RU2067564C1 - Concrete composition and processes for preparation thereof - Google Patents

Abstract

FIELD: construction. SUBSTANCE: composition comprises (wt%): 27.5-90.5 grade 500 Portland cement containing 60-62 C₃S; 22.0-24.5 quartz sand having 30.0- 32.0% fractions of less than 0.315 mm and 22.0-24.5 fractions of 0.315-1.250 mm; 2.0-3.0 microsilica with specific surface area of (20-40) x 10³ sq.cm/g; 0.5-1.5 superplastizeier C-3; 4.5-7.0 complex mineral additive which is product of grate 500 aluminate portland cement with specific surface area of (0.1-0.15) x 10³ sq.cm/g and calcium sulfoaluminate in 50:40:10 ratio, respectively, and the water balance. Said components are stirred in high-speed turbulent concrete mixer in certain sequence. EFFECT: improved properties of the concrete composition. 4 cl, 2 tbl

Description

The invention relates to compositions of concrete compositions and methods for their preparation and can be used in construction, mainly in the field of production of building materials used in shotcrete works for sealing and waterproofing concrete, reinforced concrete, stone, brick and metal structures by the method of "wet" shotcrete, in particular enclosing structures of buried structures with work inside them, as well as used for the manufacture of thin-walled spatial structures s and series of similar articles of various profiles and destination with high water resistance, strength and durability. Known concrete composition with the values of water resistance grade W 16 and strength 83-115 MPa, including cement, filler, aggregate, superplasticizer and water containing Portland cement grade "400", as a filler silica fume with a specific surface area (20-40) • 10 ³ cm ² / g, as a filler quartz sand of three grain intervals: 2.2-2.5 mm, 1.0-1.15 mm and 0.05-0.5 mm, as a superplasticizer, a mixture of the polycondensation product of melamine, formaldehyde and sodium sulfonylate MF-AR with sodium nitrite or calcium nitrite in the ratio 1: (16: -2.5), respectively.

 The disadvantage of this composition is the relatively low values of water tightness, destructive phenomena due to shrinkage deformations in cast and highly mobile mixtures, a decrease in frost resistance due to a deterioration in the pore structure of concrete, which prevents the formation of dense and durable protective coatings when sealing structures by shotcreting. In addition, the scarcity, high cost and toxicity of the mixture of MF-AR with electrolytes limit its scope and increase the cost of work.

 A known method of preparing a concrete composition, including first mixing water with silica fume for 25-30 s, in a high-speed turbulent concrete mixer at a speed of 600-700 rpm, then add quartz sand and mix for 25-30 s, then cement is introduced and they are mixed for 45-50 s, after which a complex additive containing a mixture of MF-AR superplasticizer with an electrolyte is introduced into the resulting mixture and mixing is carried out in a low-speed concrete mixer at a speed of 40-60 rpm for 80-100 s.

 The disadvantage of this method is the limited use of the capabilities of intensive separate technology for the preparation of concrete mixtures, which consists in the fact that all the components of this composition, including aggregates, are introduced and mixed in a high-speed turbulent concrete mixer without a superplasticizer, which is included in the complex additive, which is introduced into the mixture only at the final stage of mixing in a conventional low-speed concrete mixer. As a result of this, unregulated excess air intake is not excluded, which negatively affects the dispersion and pore structure of concrete and, as a result, its density, frost resistance and water tightness. In addition, the high mixing speeds of 600-700 rpm of cement and other components without the introduction of a complex additive do not exclude undesirable processes of false setting and formation of flocs (clusters) in the cement matrix of the composition, worsening its deformative and rheological properties. These phenomena delay the beginning of effective hydration of cement paste, reduce the rate of curing of cement stone in the initial period of hardening, which is unacceptable for reliable waterproof protective coatings of structures when sealing them with wet shotcrete.

 The aim of the invention is to expand the scope of the composition and methods for its preparation, increasing the water resistance of protective coatings of surfaces of structures, the intensification of work on their sealing by shotcrete, saving materials, reducing the cost and time of work.

