DE20316621U1 - Low-emission OSB board - Google Patents

Abstract

Low-emission oriented-strand-board (OSB) plate (1) with one or more layers (2, 3, 4) of pressed strands with binder, especially for applications in cars, furniture and interiors, in which the strands in at least one of the layers (2, 3, 4) consist of birch, alder, lime, willow and/or poplar wood with a formaldehyde-free binder. Independent claims are also included for (1) components comprising at least one plate (1) as above, for use in vehicles (especially cars, trucks, buses, rail vehicles, ships or aircraft), furniture (especially cupboards) and interior areas (especially as wall panelling) (2) furniture, especially cupboards, with at least one plate (1).

Description

The invention relates to a low-emission OSB board, especially for the use in the automotive sector, in the furniture sector or indoors one or more layers of binderized and pressed Strands. Furthermore, the invention relates to a corresponding component for use in a vehicle, in a piece of furniture or in an interior. In the end the invention relates to a corresponding piece of furniture.

At an Oriented beach board plate (OSB plate) in the context of the invention is a plate from at least one layer or layer of compressed flat Wood chips, the so-called beaches. The beaches of a location are in oriented in a preferred direction, for example in the longitudinal direction of the plate or in the transverse direction of the plate. At the same time, the beaches are being pressed provided with a binder. The exact production of an OSB board is described in the "paperback chipboard technology ", 4th revised Edition, 2000, authors Deppe and Ernst.

Due to its special mechanical and technological Properties such OSB boards are increasingly being used in the automotive sector, in the furniture sector or indoors used. In the automotive sector, for example, cars, trucks, Buses, rail vehicles, ships, aircraft etc. with such plates fitted.

Furthermore, furniture, for example, cabinets, with made of such plates. Even interiors such as offices, living rooms, etc. can, for example, as a disguise, have these plates.

In the course of these applications is in particular on as possible to pay attention to low emissions. Under emissions in the context of the invention is not just the formaldehyde release, which is the "classic" Emission parameters of wood-based materials, but also others released components used for the use in the automobile are relevant.

To determine the emissions are several methods known.

To determine the formaldehyde content In the so-called bottle method, a test specimen with a width of 40 mm, one length of 100 mm and any test specimen thickness over a period of three Hours stored in a 1 liter plastic bottle in which 50 ml of distilled water are on the bottom of the bottle. The examination takes place at a temperature of 60 ° C. The thereby exiting formaldehyde is absorbed by the water, wherein the content of formaldehyde in the water is then determined and from this the concentration given in terms of formaldehyde and dry in milligrams per kilogram Sample is calculated.

Another method for determining the formaldehyde content is the test chamber method according to the European standard prENV 717-1. In this case, a test specimen with a specific surface (eg a 1 m ² , total surface area as the sum of top, bottom and edge surface) in a tight chamber with a certain volume (eg 1 m ³ ) is given. The chamber is supplied clean air, so that there is a certain number of air changes (eg 1 m ³ / h = air change 1). The air is conditioned so that a certain relative humidity (eg 45%) is established in the chamber. The chamber itself is tempered to 23 ° C during the test. Now, the air surrounding the test specimen and discharging from the chamber takes formaldehyde out of the specimen. The effluent air is then analyzed periodically for its formaldehyde content. From experience, the formaldehyde content of the air decreases with the test time and reaches a constant minimum value, the so-called compensation concentration. The test value is the equilibrium concentration of formaldehyde expressed in ppm.

Finally, there is the perforator method after the European Mentions standard EN 120, a method for determining the free formaldehyde content in a product describes. This is done in an extraction apparatus (the so-called perforator) using toluene to reflux boiling the free formaldehyde expelled from the test specimen (about 100 g) and transferred to water. After an extraction time of about two hours, the aqueous formaldehyde solution from Separated toluene and the formaldehyde concentration determined. Under consideration the sample weight is based on the free formaldehyde content of 100 g sample dry mass recalculated. There is an influence of sample moisture, which is why the standard a correction of the moisture content via a calculation formula and a normalization of the final test value to a sample moisture of 6.5%.

