RU2430068C1 - Polystyrene concrete mix for comfortable living quarters - Google Patents

Abstract

FIELD: construction.

SUBSTANCE: polystyrene mixture contains a composite mineral binder, a polystyrene filler, an air-entraining additive, a plasticising additive, a passivator additive and water. The mineral binder is a harmoniuosly balanced low-clinker mix of cement clinker, gypsum and activated anthropogenic wastes of alumosilicate composition in the form of blast-furnace and/or electric thermal phosphoric granulated slag, and/or bauxite slag, and/or converter granulated slag, and/or TPP carry-over ashes and soda-sulfate mix with specific surface of 350-475 m²/kg at the following ratio of components in polystyrene concrete mixture, wt %: mineral binder 67.0-75.0, polystyrene filler 1.5-8.0, air-entraining additive 0.08-0.24, plasticising additive 0.35-0.75, passivator additive 1.2·10^-5-3.8·10^-4, water - balance.

EFFECT: provision of desired level of environmental safety and comfort of living quarters with controlled modelling of wooden house atmosphere, at optimal levels of polystyrene concrete strength, density and heat conductivity.

1 cl, 2 tbl

Description

The invention relates to building materials, in particular to lightweight concrete mixtures for monolithic devices and the production of prefabricated insulating products in the form of blocks, wall stones, slabs, lintels, etc., used in building envelopes.

A known composition for the manufacture of polystyrene concrete mixture, including, wt.%: Mineral substance 68-90, polystyrene aggregate 0.7-2.3, fibrous material 1.4-5.2, air-entraining additive 0.3-0.7, plasticizing 0.25-0.55 additive and water - the rest (RF Patent No. 2150446, class 7 С04В 38/08 of 12/01/1998, BI No. 16).

A disadvantage of the known technical solution is the relatively high density of polystyrene concrete (1090-1370 kg / m ³ ) and its thermal conductivity (0.189-0.265 W / m · deg).

The closest in technical essence and the achieved result is a polystyrene concrete mixture for the preparation of environmentally friendly lightweight polystyrene concrete products, including, wt.%: Cement 67.0-75.0, granules of thermostated polystyrene treated with a polymer additive, 4.75-5.55, polymer additive 0.25-0.45 and water - the rest (RF Patent No. 2082695, class C04B 38/00 of 02/11/1994, BI No. 18).

A disadvantage of the known technical solution is the presence in the composition of the polymer additive wood saponified resin (SDO), which has a sharp specific odor, which reduces the degree of achievement of the desired level of comfort when working with polystyrene concrete mixture at the time of its preparation and with ready-made polystyrene concrete structures and structures.

The technical task is to create a particularly light relatively durable polystyrene concrete (PSB) of low density and low thermal conductivity for environmentally comfortable housing.

This object is achieved in that the polystyrene concrete mixture includes a composite mineral binder, polystyrene aggregate, an air-entraining additive, a plasticizing additive, a passivating additive and water, characterized in that it contains a harmoniously balanced low-clinker mixture of cement clinker, gypsum and activated technogenic waste as a mineral binder aluminosilicate composition in the form of blast furnace and / or electrothermophosphoric granular slag, and / or bauxite sludge, and / or converter granular . a, and / or fly ash mixture of TPP and soda-sulfate having a specific surface of 350-475 m ² / kg at the following component ratio% by weight of binder:

Cement clinker 24-50 Technogenic waste of aluminosilicate composition 47.0-68 Gypsum 2,5-7 Sodosulfate mixture 0.5-1

wherein the polystyrene concrete mixture as polystyrene aggregate contains polystyrene foam granules and / or their mixture with secondary waste of polystyrene foam production of a fraction of 0-10 mm with a bulk density of 10-30 kg / m ³ at a mass ratio of 1: 5, previously surface treated with a passivating additive at a temperature not exceeding 30 ° C, the following grain composition, vol.%:

