RU2517756C1 - Composition for producing rigid sputtered polyurethane foam - Google Patents

Abstract

FIELD: chemistry.

SUBSTANCE: composition contains a hydroxyl-containing compound - oxypropylethylenediamine and an ether based on propylene oxide, a catalyst - dimethylethanolamine, a foaming agent - water, a foam regulator, polyisocyanate and a fire retardant, wherein the foam regulator is a surfactant based on non-hydrolysable silica gel copolymer; the composition further contains an ether based on ethylene oxide with ethylene glycol, a fire retardant in form of trichloropropyl phosphate and a mixture of catalysts - triethylenediamine/dipropylene glycol, pentamethyldiethylenetriamine, with the following ratio of components, wt%: oxypropylethylenediamine 7-12; ether based on propylene oxide 7-9; ether based on ethylene oxide with ethylene glycol 7-9; dimethylethanolamine 1-1,2; triethylenediamine/dipropylene glycol 1.3-1.5; pentamethyldiethylenetriamine 2.8-3; trichloropropyl phosphate 10-12; water 5.2-5.4; non-hydrolysable silica gel copolymer 1.1-1.2; polyisocyanate 50.1-53.1.

EFFECT: improved physical and mechanical properties of the rigid sputtered polyurethane foam, low density, heat-conductivity, water absorption and start time which is sufficient to form a quality foamed article with uniform density in the volume.

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Description

The invention relates to the chemistry of sprayed rigid polyurethane foams (PUF) for heat and waterproofing purposes, used for sealing building structures (roofs, walls and floors), for arranging refrigeration chambers, for thermal insulation of pipelines, etc.

The use in industry of hard PUFs obtained by spraying allows one to obtain a seamless heat and waterproofing coating of any thickness on vertical or horizontal surfaces, which is widely used for sealing building structures (roofs, walls, floors of industrial and residential buildings), for equipping cold rooms, for thermal insulation of pipelines, tanks and other objects with different temperature operating conditions.

Sprayed systems are characterized by a quick start and a short period of time during which the system loses fluidity. Such reaction kinetics in combination with good adhesion does not allow foam to drain even from vertical surfaces.

A known composition for the production of sprayed polyurethane foam according to patent SU 1812187 A1 from 04/30/93, IPC C08G 18/32. "Composition for obtaining a hard sprayed polyurethane foam", comprising the following components, parts by weight:

VAT residue tetrahydrofuryl alcohol 40-50 Oxypropylated Xylitol 7-13 Oxypropylated Ethylenediamine 10-16 N, N-dimethylcyclohexylamine 5-3.0 Surface-active substance 0.7-1.1 Water 1.0-1.5 Freon 11 4-8 Trichloroethyl phosphate 15-24 Polyisocyanate 108-137

The known composition has a low start time (4-6 s), sufficient to obtain high-quality PUF coating by spraying, however, its disadvantage is the use of an ozone-depleting chlorofluoroalkane (freon) as a blowing agent.

Known composition according to patent RU 2010808 from 04/15/1994, IPC C08G 18/18, C08G 101/00, consisting of the following components, parts by weight:

Propylene Oxide Simple Polyester (Laprol) 74-76 Oxypropylethylenediamine (Lapromol 294) 24-26 Catalyst (dimethylethanolamine) 0-1.5 Foam regulator (CEP-2) 9-1.1 Water 2.3-2.8 Trichlorofluoromethane 21 Polyisocyanate 170

The disadvantage of the obtained rigid foam is a long start time, which leads to the draining of the foaming mass from vertical surfaces, thereby not ensuring an even and uniform foam layer after hardening and, accordingly, significantly limits the field of application of the final foam.

Closest to the claimed composition in composition and technical nature is a composition for producing sprayed rigid polyurethane foams, according to the patent of the Russian Federation No. 2350629 of 12/18/2007 (the closest analogue).

