SE463909B - YTTERVAEGGELEMENT VAESENTLIGEN FUKTOGENOMTRAENGLIG comprising a membrane that acts as AANGSPAERR as a POLYVINYLIDENHALOGENIDHALTIGT YTBELAEGGNINGSSKIKT, ANVAENDNING OF POLYVINYLIDENHALOGENIDHALTIG YTBELAEGGNINGSDISPERSION AS AANGSPAERR SAETT AND PROGRAM TO BE FOERHINDRA VATTENAANGA TRAENGA INTO A YTTERVAEGGKONSTRUKTION - Google Patents

Description

465 909 2 elements, which have a vapor barrier that acts as a vapor barrier membrane, which is substantially moisture impermeable and not becomes brittle as it ages, but on the contrary becomes increasingly dense.

The main features of the invention appear from attached claims.

Advantageous embodiments appear from the subclaims.

The thickness of the coating layer is suitably 30-300 um, e.g. about 160 pm. The coating layer can also spread on the edges of the outer wall element.

As additives one can use solvents, such as glycol ethers, thickeners, such as for example polyurethane thickeners, wetting agents, such as e.g. polyethylene oxide, foam inhibitors, such as e.g. silicone oil, pH- regulators, such as e.g. ammonia, as well as preservatives agents, such as e.g. 1,2-benzisotiatsolin-3-one, and as pigments can be used for example talc.

An aqueous dispersion is suitably used as binder of polyvinylidene chloride, containing about 60% by weight polyvinylidene chloride.

The present invention also relates to a method for to prevent water vapor from penetrating the wall structure by on the side of the inner coating plate, which faces towards the warmer space, spread a polyvinylidene halide nid, preferably a lacquer layer containing 10-60% by weight polyvinylidene chloride plus any additives and pigments ment. Suitably 100-500 g of varnish per m2 of outer wall element.

With a lacquer dispersion according to the present invention all kinds of surfaces can be treated, such as plaster, styrox, plastic, wood and especially building board surfaces. The coating varnish according to The present invention is particularly useful in the treatment of chipboard, as it does not only impede water steam to penetrate from the warmer space into the chipboard, whereby in the chipboard no deformation occurs due to of moisture, but at the same time prevents the emission of formaldehyde from the chipboard to the living space. Also chipboard edges can be treated with the coating varnish dispersion according to the invention, wherein no special treatment of 3 J = n ~ 90 L; \ Vf) ri f ' the edges of the Spanish boards are needed. Lro The invention is explained in more detail below with using examples.

Example 1 A surface-treated and a non-surface-treated chipboard water vapor permeability was measured as follows: 12 mm thick chipboard pieces were surface treated with the following surface coating lacquer dispersion by coating the one side of the disc pieces twice so that starting from it the amount of film thickness used was about 160 microns. Subject than d Haloflex 202 (polyvinylidene chloride containing blended polymer, manufacturer ICI) 89.0 Butylethoxol (glycol ester, manufacturer Shell) 2.0 Borchigel L75 (polyurethane, manufacturer Borchers) 1.5 Synperonic PE 39/70 (copolymer of propylene oxide and ethylene oxide, which contains 70% by weight ethylene oxide, manufacturer ICE) 1.0 Polymekon 1488 (silicone oil, manufacturer Goldschmidt) 0.1 Proxel HL (1,2-benzisotiatsolin-3-one, manufacturer ICI) 0.1 Ammonia 0.3 Water 6.0 A total of 100.0 The surface-treated and non-surface-treated chipboard pieces the kena is attached with the surface-treated side outwards as a lid on vessels in which dry calcium chloride was stored. The man kept was heated at 20 ° C temperature and 70% relative humidity and the movement of the water vapor through the chipboard pieces to the vessels examined by weighing the sample vessels with approximately one weekly intervals.

The pressure difference of the water vapor between the outside of the test pieces and inner surface was 1600 Pa. The surface of those used as test pieces turned surface-treated and non-surface-treated chipboards were 78.5 cmz and the test time 28 days.

Then those with a coating varnish according to the invention treated chips and the untreated chips 909 4 was measured in terms of its permeability and resistance for water vapor, it was found that the average the water vapor permeability of the chipboard treated lacquer with coating varnish according to the invention was 0.022 g / m2 h (0.0037 x 10'9 kg / m2 s Pa) and the water vapor resistance stand 270 x 10'9 m2 s Pa / kg, then on the other hand the average water vapor permeability for an traded chipboard averaged 3.35 g / m2 h (0.582 x 10'9 kg / m3 s Pa) and water vapor resistance 1.7 x 109 m2 s Pa / kg. The permeability of the chipboard to water vapor, which treated with coating varnish according to the invention var thus noticeably lower compared to the untreated the chipboard and the water vapor resistance in a corresponding manner higher.

