RU2671721C1 - Sound-absorbing elastomeric foam material - Google Patents

Abstract

FIELD: construction.

SUBSTANCE: invention relates to field of construction, in particular, insulation materials for thermal and sound insulation with high mechanical strength, ensuring the integrity of the structure. Sound absorbing elastomeric foam material contains components in the following ratio, wt %: foam elastic polymer based on nitrile rubber 84.5–78.3; an isocyanate adhesive 9–11.5; a barite weighting agent 1.5–2; water 5–8.2. Foam elastic polymer based on nitrile rubber with open cell content of not more than 50 % with a particle size of 6–10 mm is mixed at ambient temperature in a drum mixer with the isocyanate glue and barite weighting agent. Resulting mass is sprayed with water and pressed in a form at a pressure of 18–20 MPa.

EFFECT: improved vibration-insulating, sound-insulating and heat-insulating properties.

5 cl, 6 ex

Description

The invention relates to the field of construction, and also to pipeline technology, in particular to insulating materials for thermal and sound insulation with high mechanical strength, ensuring structural integrity.

Known elastomeric foam materials having the properties of acoustic insulation and damping, made on the basis of foam materials with open and closed cells - US 2013291984 (A1), 2013, EP 2351891 (A1), 2011, US 2010179236 (A1), 2010 g., and also with the content of the isocyanate component - US 6080800 (A), 2000

The closest analogue can be considered vibration-insulating, sound-insulating and heat-insulating material containing granules bonded together by glue with the formation of a porous structure - RU 2507180 C1, 2014

All the materials indicated in the analogues having good acoustic properties do not contain a specific material composition, which, when used in construction and pipeline technology, can have high sound insulation parameters achieved by good sound absorption, high mechanical strength and at the same time retain other necessary characteristics for granted level, for example, density, breathability, etc.

In this regard, the technical task of the invention is the creation of a material with a high sound insulation performance while maintaining the necessary characteristics for its use as a sound-absorbing material with a high density.

This problem was solved by the use of sound-absorbing elastomeric foamed material containing a foamed elastic polymer crushed into particles with a size of 6-10 mm and a polymer-based adhesive, in which a foamed elastic polymer based on nitrile rubber with an open cell content of not more than 50% and mixed in the future was used ambient temperature in a drum mixer with isocyanate adhesive and an additionally introduced barite weighting agent with irrigation of the resulting mass with water and pressing in the form at a pressure of 18-20 MPa with a content of components, wt.%:

foamed elastic polymer

based on nitrile rubber - 84.5 - 78.3

isocyanate adhesive - 9 - 11.5

barite weighting agent - 1.5 - 2

water - 5 - 8.2

The material involves the following improvements in its production:

 - as a foamed elastic polymer based on nitrile rubber, technological residues and / or scraps of production of heat-insulating products can be used;

- crushing of the foamed elastic polymer based on nitrile rubber is carried out on a shredder type grinder;

- after pressing, the material is maintained at ambient temperature for 2-3 weeks;

- when pressing in a mold, rigid cardboard is used as a release material, which allows to obtain a product that is uniform in density and uniform in geometric dimensions.

Variation of the ratio in the material of cells with a closed and open structure is achieved by obtaining particles of 6-10 mm in size from foamed elastic heat-insulating materials based on nitrile rubber.

In this case, residues and scraps that are formed during the production of heat-insulating products (pipes and sheets) can be used.

A change in the mass percent of the components leads either to an increase in mass and, consequently, to an increase in the sound insulation parameter, or to a change in the content of open cells and, consequently, in a change in the sound absorption parameter.

When the particle size is less than 6 mm, the material becomes dense and less breathable, which is unfavorable for sound absorption; when the particle size is more than 10 mm, the material becomes brittle.

The indicated particle size contains a different percentage of open and closed cells; the content of open cells should be no more than 50%. This quantity can be measured in accordance with ASTM D6226-05.

The use of foamed elastic thermal insulation materials based on nitrile rubber with an open cell content of more than 50% is not recommended due to a significant reduction in sound insulation due to weight reduction.

In the production of the material, a foamed elastic polymer based on nitrile rubber is used in the range of 84.5 - 78.3 wt.%, Because a decrease in the lower limit will lead to a decrease in sound insulation, and exceeding the upper limit will lead to a decrease in sound absorption.