The composition includes a hydroxyl-containing compound — hydroxypropylethylenediamine and a propylene oxide-based ether, a catalyst — dimethylethanolamine, a blowing agent — water, a foam regulator, and a polyisocyanate. It contains a surfactant based on oxyalkylenemethylsiloxane block copolymers as a foam regulator; in addition, trichloroethyl ether phosphate complex catalyst - tin octoate, sodium acetic acid, triethanolamine and a solution of catalytically active salts in glycols, as follows m ratio of components, wt.%:

Hydroxypropylethylenediamine 1,5-3,5 Propylene Oxide Polyester 1.0-3.0 Dimethylethanolamine 5-13 Water 3-13 Based Surfactant oxyalkylenemethylsiloxane block copolymers 0.5-2.0 Trichloroethyl phosphate 25-35 Tin Octoate 0.1-1.0 Sodium Acetate 3-8 Triethanolamine 2-6 The solution of catalytically active salts in glycols 5-12 Polyisocyanate 5-40

The objective was to obtain polyurethane foams in an environmentally friendly flame-retardant composition for producing sprayed hard polyurethane foams having a low start time, high density and strength.

The disadvantage of the composition is that the catalytic mixture is introduced immediately before use, and not at the manufacturer's factory, which is impractical, since the introduction of an inaccurate amount of the catalytic mixture in component A leads to a catalysis disorder of the gel reaction, which is usually characterized by “tired” foams a large number of closed pores, which is associated with an overdose of tin octoate, and the appearance of a large number of small pores of extremely high open porosity and a simultaneous decrease in tensile strength ryv indicates lack of stannous octoate in a formulation, moreover, uneven mixing of the catalyst component of the mixture and may lead to inhomogeneity of the product obtained and, consequently, to a loss of quality.

As a disadvantage of the polyurethane foam analogue, its high density can also be noted, since the higher the density, the lower the thermal insulation characteristics.

The technical task of the invention is the creation of an environmentally friendly flame retardant composition for producing sprayed rigid polyurethane foams with improved physical and mechanical properties: strength, reduced density, thermal conductivity and water absorption and start time sufficient to form a high-quality foam product with a uniform density in volume.

The technical result is achieved due to the fact that the composition for producing sprayed rigid polyurethane foams includes a hydroxyl-containing compound - hydroxypropylethylenediamine and ether based on propylene oxide, a catalyst - dimethylethanolamine, a blowing agent - water, a foam regulator and polyisocyanate, a flame retardant, while containing a surface-regulating agent active substance based on non-hydrolyzable silica gel copolymer, additionally contains an ether based on ethylene oxide with ethylene glycol, as ntipirene trichloropropyl phosphate and a mixture of catalysts - triethylene diamine / dipropylene glycol, pentamethyldiethylene triamine in the following ratio, wt.%:

Hydroxypropylethylenediamine 7-12 Propylene Oxide Ether 7-9 Ethylene Oxide Ethylene Glycol Ether 7-9 Dimethylethanolamine 1-1,2 Triethylenediamine / Dipropylene glycol 1.3-1.5 Pentamethyldiethylenetriamine 2.8-3 Trichloropropyl phosphate 10-12 Water 5.2-5.4 Non-hydrolyzable silica gel copolymer 1.1-1.2

The technical result consists in improving the physical and mechanical properties of a hard sprayed polyurethane: reduced heat conductivity and water absorption and maintaining a fairly quick start time.

To implement the claimed invention, the following components are used.

Polyester polyols are used as hydroxyl-containing compounds: oxypropylethylenediamine - the product of the interaction of propylene oxide with an aqueous solution of ethylene diamine, having a hydroxyl number in the range of 729-800 mg KOH / g and a dynamic viscosity at a temperature of 50 ° C in the range of 1500-2000 mPa s - Lapromol 294 ( TU 226-010-10488057-94) and polyether based on propylene oxide with glycerin - Laprol 373 (TU 2226-017-10488057-94) or Propol 490, as well as polyether based on ethylene oxide with ethylene glycol - PEG-400.