5-10 mm - 25-50 2.5-5 mm - 45-60 0-2.5 mm - 5-15

and as an air-entraining additive, synthetic or protein-based substances from the group of substances are used: a mixture of sodium or triethanolamine salts of sulfates of synthetic monoethanolamides of synthetic fatty acids of fraction C ₉ -C ₁₄ , or a mixture of sodium or triethanolamine salts of alkyl fatty acids of fraction C ₁₀ -C ₁₆ , or a mixture sodium or triethanolamine salts of alkyl sulphates of primary fatty alcohols of the C ₁₀ -C ₁₆ fraction, or their binary or ternary mixtures, when their mass ratio to each other is 1: 1 or 1: 1.2: 1.5, respectively, and as The modifying additives use a complex additive of multifunctional action, including a water-soluble ether of polycarboxylic oligomers with the number of functional units in the molecular chain 18-65 and a component from the group: water-soluble sodium or calcium salts of sulfonated polycondensation products of naphthalene with formaldehyde - polynaphthalene sulfonates or the same salts of the products of polyconaphthalene sulfonates from the production of waste polyols based on cumylphenol and α-methylstyrene dimers - FOK plasticizer or their double or triple mixtures at regarding the components polycarboxylate: polynaphthalene sulfonates: FOK plasticizer, equal to (0.25-1): 1 and (0.25-1): 1: 1, respectively, as well as a directed modifier - component from the group: a mixture of water-soluble alkali and alkaline earth metal salts polyacrylic acids, or a mixture of ballast salts of gas desulfurization of coke oven plants, or industrial lignosulfonates, or sodium or calcium formate, or water-soluble acetates of alkali and alkaline earth metals, or a neutralized air-entraining resin, or a guide an office-stabilizing agent based on organosilicon compounds, or a synthetic or protein-based foaming agent, or their double or triple mixtures with a mass ratio of components of 1: 1 or 1: 1: 1, respectively, with the following ratio of functionally active additives and directed modifier, wt.% :

functionally active supplement 15-55 directional modifier 45-85

Moreover, as an additive-passivator, it contains organic compounds of natural or synthetic origin in the form of esters of lower fatty acids, or aldehydes, or ketones, or aromatic or fatty-aromatic alcohols with the number of carbon atoms in the C ₁₀ -C ₁₈ cycle or technogenic waste wood pulp production of a medicinal product dihydroquarcetin in the following ratio of components of polystyrene concrete mixture, wt.%:

Composite Mineral 67.0-75.0 astringent Polystyrene aggregate 1,5-8,0 Airborne Additive 0.08-0.24 Plasticizing additive 0.35-0.75 Passivator 1.2 · 10 ^-5 -3.8 · 10 ^-4 Water rest

The need for a passivating additive is explained by the fact that traces of volatile organic impurities are present in the polystyrene filler, including traces of styrene monomer, the maximum permissible concentration (MPC) of which is at the level of 0.002 mg / m ^{3 of} air. Detoxicants currently used in the form of organic compounds are able to lower the content of free volatile organic components in the polystyrene concrete mixture and neutralize them to MPC levels and lower, however, they themselves have a rather unpleasant odor, which to some extent reduces the level of comfort when working with the mixture at the time of its preparation and with finished polystyrene concrete.

The use of passivating additives, chemically active in relation to volatile organics in amounts not exceeding the threshold of sensitivity of organoleptic perception, helps to achieve the desired level of environmental safety and comfort with controlled modeling of the atmosphere of a wooden house at optimal levels of strength of PSB, its density and thermal conductivity.

The following materials were used to prepare the mixture: the indicated composite mineral binder, polystyrene aggregate of the 0-10 mm fraction according to GOST R 51263-99, the Pioner-Extra air-entraining additive according to TU 2481-010-11084661-2007, or the PO-01B additive according to TU 2481-023-42942526-01, a plasticizing additive based on polycarboxylates under the code name Bin according to TU 5730-001-96360128-2007 or Lignopan additive according to TU 2601-002-20127879-96, water according to GOST 23732-79 and a synthetic passive fatty-aromatic additive with the number of carbon atoms in the C ₁₀ -C ₁₈ cycle, including and passivating additives of the following structural formula:

moreover, these passivators have the smell of forest violets (I) and the smell of forest cedar (II and III).