Example 2 The emission of formaldehyde was determined with a chipboard treated with coating varnish according to Example 1 and the results were compared with the emission of formaldehyde as obtained from untreated Spanish slices.

Of the chipboards, eight were 400 x 600 x 12 mm in size pieces, four of which were painted on both sides with surface coatings twice according to the invention, wherein the laying amount was a total of 300 1 10 g / m2. The discs were allowed to dry for a couple of weeks, after which their edges was protected with paraffin.

The test plates were placed in 0.12 m3 large metal boxes, which air exchange factor was about 0.5 h'1, implying that on one hour, about half of the box's air volume is replaced. The air temperature was 20 ° C and the relative humidity 85%.

The formaldehyde content was determined after 7 days in the box air, the load in the drawers was 16 m2 / m3.

The discs were stored for six months in a storage room, during which time the determination was renewed twice. The records emission of formaldehyde, which has been treated with coating varnish according to the invention, was 0.11 mg / m 3 and after three months re-determination was obtained 0.09 mg / m3 and three months after the previous 0.05 mg / m3. The untreated skis the corresponding result was 1.04 mg / m3 and after .new 5 fiöš 909 new measurement 0.91 mg / m3 and 3 months after the previous one measurement 1.11 mg / m3.

From the previous example it is thus clear that the surface the coating varnish according to the invention can be used as a internal diffusion barrier instead of a wide wall construction commonly used polyethylene film.

Example 3 The relative humidity of the indoor air varies between different seasons, but stays in practice between 30 and 70%.

Therefore, in the case of ordinary untreated wooden boards, deformation occurs. rings as the discs shrink and expand.

By treating chipboard or other construction materials wood material with a coating varnish according to the invention the procedure described in Example 1, they can deform which is brought about by the annual changes in conditions on material that is subject to changes in the relative the humidity and temperature are made to be slower and reduced, thereby improving the usability of the material creates.

When the surface coating varnish according to the invention was applied the surface of the chipboard twice, the surface between the allowed to dry, the shrinkage change of the disc decreased to about 25% of an unformed chipboard shape after two months while the temperature was + 20 ° C and they controlled conditions changed from 95% and 70% to 45% relative humidity. By treating the edges of the discs with a coating varnish according to the invention these can shape changes are further reduced.

A chipboard, which has been treated with coating varnish according to the invention, becomes extremely water-repellent, whereby the weight increase of the disc decreases with water spraying, and is only 7-15% of the weight gain of a comparison disc.

Claims (11)

909 6 Eatentkrav Outer wall element, comprising a substantially moisture-impermeable membrane which acts as a vapor barrier, characterized in that the vapor-barrier moisture-impermeable membrane is a polyvinylidene halide-containing coating layer with a thickness of 50-300 μm, which is spread on the outer wall in liquid form. facing the warmer space delimited by the outer wall element. Exterior wall element according to Claim 1, characterized in that the surface coating is also spread on the edges of the outer wall element. Exterior wall element according to Claim 1 or 2, characterized in that the coating layer contains polyvinylidene chloride. Exterior wall element according to one of the preceding claims, characterized in that the thickness of the coating layer is 160 μm. The use of polyvinylidene halide-containing coating dispersion as a vapor barrier on the side of an outer wall element facing the warmer space. Use according to claim 5, characterized in that polyvinylidene chloride dispersion is used and suitably an aqueous dispersion containing 10-60% by weight of polyvinylidene chloride and any additives. A method of preventing water vapor from penetrating into an outer wall structure by arranging on one surface of an interior wall forming part of an outer wall structure a substantially moisture-impermeable membrane, characterized in that on the side of the interior plate facing the outer wall constructor a liquid coating layer containing polyvinylidene halide is applied. 8. A method according to claim 7, characterized in that a coating layer containing polyvinylidene chloride is spread on the side of the interior panel facing the warmer space. 9. A method according to claim 8, characterized in that a water dispersion containing 10-60% by weight of polyvinylidene chloride and any additives is spread on the side of the interior plate facing the warmer space. 10. A method according to claim 7, 8 or 9, characterized in that 100 - 500 g / m2 of coating is spread on the side of the interior panel facing the warmer space. Method according to one of Claims 7 to 10, characterized in that the surface coating is also spread on the edges of the interior panel. --- ooo0ooo ---