UA21223U - Integrated concrete modifier - Google Patents

Abstract

An integrated concrete modifier contains a dispersed mineral ingredient including a geological material or its mixture with pulverized fuel ash and/or with gas cleaning products of the furnaces to produce silicon-containing alloys and a plasticizer. A dispersed mineral ingredient to include as the geological material kaolin and gypsum and, which were subjected to the thermal treatment a modifier as well as in addition contains calcium hydroxide.

Description

Description of the invention

The useful model refers to the field of construction, namely to the compositions of multi-component modifiers 2 of multifunctional concrete.

A well-known concrete modifier that allows you to obtain high-strength concrete, consisting of microsilica (77.2-94 Omas.9b), a chemical additive (4.7-15.7 by mass Oo) and water (other) |(KO2096372, publ. 20.11. 97|.

The closest in technical essence and the result achieved is a complex modifier of concrete, consisting of a dispersed mineral component containing silicon dioxide and representing a rock, and/or a product of gas cleaning of furnaces that melt crystalline silicon and/or ferrosilicochrome, and/or silicocalcium melts or burning coal, or a mixture of at least one of the above components with the gas cleaning product of ferrosilicon smelting furnaces, and as a chemical additive it contains plasticizers, with the following ratio of components, wt. 90: dispersed mineral component 51.9-94.1 chemical additive 4.7-45.5 water other

Ism. KO 2160723, publ. 20.12.2000; OA 47617, publ. 15.09.2004).

The disadvantage of the specified complex modifier is that, while contributing to the high grade strength of concrete in axial compression, it does not provide the same increase in strength at an early age and in tensile bending, as well as compensation for shrinkage, or expansion, or self-tension of concrete.

The basis of a useful model is the task of developing such a complex modifier that would ensure the production of high-strength concretes with increased early strength, including tensile strength during bending in the absence of shrinkage deformations or expansion or self-stress when using highly mobile concrete-o mixtures on ordinary Portland cement.

This can be achieved by creating conditions for the formation of additional crystal hydrates of the sulfoaluminate type in the cement system, which is ensured in turn by optimizing the ratio of oxides of silicon, aluminum, calcium, sulfuric anhydride and water in the modifier. co

To solve the problem, a complex modifier of concrete containing a dispersed mineral component, which includes rock, or its mixture with fly ash and/or gas cleaning products of furnaces that melt silicon-containing alloys, and a plasticizer additive, a dispersed mineral component, such as . CM rock contains heat-treated kaolin and gypsum and a modifier, may additionally include calcium hydroxide, with the following ratio of components, wt. 90: c dispersed mineral component 80-98 plasticizer additive 2-20 calcium hydroxide 0.01-10 ", which ensures the presence of the following oxides in the modifier at the following content, wt. 90: шщ с 8иОо 20-66 з А2О3 4-27 803 4-26 сао 3-22 ко НО 3-12 -

In the first version of the modifier, the dispersed mineral component includes heat-treated kaolin and gypsum, with the following content, wt. 90: va 7 pon won heat-treated kaolin 42-68

Fe» gypsum 32-58

In the second version, the dispersed mineral component includes a mixture of heat-treated kaolin and gypsum with fly ash, with the following content, wt.9o: with heat-treated kaolin 10-83 gypsum 10-83 fly ash 5-60 60 In the third version the dispersed mineral component includes a mixture of heat-treated kaolin and gypsum with gas cleaning products of furnaces that melt silicon-containing alloys, with the following content, wt.

Fo: thermally treated kaolin 10-83 b5 gypsum 10-83 -D-

gas cleaning products of furnaces melting silicon-containing alloys 5-60

In the fourth variant, the dispersed mineral component includes a mixture of heat-treated kaolin and gypsum with fly ash and gas purification products of furnaces that smelt silicon-containing alloys, with the following content, wt. 90: heat-treated kaolin 10-78 gypsum 10-78 fly ash 5-60 gas cleaning products of furnaces that melt silicon-containing alloys 5-60

The modifier can also additionally contain an air-entraining additive in the amount of 0.01-1.095 by weight of the modifier. The modifier can also, as a plasticizer additive, contain a salt of polycondensate of p-naphthalene sulfonic acid and formaldehyde, and/or a salt of lignosulfonic acid, and/or polycarboxylate.