The introduction of isocyanate glue - a prepolymer based on diphenylmethanediisocyanate (MDI) of less than 9 wt.% Will lead to a loss of mechanical strength of the material, as a result of exceeding the content of isocyanate glue over 11.5 wt.% There will be a decrease in the content of open cells, affecting sound absorption.

Barite weighting agent Ba SO ₄ is used in the composition to increase its mass density at the indicated boundaries of the remaining components. The decrease in barite weighting agent below 1.5 wt.% Will entail the deterioration of soundproofing properties due to a decrease in mass density; exceeding the amount of barite weighting agent in excess of 2 wt.% will lead to a decrease in sound absorption efficiency due to a decrease in the content of open cells, as well as to a decrease in mechanical strength.

 Water is necessary for the activation process of isocyanate glue when it begins to exhibit adhesive properties.

The indicated range is determined by the content of isocyanate glue in the mass: when the content in the mass of water is less than 5 wt.% And when the content of isocyanate glue is high, the component will not fully activate: the final product will crumble if the water content is increased in excess of 8.2 wt.% At a low content of isocyanate glue, excessive wetting of the mass will occur, which will lead to an increase in the exposure time of the material until optimal physical and mechanical properties are achieved.

The specified combination of components with the applicable range of their content reaches the final density of the material 160-280 kg / m ³ . With an increase in the density of the material, the sound absorption efficiency decreases, and a decrease in the density leads to a loss of stability of the physical and mechanical properties of the material, i.e. bonding quality deteriorates and the material becomes brittle under its weight.

The combination of a sufficiently high density and breathability in one material makes it possible to realize such acoustic properties as sound insulation, which is characteristic of dense, heavy materials, and sound absorption, which is characteristic of open-pore breathable structures. Sound insulation is evaluated by the airborne sound insulation index of the material, R _w, measured in accordance with UNI EN ISO 717-1: 2007 “Rating of sound insulation in buildings and buildings elements - Part 1: Airborne sound insulation”. Sound absorption is estimated by the weighted sound absorption coefficient α _w measured according to GOST 31705-2011, EN ISO 11654: 1997. “Sound-absorbing materials used in buildings. Sound absorption rating. "

In the manufacture of the material, a well-known set of devices is used.

Crushing of a foamed elastic polymer based on nitrile rubber to the required particle size is carried out on a shredder-type grinder using a lattice configuration depending on the density of the final product.

 The particles of the foamed elastic polymer based on nitrile rubber and isocyanate glue are mixed in a drum mixer at ambient temperature.

After unloading the resulting mass from a drum mixer, it is loaded into a mold, irrigated with water as an activator of curing isocyanate glue. The mold is designed in accordance with the desired geometry of the final molded product. The degree of filling of the form is adjusted in accordance with the desired thickness of the future product. For elastomeric foam plates, a simple box shape can be used; when pressing in a mold, rigid cardboard can be used as a release material, which allows to obtain a product that is uniform in density and uniform in geometric dimensions.

Pressing is carried out at a pressure of 18-20 MPa. This pressure range is a process parameter set at the beginning of the production process. When it is changed, the density of the final product, as well as its sound insulating and sound-absorbing properties, are not achieved, due to the recipe.

To cure the adhesive composition and achieve stable geometric dimensions of the material, after the mold, the polymer composition is maintained at ambient temperature for 2-3 weeks.

The thickness, length and width of the final molded product can vary within wide limits, limited by the size and locking force of the mold. The thickness of the foam plates is usually from 1 to 500 mm, more often from 10 to 50 mm.

Examples of various compositions of elastomeric foam material are given upon receipt of the most used material in construction 25 mm thick.

A change in the insulation index R _{w of the} airborne noise of the material by 1 dB can significantly reduce the noise sensation, therefore, examples of obtaining a material of the same thickness are given as an illustration of the criterion for changing acoustic properties with a change in composition.

Example 1

To obtain a material with a thickness of 25 mm with a density of not less than 160 kg / m ³ , with an open cell content of not more than 50%, 84.5 wt.% Foamed elastic polymer based on nitrile rubber with a particle size of 10 mm, isocyanate glue - a prepolymer based on diphenylmethanediisocyanate (MDI) - 9 wt.%, weighting agent BaSO ₄ - 1.5 wt.%, water - 5 wt.%.

The weighted sound absorption coefficient α _w is 0.65 in combination with the airborne sound insulation index of the material, R _w = 11 dB.