This is achieved by the fact that preparing a composition containing, by weight. alitic Portland cement of a grade not lower than "500" with a C ₃ S fraction in it of 60-62% 27.5-30.5; quartz sand fractions less than 0.315 mm 30.0-32.0 and 0.315-1.250 mm 22.0-24.5; silica fume with a specific surface area (20-40) • 10 ³ cm ² / g 2.0-3.0; C-3 superplasticizer based on sodium salts of the condensation product of naphthalenesulfonic acid and formaldehyde 0.5-1.5; complex mineral additive co-grinding product to a specific surface (4.5-5.0) • 10 ³ cm ² / g of aluminate Portland cement grade “500” with a proportion of C ₃ A in it 12-14% of quartz sand with a specific surface (0, 1-0.15) • 10 ³ cm ² / g and calcium sulfoaluminate, taken in a ratio of 50: 40: 10 respectively 4.5-7.0 and the rest of the water, and first mix the water with silica fume in a high-speed turbulent concrete mixer at a speed 300-350 rpm for 20-25 s, then enter 75% of the specified complex mineral additives and at the same time superplasticizer OR and mixing are carried out for 20-25 s, then cement is fed and mixing is carried out for 55-65 s, then the aggregate of the indicated smaller fraction is loaded into the high-speed concrete mixer and mixing is carried out for 30-40 s, then the rest is introduced into the resulting mixture the aggregate and the remainder (25%) of the complex mineral additive and the final mixing is carried out in a conventional low-speed concrete mixer at a speed of 50-60 rpm for 55-65 s until a homogeneous, equal-plastic state of the composition is obtained.

 If necessary, changes in the rolling composition (at a constant W / C ratio), regulation of the initial hardening period of concrete and improvement of the dispersion of the solid phase of the hydrating mixture include, after the cement has been mixed in a high-speed turbulent concrete mixer according to the above method, the entire aggregate and the remaining part are introduced into the resulting mixture (25 %) of a complex mineral additive and final mixing in a low-speed concrete mixer at a speed of 50-60 rpm for 90-100 s, while from the beginning preparation of the composition, the order of mixing of the remaining components does not change.

Calcium sulfoaluminate, a component of the complex mineral supplement, is a powder with a density of 2.93 g / cm ³ and a specific surface to grind 2280 cm ² / g, it has a chemical composition, wt. SiO ₂ 1.4; Al ₂ O ₃ 13.1; Fe ₂ O ₃ 0.6; CaO 47.0; MgO 0.5; S0 32.2; the rest (insoluble residue) less than 4.

The specific surface area of the complex mineral additive after joint grinding of its components (4.5-5.0) • 10 ³ cm ² / g.

 Quartz sand according to GOST 8736-85, contains minerals, wt. quartz 46.8-59.4; carbonates 33.4-37.0; sandstones 3,5-6,5; dark-colored minerals 1.4-3.1; flint 1.1-7.8 the rest 0-0.8.

 Cement according to GOST 10178-85 and 22266-76.

Superplasticizer C-3 solution of 20% concentration with a density of 1.009 g / cm ³ , with a dry matter content of 0.195 kg / l of solution (0.180 kg per 1 kg of solution). Corresponds to TU 6-14-625-80 of the USSR Ministry of Chemical Industry and the "Recommendations for the use of additives of superplasticizers in the production of precast and monolithic reinforced concrete", M. NIIIZhB and TsNIIOMTP Gosstroy USSR, 1987.

 Examples of the invention are illustrated in table 1 (composition) and table. 2 (composition characteristics).

 The proposed composition and methods for its preparation provide a comprehensive use of the properties of its highly activated components to obtain optimal technological and operational characteristics of concrete.

 This is achieved by the fact that the effect of the hydrophilic type superplasticizer contained in the composition, which reduces the rate of hardening of concrete in the early stages of hydration, and the effect of finely dispersed activated particles of filler and cement, which do not exclude, along with the effect of increasing the strength of shrink stress and crack formation during hardening, are compensated by the action of the components of the complex mineral additives that eliminate these disadvantages.

The mechanism of action of the complex mineral additive in the composition lies in the fact that its highly active component C ₃ A, which has the greatest rate and depth of hydration of cement grains in the initial stages, and calcium sulfoaluminate intensively form crystals of high sulfate phase hydrosulfoaluminates and low basic calcium hydrosilicates, which due to growth and new reaction cycles, the formation of multiple hydration and crystal formation centers with the involvement of particles in the reaction ator and cement. As a result, at the microstructure level of the cement matrix, the additive acts as a catalyst for hydration reaction processes in the initial stages, and at the macrostructure level of the cement stone formed, the reaction products expand to some extent its formed frame, compacting it during hardening, which neutralizes shrinkage stresses in concrete and improves its pore structure.

 The achieved at the same time reduction of the induction period of the cement paste to 20-40 minutes ensures the full use of the composition for its intended purpose after completion of its preparation. The regulation of the above processes is carried out by fineness of the components of the additive and its dosage, taking into account the quantitative content of the remaining components of the composition and the degree of its activation in the manner provided for in the proposed methods.

 Implementation of the proposed methods for preparing a composition of the claimed composition provides an increase in water resistance of not less than 4 marks; the use of the composition as to obtain a waterproof, non-shrink protective coating by the method of "wet" shotcrete in the sealing of structures, and for the production of building products; reduction of the preparation time of the composition by 25-30%; cement savings by 30-35% while improving the strength, density and frost resistance of concrete.