The preparation of the polystyrene concrete mixture was carried out in a horizontal forced-type laboratory mixer with a capacity of 12 liters and a stirring device rotation speed of 120 rpm.

The technology for preparing the molding PSB mixture consisted of sequentially introducing into the mixer with a working mixer all the initial components of the mixture within the declared values.

First, the calculated amount of polystyrene aggregate is fed into the mixer, then the estimated amount of the passivating additive mixed with 0.1-0.5 part of the mixing water and mixing is carried out for 0.50-1 minutes. Then, 0.5-0.7 parts of the mineral binder are fed into the working mixer simultaneously with the residual amount of water, air-entraining and plasticizing additive, and then the contents of the mixer are mixed for at least 1.5 minutes until a homogeneous porous polystyrene-concrete molding mixture is formed, from which samples were prepared -cubes with a rib size of 10 cm.

The mechanical strength of polystyrene concrete was determined according to GOST 10180-90 Concretes. Methods for determining the strength from control samples ”, polystyrene concrete density according to GOST 12730.1, thermal conductivity according to GOST 7076, environmental safety (presence of residual styrene) according to OST 15820-82“ Styrene polymers and copolymers. Gas chromatographic method for determination of residual monomers and non-polymerizable impurities ”, the presence of odors is organoleptically, and the comfort of housing is based on a complex indicator of organoleptic perception of the environment.

Examples of the composition of the molding sand, physico-mechanical and toxicological properties of the polystyrene concrete mixture and the finished polystyrene concrete are given in tables 1 and 2.

Table 1 Polystyrene concrete mixes No. p / p Component Name The content of components, wt.% For compositions: one 2 3 four 5 6 7 prototype one Mineral binder 67.0 75.0 71.0 71.0 66.5 75,5 71.0 2 Polystyrene aggregate 8.0 1,5 4.75 4.75 8.5 1,0 5.15 3 Airborne Additive 0.24 0.08 0.15 0.15 0.27 0.05 - four Plasticizing additive 0.75 0.35 0.55 0.55 0.8 0.30 - 5 Passivator 3.8 × 10 ^-4 1.2 × 10 ^-5 1.96 × 10 ^-4 1.96 × 10 ^-4 3.8 × 10 ^-3 1.2 × 10 ^-6 - 6 A polymer additive comprising saponified wood resin (SDO), a mixture of dicarboxylic acids - - - - - - 0.35 7 Water rest

table 2 Physico-mechanical, thermophysical and environmental characteristics of polystyrene concrete mixture and polystyrene concrete No. p / p Name of quality parameter Quality parameter value for formulations: one 2 3 four 5 6 7 one The density of the polystyrene concrete mixture, kg / m ³ 203 676 321 449 190 807 450 2 The density of polystyrene concrete, kg / m ³ 160 520 250 350 150 620 350 3 Ultimate Compressive Strength, R ₂₈ , MPa 0.08 0.72 0.17 0.63 0,07 0.75 0.62 four PSB thermal conductivity, W / m · ° С 0.058 0.130 0,075 0,092 0,052 0.15 0.108 5 Volatile Organic Content: - in polystyrene concrete molding sand; <MPC <MPC <MPC <MPC <MPC > MPC = MPC - in polystyrene concrete <MPC <MPC <MPC <MPC <MPC > MPC = MPC 6 Comprehensive indicator of comfort * one one one one <1 <1 <1 (odor resin SDO) * 1 - maximum level of comfort; <1 - decrease in comfort level.