To determine the content of possibly carcinogenic organic constituents, the so-called gas analysis method is carried out after a sample conditioning for 24 hours via CaCl ₂ , this corresponds to a relative humidity of 0%, an analysis by means of a gas chromatograph with head-space sensor. For this purpose, a comminuted sample is tempered for five hours at a temperature of 120 ° C in the head-space transmitter and output the analyzed by gas chromatograph values of the organic components in micrograms of carbon per gram of sample. The qualitative evaluation must show that no carcinogenic substances are detected according to the list of MAK values.

The List of MAK Values is published annually by the Senate Commission of the German Research Foundation for Testing Harmful Ingredients. It contains information about the maximum permissible concentration of certain substances in the workplace, the so-called MAK value. It gets away assuming that the stated concentrations are not expected to endanger the health or undue harassment of the employees. The list of MAK values in Section III contains the classification of certain substances according to their proven or presumed carcinogenicity.

Another test method is the so-called odor test. In this case, a sample of 150 cm ² after delivery for two hours at 80 ° C stored in a sealed, odorless test vessel, which comprises a volume of three liters. The test vessel is then cooled to 60 ° C. At least three test persons assess the subjective sense of smell of the air in the test vessel and evaluate it. The notes mean 1 to 3 that the smell is not noticeable until clearly, but not disturbing. The notes 4 to 6 mean that the smell is disturbing to unbearable.

In the so-called fogging test becomes a candidate with a diameter of 80 mm in one with an aluminum foil closed glass container for 16 Hours at 100 ° C stored. The leaking, condensable components beat settle on the aluminum foil. The resulting increase in mass of the Slide is made by weighing back determined and given in milligrams.

When using OSB panels was previously the only relevant emission parameter formaldehyde to watch. Therefore, to keep emissions as low as possible for a long time formaldehyde-free binders, for example based on isocyanate, in particular polymeric diphenylmethane diisocyanate (PMDI) used. Thus both the permitted emission limit values could be determined according to the test chamber method, far below, as well as the content of free formaldehyde, determined by the perforator method, far below the legal Limit values of 8 mg / 100 g dry sample are lowered.

So far, it has been assumed that the selection of the type of wood for compliance with the formaldehyde values according to the perforator method, compared to the choice of binder, only a minor Role play. The choice of wood was determined exclusively by regional occurrence on the one hand and the required mechanical technological Requirements for the OSB board on the other hand. Depending on the possibilities The wood species were spruce and pine in particular in Europe and the wood species poplar especially in USA and Canada used.

Starting from the previously described The prior art is based on the object of the present invention to develop an OSB board of the type mentioned above, that the emission behavior is further improved without compromising on the mechanical properties of the OSB board in purchasing to have to take.

According to the invention, the previously derived and set forth problem solved in that the strands at least a layer with a formaldehyde-free binder are provided and consist of one or more of the species of wood coming from the Group selected which includes birch, alder, linden, willow and poplar.

It has surprisingly been found that the choice of wood species under certain conditions, namely at the use of a formaldehyde-free binder, very well a has a significant influence on the aforementioned emissions. So will by combining a formaldehyde-free binder with strands from birch, alder, linden, willow and / or poplar wood a particular good emission behavior achieved.

It turned out that in a multi-layered plate, especially in a 3-layered plate already then a significant improvement in emission behavior occurs, if only one of the stretches of Birken-, Erlen-, Linden-, Willow and / or poplar wood, with a formaldehyde-free binder are provided. It is particularly advantageous, although the other layers Strands, which provided with a formaldehyde-free binder are.

In a multilayer, in particular 3-layer, OSB board, it is also advantageous if the strands of each Location consist of birch, alder, linden, willow and / or poplar wood.