For the preparation of the complex modifier, dispersed materials were used, which, due to the presence or superiority in their compositions of 5iO", AI»Oz, Oz, CaO, NoO, in combination with each other, contribute to the formation of sulfoaluminate type crystal hydrates. The characteristics of the dispersed materials used are given in Table 1. 1. The natural enriched kaolin (ZK) of the Hlukhovetsky deposit (Ukraine) and the same kaolin subjected to heat treatment at an isothermal holding temperature of 650-8002С (KT) were used as rocks.

Heat treatment was carried out in order to obtain X-ray amorphous phases from minerals present in natural kaolin. 2. Dust-like waste from the production of ferrosilicon (FS) at the Chelyabinsk Electrometallurgical Plant was used as gas cleaning products for furnaces that melt silicon-containing alloys. - 3. Fly ash (3-B) was used as a gas cleaning product of coal-burning furnaces - dusty waste of the Reftynskaya GRES according to DST 25818 "Fly ash of thermal power plants for concrete.

Technical conditions". p. 4. Ground gypsum stone (GK) was used as rock according to DST 4013 "Gypsum stone and gypsum ground gypsum stone according to DST 4013 "Gypsum and gypsum anhydrite stone for the production of binders. se

Technical conditions". ch 5. Lime (B) hydrated (slaked) air was used as a substance containing calcium hydroxide

DST 9179 "Building lime. Technical conditions". -

In addition to the above dispersed materials, the chemical additives listed below were used. 1. As sulfonated naphthalene formaldehyde polycondensate, powdered superplasticizer brand C-3 was used, in accordance with state standard 24211 Additives for concrete. General technical requirements", which corresponds to a plasticizer additive of the I group. 2. As a ligposulfonate, powdered technical lignosulfonate (AST) was used, in accordance with "du state standard 24211, which corresponds to a plasticizer additive of the I! group. - 3. As a polycarboxylate, the additive Mizzosteve-105 Ryimeg was used (МС-105Р), which is a copolymer based on oxyethylene and oxypronylene compounds, and according to state standard 24211 corresponds to the plasticizer "c" additive of group I. 4. As an air-entraining additive, neutralized air-entraining resin (SNP) was used, which meets the requirements DST 24211. of 15 Modifier samples were prepared from the above materials in a high-speed mixer, which were loose powder-like compositions that differ in the ratio of components. - Table 2 shows the substance and chemical compositions of the prepared modifier samples. From Moi and Mo2 samples, which include production waste ferrosilicon, fly ash, kaolin and plasticizers made according to pa prototype awning, were control, other samples (MoMo3-27) were made in accordance with ko 20 of the declared technical solution. syu" Using samples of modifiers, fine-grained concrete mixtures of different mobility were prepared with dosages of modifiers from 1095 to 5095 by weight of cement.

Compositions and characteristics of concrete mixtures are shown in Table 3. Compositions of modifiers in concrete mixture samples correspond to the compositions of modifier samples given in Table 2 under the corresponding numbers. 59 Portland cement M5BOODO, quartz sand M,p-2.5, and modifier samples with different ratios of components were used as components of fine-grained concrete mixtures (Table 2).

The following were made from concrete mixtures: - cube samples with dimensions of 70.7x70.7x70.7mm for determining the limit of strength under axial compression; - prism samples with dimensions of 70x70x280 mm for determining the limit of tensile strength during bending; bo - prism samples with dimensions of 40x40x1b0mm for determining expansion deformations; - prism samples with dimensions of 31.5x31.5x95mm in dynamometer rings to determine the amount of self-stress.

The mobility of concrete mixtures was assessed by cone settlement according to DST 10181.1.

The limits of compressive and bending strength were determined according to DST 10180 "Concretes. Methods for determining strength based on 65 control samples".

The parameters of linear expansion and self-tension were determined according to TU5743-157-46854090-2003 "Tensioning cement. Technical conditions".

Strength tests were carried out at the age of 1 and 28 days of normal hardening of concrete (1-20--29C, Mu-98965), and the values of expansion deformations and self-tension were measured during 28 days when the samples were kept in water.

Table C shows the test results of concretes made using modifiers of different compositions.

It follows from the obtained results that MoMo3-27 samples made using the proposed multicomponent modifiers differ from the control (made according to the prototype) significant advantages: - increased by 12-4495 early (at the age of 1 day) compressive strength; - increased by 26-4395 early (at the age of 1 day) tensile strength during bending; - increased compressive strength (by 13-4495) and tensile strength during bending (by 12-3890) at the age of 28 days; - linear expansion in the range of 0.05-0.1395 and self-stress in the range of 1.0-2.1 MPa at the age of 28 days.

