DE102005031133B4 - Foam sheet with light reflection paint and its use - Google Patents

Abstract

foam sheet for thermal insulation pigment-containing and pigment-free styrene polymerization particles, wherein the foam sheet of 10 to 90 wt .-% pigmented Styrolpolymerisatpartikeln and 90 to 10 wt .-% pigment-free styrene polymer, based formed on the entire plate, characterized in that at least one area the foam plate at least partially with an antireflection coating from a coating material comprising at least one binder selected from Synthetic resin dispersion, silicone resin, potassium silicate glass, at least one white pigment and additives and additives is coated.

Description

The The present invention relates to a foam board for thermal insulation according to claim 1. The invention further relates to the use of such Foam board for thermal insulation of Buildings.

It is known in the art to form foam sheets of graphite-containing polystyrene particulate foam. In the EP 0 981 574 B1 Graphite particle-containing expandable styrene polymers and foam sheets produced therefrom are known. The essential advantage of these foam boards is the fact that the thermal conductivity is significantly reduced by the graphite contained in the polystyrene foam compared to the prior art, already also known foam boards of unpigmented polystyrene particle foam, to values below 35 mW / m · K. Thus, these foam panels made of graphite-containing polystyrene foam meet the requirements of Wärmeleitklasse 035 according to DIN 18 164, Part 1, Table 4. In practical use, it has now been shown that when these foam panels are exposed to prolonged heat radiation, an uncontrolled irreversible thermal change in shape can be done. This change in shape can have an unfavorable effect, in particular, when the panels are used for thermal insulation on the outer facade. In this case, gaps between the plates can then form at the joints due to the change in shape of the individual plates. Among other things, these gaps also lead to the formation of cracks in the case of an applied reinforcing plaster.

To avoid this disadvantage is now in the WO 2004/065468 A1 proposed to form foam sheets in such a way that they are formed from a pigment-containing and pigment-free polystyrene foam particles. It has been shown that such plates also have a thermal conductivity which is less than 35 mW / m · K, but this plate shows substantially no irreversible shape changes more, as in the plates according to the EP 0 981 574 B1 the case is.

However, since the process for producing the plates, as in the WO 2004/065468 A1 described, is very expensive, there is a need to look for alternative methods by which it is possible to produce foam plates with a thermal conductivity as described above, in which depending but also an irreversible change in shape with prolonged heat radiation is avoided.

Furthermore, from the DE 38 15 723 a fiber-reinforced thermoplastic integral foam having a density of 50 to 500 kg / m ^{3 is} known, which has a marginal zone with a thickness of 0.05 to 1.5 mm, containing 2 to 60 wt .-% reinforcing fibers.

A heat insulation material for radiators in enclosed spaces goes out of the DE 35 24 726 out. The material described therein consists of a foam, which is provided with a heat-reflecting metallic surface and is connected on the opposite side with flat, rigid or flexible material. The thermal insulation material is self-supporting and removable after use in the heating season.

From the DE 102 40 605 discloses a method for coating foams, wherein a metallization via metal evaporation, droplet formation or solid particle deposition from heated metallic sources for the production of functional and / or decorative thin or sealing layers on surfaces of components made of particle foams.

task Therefore, the present invention is a foam sheet to propose, on the one hand meets the heat conductivity 035 and the other hand at longer continuous heat radiation no irreversible change in shape having. The plate should be simple and inexpensive to manufacture be.

The The object is achieved by the characterizing features of the claim 1 solved. The dependent claims zei gene advantageous developments.

According to the invention, it is thus proposed to modify a foam sheet which is formed from pigment-containing and pigment-free polystyrene particle foam in such a way that such a sheet is provided on at least one outside at least partially with an antireflection coating. It has now been shown in experiments that foam plates, which are formed from a graphite-containing polystyrene foam, as z. B. in the EP 0 981 574 B1 described, then, when they are provided with an antireflection coating, both meet the requirements of the heat conductivity 035 and that also substantially an irreversible change in shape with prolonged heat radiation is avoided. In the case that foam plates are used, which are formed from pigment-containing and pigment-free polystyrene foam particles, it was found that here again a reduction in the shape changes is achieved with prolonged heat radiation.

The Antireflection layer as proposed according to the invention can thereby over the entire surface or also be applied partially on at least one outside. Usually the side of the foam sheet is provided with the antireflection coating, then outside, d. H. from the side facing away from the background, is applied.

When Antireflection layer can on the one hand a thin metal layer, the z. B. produced by vapor deposition, act, or in the simplest Trap a classic coating material. The coating material, the one for it is used according to the invention is based on a binder, as known in the art, d. H. z. On a synthetic resin dispersion, a silicate binder or even a potash water glass. Essential the coating material is that at least one white pigment is included, leaving a substantially bright surface coating is reached, which has good reflection properties.

In terms of the structure of the foam panels is fully substantive on the EP 0 981 574 B1 as well as the WO 2004/065468 A1 directed.

The The invention further relates to the use of the above-described Foam boards for thermal insulation of buildings or building parts.

Claims (5)

Foam board for thermal insulation of pigment-containing and pigment-free styrene polymerization, wherein the foam sheet of 10 to 90 wt .-% pigmented styrene polymer and 90 to 10 wt .-% pigment-free styrene polymer, based on the entire plate is formed, characterized in that at least one surface of Foam board at least partially coated with an antireflection coating of a coating material containing at least one binder selected from synthetic resin dispersion, silicone resin, potassium silicate, at least one white pigment and additives and additives. Foam board according to claim 1, characterized in that that the antireflection layer over the entire surface of the at least one area the foam plate is applied. Foam board according to at least one of claims 1 to 2, characterized in that the pigments of the pigment-containing Polystyrene particle foam selected are made of soot, Metal oxides, metal powders, dye pigments and / or graphite. Foam board according to at least one of claims 1 to 3, characterized in that the thermal conductivity is lowered so far, that they meet the requirements of the thermal conductivity class 035 (according to DIN 18 1649, part 1) is sufficient. Use of the foam board after at least one of the claims 1 to 4 for thermal insulation of buildings and building parts.