To stabilize the cellular structure during foaming, a foam regulator is used - a surfactant based on a non-hydrolyzable silica gel copolymer - DABCO DC 5604.

To ensure optimal start time and crosslinking (curing) speed, a number of catalysts are used in the composition: dimethylethanolamine, triethylene diamine / dipropylene glycol and pentamethyldiethylene triamine.

To impart flame retardant properties to the finished foam, a flame retardant (fire extinguishing additive) trichloropropyl phosphate (THPF) is introduced into the composition of the invention.

The polyisocyanate used is an aromatic polyisocyanate according to TU 113-03-38-106-90 - polymer 4,4'-diphenylmethane-diisocyanate (MDI) or their analogues used in the production of rigid polyurethane foams

As a chemical blowing agent, the most suitable and environmentally friendly component is water, which ensures the formation of polyurethane foam.

The inventive composition for producing a sprayed polyurethane foam consists of component A, including a catalytic mixture, and component B. Component B is a polyisocyanate.

Component A is produced in the reactor by mixing successively introduced hydroxyl-containing compounds: Lapromol 294 (hydroxypropylethylenediamine - the product of the interaction of propylene oxide with an aqueous solution of ethylene diamine), Laprol 373 (polyether based on propylene oxide and glycerol), PEG-400 (simple based on ethylene oxide with ethylene glycol) and modifying additives: THPF (trichloropropyl phosphate), catalysts (dimethylethanolamine, a mixture of triethylene diamine and dipropylene glycol and pentamethyldiethylene triamine), foam regulators (non-hydrolyzable silica gel copolymer), water at atmospheric pressure without using heating for 45 minutes.

The mixing order of these compounds from the point of view of the final properties of the composition does not matter.

A method of obtaining a sprayed hard polyurethane foam consists in mixing components A and B in a spraying unit. The compositions were sprayed at a ratio of component A to component B of 1: 1.

The claimed limits of the ratios between the components of the composition are determined experimentally and are optimal from the point of view of obtaining a composition suitable for creating a sprayed rigid polyurethane foam product with thermal insulation, with good performance.

The technical nature of the invention is illustrated by the following experimental data.

Table 1 shows the formulations of the compositions.

Table 1 Composition components The content of the components in the composition Examples of specific performance (wt.%) one 2 3 Oxypropylethylenediamine - the product of the interaction of propylene oxide with an aqueous solution of ethylene diamine (Lapromol 294) 7 9 12 Propylene Oxide Polyester with Glycerin - (Laprol 373) 9 8 7 Simple ethylene oxide-based polyester with ethylene glycol - (PEG-400) 9 9 7 Dimethylethanolamine 1,1 one 1,2 Triethylenediamine / Dipropylene glycol 1.4 1,5 1.3 Pentamethyldiethylenetriamine 3 2,8 2.9 Trichloropropyl phosphate 10 eleven 12 Water 5.2 5,4 5.3 Non-hydrolyzable silica gel copolymer (DABCO DC 5604) 1,2 1,1 1,2 Polyisocyanate 53.1 51,2 50.1

Table 2 shows the qualitative characteristics of rigid polyurethane foams obtained on the basis of the proposed compositions, in comparison with the prototype.

The quality characteristics of the sprayed polyurethane foam were determined by the following methods:

1) Building materials. Combustibility test methods GOST 30244-94 with article id 521.phtm.

2) The method for determining thermal conductivity and thermal resistance under stationary thermal conditions GOST 7076-87.

3) Methods for determining tensile strengths in compression and bending GOST 8462-85 or GOST 30732-2006 30732-2006.pdf.

4) Steel pipes and fittings with thermal insulation from polyurethane foam in a polyethylene sheath. GOST 30732-2001.