Example 2

To obtain a material 25 mm thick with a density of not less than 160 kg / m ³ , with an open cell content of not more than 40%, 84 wt.% Foamed elastic polymer based on nitrile rubber with a particle size of 10 mm, isocyanate glue - prepolymer on based on diphenylmethanediisocyanate (MDI) - 9 wt.%, weighting agent BaSO ₄ - 2 wt.%, water - 5 wt.%.

The weighted sound absorption coefficient α _w is 0.45 in combination with the airborne sound insulation index of the material, R _w 12 dB.

  Example 3

To obtain a material with a thickness of 25 mm with a density of not less than 200 kg / m ³ , with an open cell content of not more than 50%, 84.5 wt.% Foamed elastic polymer based on nitrile rubber with a particle size of 6 mm, isocyanate glue - a prepolymer based on diphenylmethanediisocyanate (MDI) - 9 wt.%, weighting agent BaSO ₄ - 1.5 wt.%, water - 5 wt.%.

The weighted sound absorption coefficient α _w is 0.60 in combination with the airborne sound insulation index of the material, R _w 13 dB.

Example 4

To obtain a material with a thickness of 25 mm with a density of at least 240 kg / m ³ , with an open cell content of not more than 50%, 81.7 wt.% Of a foamed elastic polymer based on nitrile rubber with a particle size of 6 mm, 10 wt. % of isocyanate glue - a prepolymer based on diphenylmethane diisocyanate (MDI), barite weighting agent BaSO ₄ - 1.8 wt.%, water - 6.5 wt.%.

The resulting composition has high breathability due to the presence of open-cell structure, due to which it has good sound absorption and sound insulation. The weighted sound absorption coefficient α _w is 0.55 in combination with the airborne sound insulation index of the material - R _w = 14 dB.

 Example 5

To obtain a material with a thickness of 25 mm with a density of not less than 240 kg / m ³ , with an open cell content of not more than 40%, 79.8 wt.% Of a foamed elastic polymer based on nitrile rubber with a particle size of 6 mm, isocyanate glue - prepolymer based on diphenylmethane diisocyanate (MDI) - 10 wt.%, weighting agent BaSO ₄ - 2 wt.%, water - 8.2 wt.%.

The weighted sound absorption coefficient α _w is 0.45 in combination with a material airborne sound insulation index R _w 16 dB.

Example 6

To obtain a material with a thickness of 25 mm with a density of not less than 280 kg / m ³ , with an open cell content of not more than 40%, 78.3 wt.% Foamed elastic polymer based on nitrile rubber with a particle size of 6 mm, isocyanate glue - a prepolymer based on diphenylmethane diisocyanate (MDI) - 11.5 wt.%, BaSO ₄ weighting agent - 2 wt.%, water - 8.2 wt.%.

The weighted sound absorption coefficient α _w is 0.40 in combination with the airborne sound insulation index of the material, R _w 18 dB.

Thus, by changing the content of the components of the material, the particle size of the foamed elastic polymer based on nitrile rubber, followed by pressing in the mold at a pressure of 18-20 MPa, it is possible to change the soundproofing properties of the material with minor changes in sound absorbing properties.

As a result, the proposed material is simultaneously effective as soundproofing and sound absorbing material. The result of its use is to increase the vibration insulating, sound insulating and heat insulating properties.

Claims (10)

1. Sound-absorbing elastomeric foamed material containing 6-10 mm granulated foamed elastic polymer and polymer-based adhesive, characterized in that a foamed elastic polymer based on nitrile rubber with an open cell content of not more than 50% and mixed further with ambient temperature in a drum mixer with isocyanate adhesive and an additionally introduced barite weighting agent, with irrigation of the resulting mass with water and pressing in a mold at a pressure of 18-20 MPa with soda holding components, wt.%: foamed elastic polymer based on nitrile rubber - 84.5 - 78.3 isocyanate adhesive - 9 - 11.5 barite weighting agent - 1.5 - 2 water - 5 - 8.2 2. The material according to claim 1, characterized in that technological residues and / or scraps of production of heat-insulating products are used as a foamed elastic polymer based on nitrile rubber. 3. The material according to claim 1, characterized in that the crushing of the foamed elastic polymer based on nitrile rubber is carried out on a shredder type grinder. 4. The material according to p. 1, characterized in that after pressing it is maintained at ambient temperature for 2-3 weeks. 5. The material according to p. 1, characterized in that when pressing in the form as a separation material, which allows to obtain a product uniform in density and uniform in geometric dimensions, rigid cardboard is used.