RU2681321C1 - Dry mortar - Google Patents

Abstract

FIELD: construction materials.SUBSTANCE: invention relates to dry mortars for leveling surfaces of concrete products. Dry mortar comprises cement, clay, water, bone glue, slack lime, copper sulfate additionally contains polycarboxylate superplasticizer Melflux 2651F, polypropylene microfiber with a length of 6 mm, dispersed masonry sand with the largest grain size of not more than 0.63 mm in the following ratio of components, wt. %: portland cement – 21.0–25.0; bentonite clay – 6.0–10.0; bone glue – 1.5–2.0; slack lime – 5.5–7.5; copper sulphate – 0.5–1.0; superplasticizer – 0.65–0.79; polypropylene microfiber – 0.67–0.69; dispersed sand – 37.18–40.02; water – balance.EFFECT: technical result is the increased tensile strength under bending, compressive strength, decreased water absorption and water absorption during capillary suction.1 cl, 2 tbl

Description

The invention relates to compositions of dry building mixtures for leveling the surfaces of concrete products and can be used in construction.

Known putty (patent RU No. 2375326, publ. 10.12.2009) containing cement, clay, water, bone glue, carboxymethyl cellulose and superplasticizer C-3 in the following ratio, wt. %: cement 61.37-65.75; clay 2.0-3.0; water 30.0-34.0; bone glue 1.0-1.4; carboxymethyl cellulose 0.03-0.05; superplasticizer C-3 0.6-0.8.

The disadvantage of this composition is the low tensile strength in bending.

Known putty (patent RU No. 2188836, publ. 09/10/2002) containing cement, clay, water, bone glue and calcium hydrosilicates (HSC), synthesized in the CaO + SiO ₂ + water model system in the presence of a FeCl ₃ modifier with a concentration of 500 mg / l at a temperature of from 20 to 75 ° C with the following content of components, wt. %: cement 38-45; clay 26.5-32.5; water 23-29; bone glue 2.65-2.95; GSK 0.19-0.22.

The disadvantages of this composition is the lack of tensile strength in bending, high water absorption.

Known putty (patent RU №2259330, publ. 27.08.2005) containing, by weight. %: cement 25-37, clay 34.3-46, water 22.4-30.9, bone glue 1.7-2.4 and calcium hydrosilicates synthesized in the presence of modifier C-3 with a concentration of 50 mg / dm 0 , 1-0.2.

The disadvantages of this composition is the lack of tensile strength in bending, high water absorption.

Known putty (patent RU No. 2462427, publ. 09/27/2012) containing cement, water, clay, preliminarily calcined before sintering and ground to a specific surface of 4500-5000 cm ² / g and a 7% solution of polyvinyl acetate dispersion in the following ratio of components wt. %: cement 28.0-32.0; clay 37.0-46.0; water 24.0-28.0; 7% solution of polyvinyl acetate dispersion 2.0-3.0.

The disadvantage of this composition is the lack of tensile strength in bending.

Known fiber solution (patent RU No. 2289697, publ. 12/20/2006), including cement, clay, fibers and water, as fibers contains synthetic fibers with a diameter of 0.1-0.15 mm and a length of 10-20 mm in an amount of 10-20 kg per 1 m ³ clay-cement mixture, subjected to electrification with the induction of a static electric charge.

The disadvantage of this composition is the high water absorption.

Known putty (patent RU No. 2358934, publ. 06/20/2009) adopted as a prototype containing cement, clay, water, bone glue, slaked lime and copper sulfate in the following ratio of components, wt. %: cement 42.0-46.0; clay 16.0-20.0; water 23.0-25.0; bone glue 1.5-2.0; slaked lime 10.0-13.0; copper sulfate 0.5-1.0.

The disadvantage of this composition is the lack of compressive and tensile strength during bending, high water absorption and water absorption during capillary suction.

The technical result of the present invention is to increase the tensile strength in bending, reduce water absorption and water absorption during capillary suction, which increases the durability of the cement composite.

The technical result is achieved by the fact that the mixture further comprises a polycarboxylate-based superplasticizer Melflux 2651F, polypropylene microfiber, dispersed building sand in the following ratio of components, wt. %:

Portland cement 21.0-25.0 bentonite clay 6.0-10.0 bone glue 1.5-2.0 slaked lime 5.5-7.5 copper sulfate 0.5-1.0 superplasticizer 0.65-0.79 polypropylene microfiber 6 mm long 0.67-0.69 fine sand with the largest grain size no more than 0,63 mm 37.18-40.02 water rest

The inventive composition for enhancing oil recovery includes the following reagents and commercial products containing them:

To study the properties of a dry dispersed putty mixture obtained using the inventive composition, equal-moving mixtures were prepared, the mobility of which was determined by immersion of the cone according to GOST 5802. Dispersed putty mixtures were in accordance with GOST 31357-2007 “Dry building mixes on cement binder. Technical conditions. "

As a dispersed aggregate, sand of the Zakeryenie deposit was used, Luzhsky District, Leningrad Region, satisfying GOST 8736-93 “Sand for construction work. Specifications "and GOST 31357-2007" Dry building mixes on a cement binder. Technical conditions ”with the largest grain size not more than 0.63 mm. The chemical composition of sand: SiO ₂ - 99.58%; Fe ₂ O ₃ - 0.04%; A1 ₂ O ₃ - 0.2%; CaO - 0.18%.

As an additive, Melflux 2651F superplasticizer (powder product obtained by spray drying based on a modified polyether carboxylate, according to GOST 24211-2008, belongs to the group of super-water reducing ones, manufactured by BASF Construction Polymers, Germany). To prepare the composition according to the claimed invention used Portland cement CEM I 32.5. Bentonite clay corresponded to GOST 28177-89. Slaked lime corresponded to GOST 9179-77. Polypropylene fiber complies with TU 2272-006-13429727-2007 manufactured by Sea Air LLC. Bone glue corresponded to GOST 2067-93 “Bone glue. Technical conditions. " Copper sulfate corresponded to GOST 19347-2014 “Copper sulfate. Technical conditions. "

Tests of the composition made in accordance with the prototype were carried out on the same components without superplasticizer, microfiber and particulate aggregate.

The strength and water absorption of the samples were determined at the age of 28 days of natural storage in accordance with GOST 31357. The compressive strength and tensile bending were determined on control samples according to GOST 310.4. Water absorption upon complete immersion in water of samples of hardened dispersed mixtures was determined according to GOST 5802.

Water absorption during capillary suction of hardened dispersed mixtures was determined according to GOST 31356.

Table 1 shows the compositions of the prototype and the inventive dispersed mixture, table 2 shows the properties of the tested compositions.

Analysis of the data presented in table 2 shows that the use of the invention allows to increase tensile strength in bending by 3.1-4.2 times, compressive strength by 1.5-2.2 times, reduce water absorption during capillary suction in 2.5-3 times, reduce water absorption by 42% compared with the prototype.

Claims (2)

A dry building mixture containing Portland cement, bentonite clay, water, bone glue, slaked lime, copper sulfate, characterized in that the mixture further comprises a Melflux 2651F polycarboxylate-based superplasticizer, polypropylene microfiber, dispersed building sand in the following ratio of components, wt. %: Portland cement 21.0-25.0 bentonite clay 6.0-10.0 bone glue 1.5-2.0 slaked lime 5.5-7.5 copper sulfate 0.5-1.0 superplasticizer 0.65-0.79 6 mm polypropylene microfiber 0.67-0.69 dispersed building sand with the greatest grain size not more than 0.63 mm 37.18-40.02 water rest