5) Steel double-layer steel coatings for buildings with polyurethane foam insulation. GOST 24524-80 or GOST 30732-2006 30732-2006.pdf.

table 2 Properties of hard sprayed polyurethane foam products unit of measurement Prototype The compositions of table 1, for examples one 2 3 Start time from 2-4 3 2 four Density (in core) kg / m ³ 54-65 36 39 37 Compressive strength N / mm ² 0.51-0.62 0.18 0.19 0.18 Closed Cell Content % - 95 97 96 Water absorption after 7 days % - 5 3 four Thermal conductivity W / (m · C) - 0,028 0,026 0,025 Fire rating - GZ GZ GZ

The inventive composition of a hard sprayed polyurethane foam is characterized by a start time sufficient to form a high-quality foam product with a uniform density in volume, with reduced water absorption and thermal conductivity.

The reduced density polyurethane composition obtained in the framework of this invention is used as a heat-insulating coating, is applied to walls and ceilings and does not burden the building structure. With increasing density of the finished foam, the coefficient of thermal conductivity increases, which in turn leads to a thickening of the insulation layer and, in addition to the load on the structure, increases the cost of production due to the high material costs of raw materials.

Upon receipt of polyurethane foam (examples 1-3), water interacts with isocyanate groups in accordance with the reaction between NCO and H2O, as a result of which carbon dioxide is released, causing foaming, giving foams with different densities depending on the water content. Contained in the claimed composition, a simple polyester based on ethylene oxide with ethylene glycol - PEG-400 due to its high solubility with respect to both hydrophilic and hydrophobic substances allows it to be used as an effective base in the creation of foams, improves the adhesion of the sprayed polyurethane foam to the surface, and also increases the working range of the composition from 100 ° C to -5 ° C.

An advantage of the claimed composition is the production of polyurethane foams without the use of a volatile liquid (physical blowing agent), a liquid with a low boiling point, which evaporates as a result of heat generation during isocyanate reactions with a polyol and water, such as ozone-depleting freon or expensive fluorocarbons. Polyurethane foams obtained in the framework of this invention are characterized by a reduced density compared with the known polyurethane foams obtained without the use of a volatile liquid, a large number of closed cells, low water absorption, good heat resistance and serviceability.

The content of closed cells affects the water absorption of the product, that is, the more closed cells, the lower the rate of water absorption, which in turn increases the service life of polyurethane foam, i.e. its operational properties.

Fire resistance is an indicator of the quality of polyurethane foams intended for building insulation. The fire resistance index of the obtained polyurethane foams GZ is within the limits shown for heat-insulating materials of buildings.

Thus, the inventive environmentally safe and slow-burning composition for producing a sprayed rigid polyurethane foam allows us to provide a product with reduced density, heat conductivity and water absorption and a start time sufficient to form a high-quality foam product with a uniform density in volume.

The claimed invention meets the criterion of "novelty", as from available sources of information not identified technical solutions with the same essential features.

The claimed invention meets the criterion of "inventive step", as it is not obvious to a specialist.

The claimed invention meets the criterion of "industrial applicability", as it can be obtained from known means and known methods.

Claims (1)

Composition for preparing sprayed rigid polyurethane foams, including a hydroxyl-containing compound - hydroxypropylethylenediamine and ether based on propylene oxide, a catalyst - dimethylethanolamine, a blowing agent - water, a foam regulator and polyisocyanate, a flame retardant, characterized in that it contains a non-reactive surfactant based on the foam regulator. silica gel copolymer, additionally contains an ether based on ethylene oxide with ethylene glycol, as a flame retardant trichloropropyl phosphate and cm Referring catalysts - triethylenediamine / dipropylene glycol, pentamethyldiethylenetriamine the following component ratio, wt.%:
Hydroxypropylethylenediamine 7-12 Propylene Oxide Ether 7-9 Ethylene Oxide Ethylene Glycol Ether 7-9 Dimethylethanolamine (catalyst) 1-1,2 Triethylenediamine / Dipropylene glycol 1.3-1.5 Pentamethyldiethylenetriamine (catalyst) 2.8-3 Trichloropropyl phosphate (flame retardant) 10-12 Water 5.2-5.4 Non-hydrolyzable silica gel copolymer 1.1-1.2 Polyisocyanate 50.1-53.1