A comparative analysis of the data in Tables 1 and 2 shows that the use of low-clinker composite binders modified with the proposed air-entraining and plasticizing additives in combination with the polystyrene aggregate of the proposed particle size distribution, previously treated with the claimed passivating additive, provides light and extremely lightweight polystyrene concrete grades of density D150- D500 with relatively high thermal characteristics for the construction of residential buildings with high performance Lemma comfort with optimal thermo-physical characteristics of the PSB in terms of strength, density and thermal conductivity.

Claims (1)

A polystyrene concrete mixture for comfortable living, including a composite mineral binder, a polystyrene aggregate, an air entraining additive, a plasticizing additive, a passivating additive and water, characterized in that it contains a harmoniously balanced low-clinker mixture of cement clinker, gypsum and activated technogenic aluminate composition as a mineral binder in the form of blast furnace and / or electrothermophosphoric slag and / or bauxite sludge and / or converter slag and / or ash from TPP nose and soda-sulfate mixture with a specific surface area of 350-475 m ² / kg in the following ratio of binder components, wt.%:
cement clinker 24-50 technogenic waste of aluminosilicate composition 47.0-68 gypsum 2,5-7 sulphate mixture 0.5-1,
wherein the polystyrene concrete mixture as polystyrene aggregate contains polystyrene foam granules and / or their mixture with secondary waste of polystyrene foam production of a fraction of 0-10 mm with a bulk density of 10-30 kg / m ³ at a mass ratio of 1: 5, previously surface treated with a passivating additive at a temperature not exceeding 30 ° C, the following grain composition, vol.%:
5-10 mm 25-50 2.5-5 mm 45-60 0-2.5 mm 5-15,
and as an air-entraining additive, synthetic or protein-based substances from the group of substances are used: a mixture of sodium or triethanolamine salts of synthetic fatty acid monoethanolamides sulfates of fraction C ₉ -C ₁₄ , or a mixture of sodium or triethanolamine salts of alkyl sulfuric acids of fraction C ₁₀ -C ₁₆ sodium or triethanolamine salts of alkyl sulphates of primary fatty alcohols of fraction C ₁₀ -C ₁₆ or their binary or ternary mixtures when their mass ratio to each other is 1: 1 or 1: 1.2: 1.5, respectively, and as a layer Friction additives use a complex additive of multifunctional action, including a water-soluble ether of polycarboxylic oligomers with the number of functional units in the molecular chain 18-65 and a component from the group: water-soluble sodium or calcium salts of sulfonated polycondensation products of naphthalene with formaldehyde - polynaphthalene sulfonates or the same salts of the waste products based on cumylphenol and α-methylstyrene dimers — FOK plasticizer or their binary or ternary mixtures, if appropriate wearing components polycarboxylate: polynaphthalene sulfonates: FOK plasticizer equal to (0.25-1): 1 and (0.25-1): 1: 1, respectively, as well as a directional modifier - a component from the group: a mixture of water-soluble salts of alkali and alkaline earth metals polyacrylic acids, or a mixture of ballast salts of gas desulfurization of coke oven plants, or industrial lignosulfonates, or sodium or calcium formate, or water-soluble acetates of alkali and alkaline earth metals, or a neutralized air-entraining resin, or hydropho iziruyuschy agent based on organosilicon compounds and the foaming agent is a synthetic or protein-based or binary or ternary mixtures in a weight ratio of 1: 1 or 1: 1: 1, respectively, at the following ratio functionally active additives and modifiers directional, wt.%:
functionally active supplement 15-55 directional modifier 45-85,
in addition, as an additive - passivator, it contains organic compounds of natural or synthetic origin in the form of esters of lower fatty acids, or aldehydes, or ketones, or aromatics of aromatic or fatty aromatic series with the number of carbon atoms in the C ₁₀ -C ₁₈ cycle or technogenic waste wood pulp production of a medicinal product dihydroquarcetin in the following ratio of components of polystyrene concrete mixture, wt.%:
mineral binder 67.0-75.0 polystyrene aggregate 1,5-8,0 air entraining additive 0.08-0.24 plasticizer 0.35-0.75 passivating agent 1.2 · 10 ^-5 -3.8 · 10 ^-4 water rest