from the fire of the component to be tested the temperature increase in the component after 30 to 60 min low fails.

The subsequent Machining by drilling, sawing, Grinding but also the edge processing by introducing grooves is given. The dust is low.

The Composition gives the resulting plates a low susceptibility against fungal attack. The microbiological hazard is low. Should the already existing protection may not be sufficient, so can anytime known for it Means are added to the starting mass.

The Invention will be explained in more detail by way of examples.

example 1

For the production a fire resistant plate according to the invention for the Use as wallcovering for the top and bottom layers 70 pieces of sliced meat Straw, 600 parts by weight magnesium carbonate, 220 parts by weight magnesium oxide, 240 parts by weight of magnesium chloride and 30 parts by weight of water mixed well and poured into a flat shape 2 to 5 mm high. Subsequently, will to this mass a mixture of 150 parts by mass chopped Straw, 450 parts by weight magnesium carbonate, 180 parts by weight magnesium oxide, 220 Parts by weight of magnesium chloride and 20 parts by weight of water 10 to 40 mm poured high and then another 2 to 5 mm of the first mixture added. Subsequently is allowed to cure in the air to plates with thicknesses between 15 and 50 mm. Becomes retroactive glued on one side of the plate a veneer. This gives a wall cladding element with sufficient fire resistance and good insulating properties against heat and Sound.

Example 2

For use of boards in shipbuilding is for the upper and lower layers of the plates described in Example 1 Mass for the top and bottom layers used and each in a thickness of 4 to 10 mm poured into the mold. For the core mass of the plates 80 pieces are chopped Cereal straw, 500 parts by weight of magnesium carbonate, 220 parts by weight Magnesium oxide, 180 parts by weight of magnesium chloride and 20 parts by weight of water intimately mixed and filled into the mold. The amount for the core layer is poured in such quantities that plates with thicknesses of 30 to 100 mm are obtained. Before pouring the masses into the mold is inserted into this a fleece made of synthetic resin fibers. After filling The mold immediately becomes an upper fleece of synthetic resin fibers applied. Thereafter, the hydraulic setting takes place under heat. The plates show good strength with low moisture absorption and good fire resistance.

Example 3

to Production of floor insulation panels in Thickness range of 20 to 50 mm for the lower layer 150 parts by mass Rapeseed straw with 350 parts by weight of magnesium carbonate, 170 parts by weight Magnesium oxide, 200 parts by weight of magnesium chloride and 20 parts by weight Water intimately mixed and up to a height of 2 to 4 mm in a mold cast in with structured base plate. For the core mass of the plates 250 parts by weight of a mixture of equal parts are chopped Cereal straw and rape straw with 350 parts by weight of magnesium carbonate, 170 Parts by weight of magnesium oxide, 210 parts by weight of magnesium chloride and 20 parts by weight of water intimately mixed and in the form up to a Height of Cast in 15 to 45 mm. The mass for the upper class consists of a mixture of 180 parts by weight of a mixture of equal parts chopped Cereal straw and rape straw with 300 parts by weight of magnesium carbonate, 150 parts by weight of magnesium oxide, 180 parts by weight of magnesium chloride and 20 parts by weight of water. After curing in air show the obtained floor insulation a good insulating effect across from Heat or Sound and sufficient fire resistance. Through the structured Bottom plate of the mold have the plates obtained on one side also a structure that provides a good bond when sticking the plates according to the invention on a surface.

Claims (11)

Process for the production of fire-resistant boards from renewable raw materials and a binder, characterized in that from blend compositions of 50-300 parts by weight of renewable raw materials in the form of chopped grain, rapeseed, flax, hemp or rice straw, individually or in admixture, a binder in the form of 300-900 parts by weight of magnesium carbonate, 100-350 Parts by weight of magnesium oxide, 100-270 parts by weight of magnesium chloride and 20-100 parts by weight of water, the plate is made such that the two outer sides of the plate have a higher binder content than the core of the plate. Method according to claim 1, characterized in that that mixture compositions 50-300 parts by weight renewable Raw materials, 600-900 Parts by weight of magnesium carbonate. 150-350 parts by weight of magnesium oxide, 180-270 parts by weight Magnesium chloride and 10-30 Parts by weight of water be used. Method according to claim 1 or 2, characterized that the plate is manufactured with thicknesses of 2 to 100 mm. Method according to at least one of claims 1 to 3, characterized in that long-fiber renewable resources be used as reinforcements. Method according to at least one of claims 1 to 4, characterized in that reinforcements of woven, knitted, Nonwovens made of inorganic, organic or natural fibers into the masses when filling be introduced into a mold. Method according to at least one of claims 1 to 5, characterized in that one or both sides structured, perforated and / or colored plastic films, also foamed Plastic films, fabrics, knitted fabrics, nonwovens, papers, metal foils be applied to the plate. Method according to at least one of claims 1 to 6, characterized in that the same materials on the surfaces of Plate to be applied. Method according to at least one of claims 1 to 6, characterized in that different materials the surfaces be applied to the plate. Method according to at least one of claims 1 to 8, characterized in that the plate made with a flat surface becomes. Method according to at least one of claims 1 to 8, characterized in that the plate is produced with a curved surface becomes. Method according to at least one of claims 1 to 10, characterized in that the plate with one or both sides structured surface will be produced.