According to another preferred embodiment it is envisaged that the formaldehyde-free binder is a binder isocyanate-based. In particular, as a binder PMDI be used.

According to an alternative embodiment can also be provided that the beaches of adjacent layers of each consist of different types of wood. So, for example the middle class exclusively Strands of alder and the two outer layers excluding strands made of birch.

Especially low in emissions and therefore also in particular for the Automotivbereich suitable is an OSB board, if after the perforator method the content of formaldehyde based on 100 g dry mass less than 3.0 mg and in particular less than or equal to 2.5 mg. An OSB board is also particularly low in emissions, if by the bottle method the content of formaldehyde based on 1 kg dry matter less than 3.0 mg and in particular less than or equal to 1 mg. Also according to the invention be provided that according to the gas analysis method of formaldehyde content the OSB plate is less than 90 μgC relative to 1 g dry matter, and in particular less than or equal to 60 μgC is. In the end it is an advantage if the OSB board has a fogging test after the fogging test Mass of condensables less than 4.2 mg and especially less than or equal to 4 mg.

Furthermore, the previously derived and indicated object by a component for use in a vehicle, in particular a car, truck, bus, rail vehicle, ship or aircraft, solved under Others includes one or more of the previously described OSB plates.

The object of the invention is also achieved by a component for use in a piece of furniture, in particular a cabinet, comprising at least one OSB board, the board as before is formed described.

The task is also solved by a component for use in an interior, in particular as Cladding a wall comprising at least one OSB board, wherein the Plate is formed as described above.

Finally, the object of the invention also by a piece of furniture, in particular a cabinet, solved with at least one OSB board, being the plate is formed as described above.

In the drawing shows the only one Figure the layer structure of an embodiment of a low emission according to the invention OSB board.

Example 1 (prior art):

From debarked tree trunks were dried beaches for the two outer layers and the middle layer are made. The Beaches for the outer layers were treated with commercial binder based on Melamine-urea-phenol-formaldehyde (MUPF) and the strands for the middle layer with formaldehyde-free PMDI. Subsequently a 3-layer OSB board was made from the three layers, the strands in the individual layers being oriented in the same way were as the strands of the embodiment of the invention described above. The weight percentages of topcoat to middlecoat were about 1: 1.

The molding thus obtained was in a Contiroll press to a solid endless plate by action compressed by pressure and temperature, then separated into formats and after cooling stored in stacks in the star turners. The test results are in table 1 quoted.

Example 2 (prior art):

A plate was analogous to example 1 and the embodiment of the invention manufactured. Instead of the type of pine wood, the wood was spruce used and instead of MUPF as a binder was exclusively PMDI used. The test results are listed in Table 1 ,

embodiment 1 (invention):

According to the invention shown in the single figure embodiment of an OSB board 1 three layers 2 . 3 and 4 of bindered and pressed strands. Every situation 2 . 3 and 4 It consists of a mixture of 50% birchwood strands and 50 alderwood strands. The binder used is PMDI, which is formaldehyde-free.

The previously described OSB board 1 exhibits a particularly good emission behavior for formaldehyde, organic constituents, odor and condensable constituents, as a comparison with the preceding examples from the prior art shows. The test results are shown in Table 1.

embodiment 2 (invention):

A plate became analogous to the embodiment 1 produced. However, instead of the wood species birch and Alder used the wood species of willow, poplar and linden in equal parts. The test results are in Table 1.

embodiment 3 (invention):

A plate became analogous to the embodiment 1 produced. As wood species came for the outer cover layers and the middle layer different woods for use. The weight ratio Middle layer: Top layer is 1: 1. The ratio of the strands in the cover layers Alder: Birch is 1: 1. The relationship the strands in the middle pine: spruce is also 1: 1. The test results are shown in Table 1.

embodiment 4 (invention):