All the mentioned advantages were found in the samples made from mixtures with mobility similar to the control ones.

The obtained effects are the result of optimizing the ratio between the main oxides ЗиО», АИ2Оз, ЗОз, Сао,

НО, contained in the dispersed components of the modifier, which contributes to the formation of hydrosulfoaluminates of calcium (ettringite), which leads not only to increased strength, but also to the expansion of the cement system.

At the same time, the increased mobility of the mixtures is ensured by optimizing the ratio between the dispersed mineral component and chemical additives.

Thus, the set technical task is solved by a multi-component composition - a complex modifier, which contains selected ingredients in optimal proportions.

Table 1

Characteristics of dispersed mineral components of peleenaya drinking, calcination | 503 | CaO | NgO Mo |Re203 Mag20O K2O TiO2|MpO|P2O5 СО02 nents two ato zavo 002 008 lo4 04 17 01006035 03

Kolin, subjected to heat treatment CT 065 Bio 4000 003009 1200 227 02 007046. 023 7 o zo Ferrosilicon production waste | FS 47 9040 125 002 041 180 05 02 042 0y5O01006 sch

Zolivinoi 00138 273 vtoo oves osv gia ooo fir 428 ovi om ov ptie 07777101 mevozmoyuneuyu 001011 cm

Valyu ///71111111111111В 11111111. vvro ovo. |... 1.1.1... o) - p

Table 2

Hockey compositions Ingredients of dispersed mineral « 2 ne -5 p 1717-0111 1vo svo 28 1-10 bbz tzv ply i TI RY A PE VE PE I I Ne M EK

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GI 20

Claims (1)

This is the formula of the invention". , what what, . , 1. Complex modifier of concrete, which contains a dispersed mineral component, which includes a rock or its mixture with fly ash and/or with gas purification products of furnaces that melt silicon-containing alloys, and a plasticizer additive, which is characterized by the fact that the dispersed mineral component, which as a rock, it contains thermally treated kaolin and gypsum and a modifier, additionally contains calcium hydroxide with the following ratio of components, mass. 90: dispersed mineral component 80-98 plasticizer additive 2-20 60 calcium hydroxide 0.01-10, which ensures the presence of the following oxides in the modifier at the following content, wt. 90: 8iOo 20-66 because A2O3 4-27 803 4-26 sao 3-22 NgO 3-12. 5. K-4. . K-4. K-4. . K-4 2. Modifier according to claim 1, which differs in that the dispersed mineral component contains heat-treated kaolin and gypsum with the following content, wt. 9: thermally treated kaolin 42-68 gypsum 32-58. C. Modifier according to claim 1, which differs in that the dispersed mineral component contains a mixture of heat-treated kaolin and gypsum with fly ash at the following content, wt. 9o: thermally treated kaolin 10-83 gypsum 10-83 fly ash 5-60. 4. Modifier according to claim 1, which is characterized by the fact that the dispersed mineral component contains a mixture of heat-treated kaolin and gypsum with gas purification products of furnaces that melt silicon-containing alloys with the following content, wt. 95: heat-treated kaolin 10-83 gypsum 10-83 gas cleaning products of furnaces smelting silicon-containing alloys 5-60. Z7Z 5. Modifier according to claim 1, which differs in that the dispersed mineral component contains a mixture of heat-treated kaolin and gypsum with fly ash and gas purification products of furnaces that smelt silicon-containing alloys with the following content, wt. because: with ! and Where! ! thermally treated kaolin 10-78 s gypsum 10-78 s fly ash 5-60 gas cleaning products of furnaces that melt silicon-containing alloys 5-60. oh : I. y y y seI 6. The modifier according to claim 1, which differs in that it additionally contains an air-entraining additive in the amount of 0.01-1.0 95 by weight of the modifier. 7. Modifier according to claim 1, which differs in that as a plasticizer additive it contains a salt of polycondensate of B-naphthalene sulfonic acid and formaldehyde and/or a salt of lignosulfonic acid, and/or polycarboxylate. "the first self". ! ! v. c) Official Bulletin "Industrial Property". Book 1 "Inventions, useful models, topographies of integrated microcircuits", 2007, MZ, 15.03.2007. State Department of Intellectual Property of the Ministry of Education and a. :z" of science of Ukraine. ime) - ime) ime) syu" 60 b5