RU2353423C1 - Protective temperature-compensating membrane material - Google Patents

Abstract

FIELD: construction.

SUBSTANCE: invention is related to the field of membrane multilayer materials that may be used in construction. Multilayer material is suggested, comprising external screening layer from metal foil and fibrous packing material having volume density of 120-150 kg/m³ arranged of silica-alumina or glass fiber and coated on both sides with protective coating from microperforated nonwoven polypropylene or from glass tissue at surface density of coating of 50-350 g/m².

EFFECT: material has reduced deformability and reduced heat emission.

6 cl, 1 tbl, 1 dwg

Description

The present invention relates to the field of building materials, in particular to heat and sound insulating materials.

A heat-insulating product is known, including a mineral wool carpet, a reinforcing layer of fiberglass, a protective polymer coating and a metal coating, while the mineral wool carpet is connected by piercing threads to fiberglass, and the polymer material is applied in the form of granules with their subsequent melting (SU 1650441, 05.23.1991).

A disadvantage of the known product is the difficulty of manufacturing.

A known heat-insulating roll material containing a heat-insulating layer of fiberglass formed by interweaving warp and weft, and a shielding layer in the form of a metallized lavsan or aluminum foil (Certificate for Utility Model 16161, 23.08.2000).

A disadvantage of the known material is increased thermal conductivity and low sound-absorbing properties.

Known protective thermocompensating material, which can be used in construction as a membrane, containing a cushioning layer of fibrous aluminoborsilicate non-woven needle-punched fabric with a surface density of 500-2000 g / m ² , a shielding layer of dacron film, metallized on the front side, or of metal foil, this layers are connected by a heat sealable layer of polyethylene (Certificate for Utility Model 16160, 08/23/2000).

Known material has a thermal conductivity of 0.04-0.05 W / m ° C.

The task that is achieved in the invention is the expansion of the scope of use of the material by reducing its thermal conductivity and absolute deformability.

The objective is achieved by the described protective thermally compensating membrane material containing a cushioning layer of fibrous nonwoven inorganic material and a shielding layer of metal foil, in which the cushioning layer has a bulk density of 120-150 kg / m ³ , is made of aluminosilicate or glass fiber, and is coated on both sides with a protective sheath microperforated non-woven polypropylene or fiberglass with a surface density of the shell of 50-350 g / m ² .

Preferably, the shell is made of microperforated non-woven polypropylene with a surface density of 50-100 g / m ² , and of fiberglass with a surface density of 100-350 g / m ² .

Preferably, the ratio of the thickness of the cushioning layer to the thickness of the shielding layer is (500-1000): 1.

The material is mainly made in the form of a web with a thickness of 12-16 mm, and also in the form of a web rolled up.

Protective thermally compensating membrane material is shown in the drawing.

The material contains a cushion layer 1, a sheath 2, a shielding layer 3, piercing threads 4.

The proposed material is made as follows.

Aluminosilicate or glass superthin fibers are fed to the formation of mineral wool carpet of a given bulk density. On the resulting carpet from both sides impose a shell of microperforated polypropylene or fiberglass of a given surface density, served on a stitching machine and connect these parts with longitudinal and transverse seams. On one side of the sheath, a layer of aluminum foil is applied to the carpet surface and fixed with metal staples secured by a stapler.

Tables 1 and 2 show the characteristics of the claimed material.

When using the claimed material as part of a multilayer enclosing structure, where the surface of the insulation is in direct contact with air, as is the case in the air layers of ventilated facade systems, heat transfer will be reduced due to the presence of a smooth protective membrane.

The proposed material has shown high efficiency when used as a membrane material in the construction of external walls with ventilated facade systems, in the construction of roofs with an attic and soft roofs, in the roof structures of residential attics, for the manufacture of soundproof floors with a floating screed, for soundproofing partitions, walls, as well as ceilings in houses with reinforced concrete floors.

Table 1 №№ Name Dimension Value According to with TU Certification Test Average one. Dry conductivity W / m ° C ≤0.034 0,0333 2.

Thermal conductivity for operating conditions A and B

W / m ° C ≤0.036

3. Vapor permeation resistance m ² · Pa / mg ≤0.1 0,087 four. Density kg / m ³ ≤175 162.7 5. Humidity wt.% ≤1.0 0.47 6. Sorption humidity wt.% ≤1.5 1,2 7. Partial immersion water absorption about.% ≤55 49.5 8. Air permeability

m ² · Pa / kg ≥0.1

9. Heat transfer rate W / m ² ° C ≤5.0 3.97 10. Deformability during indentation (absolute deformation) mm ≤2.5 2,3 eleven. Impact Noise Reduction Index dBA ≥20 29th 12. Sound absorber class in the field of medium frequencies (400.1250Hz) the class third not specified in the field of high frequencies (1600.5000 Hz) the class second not specified 13. Dynamic modulus of elasticity at a load of 2000 N / m ² MPa ≥0.20 at a load of 5000 N / m ² MPa ≥0.26 fourteen. Combustibility class

fifteen. Flammability class

16. Smoke class

table 2 Sound absorption coefficient at frequencies (Hz) Acc. from: 125 250 500 1000 2000 4000 TU ≥0.05 ≥0.05 ≥0.1 ≥0.22 ≥0.53 ≥ 0.97 Sert. Spanish 0.05 0.05 0.1 0.22 0.54 0.98

Claims (6)

1. A protective thermally compensating membrane material containing a cushioning layer of fibrous non-woven inorganic material and a shielding layer of metal foil, characterized in that the cushioning layer has a bulk density of 120-150 kg / m ³ , is made of aluminosilicate or glass fiber and is coated on both sides with a protective sheath microperforated non-woven polypropylene or fiberglass with a surface density of the shell of 50-350 g / m ² . 2. The material according to claim 1, characterized in that the shell of microperforated non-woven polypropylene is made with a surface density of 50-100 g / m ² . 3. The material according to claim 1, characterized in that the shell of fiberglass is made with a surface density of 100-350 g / m ² . 4. The material according to claim 1, characterized in that the ratio of the thickness of the cushioning layer to the thickness of the shielding layer is (500-1000): 1. 5. The material according to claim 1, characterized in that it is made in the form of a web with a thickness of 12-16 mm. 6. The material according to claim 1, characterized in that it is made in the form of a web rolled up.