A plate became analogous to the embodiment 3 produced. For The individual layers of the plate were used different types of wood namely the type of wood birch for the top layers and for the middle layer a mixture Alder: Willow: linden in the relationship 4: 2: 1. The test results are shown in Table 1.

embodiment 5 (invention):

In contrast to the previous embodiments a single-layered plate was produced. The beaches were to without a certain orientation, a so-called "random" scattering. Due to production, but results in a slightly preferred orientation in plate production direction. The beaches are made of a mixture from birch and alder. The test results are shown in Table 1.

embodiments 6 and 7 (invention):

The plates were attached to the embodiment 1, but the thickness of the plates was varied (25.1 mm or 8.0 mm). The test results are shown in Table 1.

The values given in Table 1 for the Formaldehyde content, the content of organic ingredients, the Odor and the content of condensable constituents are averages, which were calculated from ten individual values each.

As Table 1 shows, could only with the wood species combination alder and birch the emission behavior on be brought to a low level. The thickness, density and number the beach locations and the orientation of the beaches have no influence on the beach Emission behavior.

Claims (13)

Low-emission OSB board ( 1 ), in particular for use in the automotive sector, in the furniture industry rich or indoors from one or more layers ( 2 . 3 . 4 ) of bindered and pressed strands, characterized in that the strands of at least one layer ( 2 ; 3 ; 4 ) are provided with a formaldehyde-free binder and consist of one or more of the wood species selected from the group comprising birch, alder, linden, willow and poplar. Low-emission OSB board ( 1 ) according to claim 1, characterized in that the plate is multi-layered, in particular 3-ply, and the strands of each layer ( 2 . 3 . 4 ) are provided with a formaldehyde-free binder. Low-emission OSB board ( 1 ) according to claim 1 or 2, characterized in that the plate is multi-layered, in particular 3-ply, and the strands of each layer ( 2 . 3 . 4 ) consist of one or more of the wood species selected from the group comprising birch, alder, linden, willow and poplar. Low-emission OSB board ( 1 ) according to any one of the preceding claims, characterized in that the formaldehyde-free binder is an isocyanate-based binder, in particular polymeric diphenylmethane diisocyanate (PMDI). Low-emission OSB board ( 1 ) according to one of the preceding claims, characterized in that the strands of adjacent layers each consist of different types of wood. Low-emission OSB board ( 1 ) according to any one of the preceding claims, characterized in that the content of formaldehyde, determined by the perforator method is less than 3.0 mg, in particular less than or equal to 2.5 mg, based on 100 g dry matter. Low-emission OSB board ( 1 ) according to one of the preceding claims, characterized in that the content of formaldehyde, determined by the bottle method less than 3.0 mg, in particular less than or equal to 1 mg, based on 1 kg dry matter, is. Low-emission OSB board ( 1 ) according to one of the preceding claims, characterized in that the content of organic constituents, determined by the gas analysis method, is less than 90 μgC, in particular less than or equal to 60 μgC, based on 1 g dry matter. Low-emission OSB board ( 1 ) according to one of the preceding claims, characterized in that the mass of condensable constituents determined by the fogging test is less than 4.2 mg, in particular less than or equal to 4 mg. Component for use in a vehicle, in particular a passenger car, truck, bus, rail vehicle, ship or aircraft, comprising at least one OSB board ( 1 ), characterized in that the plate ( 1 ) is designed according to one of the preceding claims. Component for use in a piece of furniture, in particular a cabinet, comprising at least one OSB panel ( 1 ), characterized in that the plate ( 1 ) is designed according to one of claims 1 to 9. Component for use in an interior, in particular as a lining of a wall, comprising at least one OSB board ( 1 ), characterized in that the plate ( 1 ) is designed according to one of claims 1 to 9. Furniture, in particular a cabinet, having at least one OSB panel ( 1 ), characterized in that the plate ( 1 ) is designed according to one of claims 1 to 9.