Claims (1)

1. Concrete composition, mainly for shotcrete work, including cement, silica fume with specific surface area (20 40) • 10 ³ cm ² / g, quartz sand, superplasticizer and water, characterized in that it contains quartz sand fractions of less than 0.315 mm and 0.315 1,250 mm, S-3 superplasticizer based on sodium salts of the product of condensation of naphthalene sulfonic acid and formaldehyde, and Portland cement, alite grade “500” with a C ₃ S content of 60 62% and an additional complex mineral additive, co-grinding to specific surface (4.5 5.0) • 10 ³ cm ² / g of aluminate Portland cement grade "500" with a share of C ₃ A in it 12 14% quartz sand with a specific surface area (0.10 0.15) cm ² / g and calcium sulfoaluminate in a ratio of 50 40 10, respectively, with the following content of components, wt. Portland cement, Alite grade "500" 27.5 30.5
Silica fume with specific surface area (20 40) 10 ³ cm ² / g 2.0 3.0
Quartz sand fractions less than 0.315 mm 30.0 32.0
Quartz sand fraction 0.315 1.250 mm 22.0 24.5
Superplasticizer S-3 0.5 1.5
Complex mineral supplement 4.5 7.0
Water Else
2. A method of preparing a concrete composition, comprising mixing in a high-speed turbulent concrete mixer cement, silica fume with a specific surface (20 40) • 10 ³ cm ² / g, quartz sand, superplasticizer and water, final mixing of the mixture in a low-speed concrete mixer, characterized in that is first stirred with the mixer speed turbulent frequency of 300,350 min ^-1 for 20 25 seconds with water microsilica is then introduced superplasticizer C-3 based on naphthalene condensation product sodium salt ulfokisloty and formaldehyde and also 75% of the product of complex mineral supplement joint grinding to specific surfaces (4,5 5,0) • March ¹⁰ cm ² / g of a mixture of Portland cement aluminate "500" A to C ₃ fraction therein December 14% quartz sand with a specific surface area of (0.10 0.15) • 10 ³ cm ² / g and calcium sulfoaluminate in a ratio of 50 40 10 respectively and mixed for 20 25 s, then an alite Portland cement of the grade “500” is served with a proportion of C ₃ S in it 60 62% and stirred for 55 65 s, after which quartz sand fractions of less than 0.315 mm are introduced and stirring wire jat for 30–40 s, 25% of the complex additive and quartz sand fraction 0.315 1.250 mm are introduced into the resulting mixture and final mixing is carried out in a low-speed mixer with a frequency of 50–60 min ^–1 for 55–65 s, while the prepared composition contains components in the following ratio wt. Portland cement alite grade "500" 27.5 30.5
Quartz sand fractions less than 0.315 mm 30.0 32.0
Quartz sand fraction 0.315 1.250 mm 22.0 24.5
Silica fume with specific surface area (20 40) • 10 ³ cm ² / g - 2.0 3.0
Superplasticizer S-3 0.5 1.5
Complex mineral supplement 4.5 7.0
Water Else
3. A method of preparing a concrete composition, comprising mixing in a high-speed turbulent concrete mixer cement, silica fume with a specific surface (20 40) • 10 ³ cm ² / g, quartz sand, superplasticizer and water, final mixing of the mixture in a low-speed concrete mixer, characterized in that is first stirred with the mixer speed turbulent frequency of 300,350 min ^-1 for 20 25 seconds with water microsilica is then introduced superplasticizer C-3 based on naphthalene condensation product sodium salt ulfokisloty simultaneously with formaldehyde and 75% complex mineral additive comprising a mixture of a specific surface area (4,5 5,0) • March ¹⁰ cm ² / g aluminate Portland cement joint grinding of the "500" A to C ₃ fraction therein December 14% quartz sand with a specific surface area (0.10 - 0.15) • 10 ³ cm ² / g and sulfoaluminate in a ratio of 50 40 10, respectively, and mixed for 20 25 s, then alite Portland cement of grade “500” is introduced with a proportion of C ₃ S 60 62% are mixed in it and 55 65 s are mixed, quartz sand and the remainder of the 25% complex miner are introduced into the resulting mixture Flax additives and final mixing is carried out in a low-composition the mixer 60 with a frequency of 50 min ^-1 for 90 100, with the composition comprises components in the following ratio, wt. Portland cement alite grade "500" 27.5 30.5
Quartz sand fraction O less than 0.315 mm 30.0 32.0
Quartz sand fraction 0.315 1.250 mm 22.0 24.5
Silica fume with a specific surface (20 40) • 10 ³ cm ² / g 2.0 3.0
Superplasticizer S-3 0.5 1.5
Complex mineral supplement 4.5 7.0
Water Else

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