RU2373166C1 - Construction mortar - Google Patents

Abstract

FIELD: construction.

SUBSTANCE: construction mortar comprises the following components, wt %: Portland cement 26.18-32.18, aluminous cement 3.76-4.56, dolomitised limestone with size of 100 micron - 7.34-9.34, sand for construction works with fraction from 0 to 0.63 mm - 37.3-38.3, superplasticiser C-3 1.88-2.48, magnesium sulfate 1.37-1.97, water 16.17-17.17.

EFFECT: improved strength in bending and crack resistance, reduced shrinkage.

1 ex, 1 tbl

Description

The invention relates to the building materials industry and can be used as a solution for the manufacture of floor screed in industrial and civil engineering.

Known mortar containing a binder, mineral filler, laundry soap and water, as a binder solution contains carboxylmethyl cellulose, and as a filler - dolomite dust (SU No. 5447427, C 04 V 25/08, bull. No. 7 from 25.02.77 g .).

The disadvantage of this technical solution is the lack of bending strength, reduced crack resistance and an increased value of shrinkage.

Known mortar, including cement, lime component, sand, water (RU No. 2095326, C 04 B 28/00, 10.11.97,).

The disadvantage of this technical solution is the reduced bending strength, reduced crack resistance and increased shrinkage value.

The closest to the declared mortar is a solution comprising cement, sand, additive and water, where molding sand from metallurgical production is used as sand, and the foam additive Kvin based on sodium stearate C ₁₇ H ₃₅ COONa is used as an additive with the following ratio of components, wt.%:

cement 24-28 form waste 50-60 Blowing agent "Queen" based on stearate Sodium C ₁₇ H ₃₅ COONa 8-10 water 8-6

(RU No. 21399841, C04 B 38/10, bull. No. 29, 10.20.99).

The disadvantage of this technical solution is the lack of bending strength, insufficient crack resistance and an increased value of shrinkage.

The objective of the invention is the creation of a new mortar, the use of which would achieve a technical result consisting in increasing the bending strength, increasing crack resistance and lowering the shrinkage of the mortar used for the manufacture of floor screed.

This object is achieved in that the mortar, including cement, sand, additive and water, contains Portland cement and aluminous cement as cement, sand as sand for construction work fractions from 0 to 0.63 mm and additionally contains dolomitic limestone with a size fractions of 100 microns, and as an additive - superplasticizer C-3 and magnesium sulfate in the following ratio of components, wt.%:

Portland cement 26.18-32.18 alumina cement 3.76-4.56 specified sand 37.3-38.3 specified limestone 7.34-9.34 superplasticizer C-3 1.88-2.48 magnesium sulfate 1.37-1.97 water 16.17-17.17

Compared with the known mortars, the combination of the well-known components of cement, sand, water with dolomitic limestone with a fraction size of 100 μm, alumina cement, plasticizing additive C-3 and magnesium sulfate is new.

The use of aluminous cement and magnesium sulfate with these components ensures the formation of the most dense mortar structure, which is characterized by increased bending strength and increased crack resistance due to the additional formation of hydrated compounds such as calcium hydrosulfoaluminate 3СаО · Al ₂ O ₃ · 3СаSO ₄ · 33Н ₂ O and MgSO ₄ · 7H ₂ O, characterized by a fibrous structure, while the solidified solution has a reduced value of shrinkage, i.e. The required technical result is achieved.

At the filing date, according to the authors and the applicant, the claimed mortar is not known and this technical solution has a world novelty.

The claimed combination of essential features exhibits a new property: increased flexural strength, increased crack resistance and reduced shrinkage compared to the prototype.

It is another property of the aggregate that is not equal to the known properties of the distinguishing features that allows us to recognize this aggregate as compared with the new solutions known in science and technology, and the claimed invention corresponds to the eligibility criterion - inventive step.

The claimed invention is industrially applicable and can be used for the manufacture of mortar used for the manufacture of floor screed.

An example of a specific implementation:

I. Preparation of mortar:

1. Dose cement (PC 400 D20).

2. Dose sand for construction work with a fraction of (0-0.63) mm.

3. Dose dolomitic limestone with a fraction size of 100 microns.

4. Dose alumina cement.

5. Dose C-3 superplasticizer.

6. Dose magnesium sulfate (MgSO ₄ ).

7. Dose water.

8. Dosage components are transported to a horizontal batch auger mixer and mixed thoroughly until a homogeneous mortar mixture is obtained.

9. The resulting mortar mixture is used to make the final floor screed.

10. The compressive and bending strengths were determined according to GOST 10180-90.

11. Crack resistance was evaluated by the coefficient of crack resistance

To _Tr = R _outg / R _Comp .

12. Shrinkage was determined according to GOST 24544-81.

The test results are presented in the table.

The results show that this component composition provides a mortar with an increased value of bending strength (by 31%), increased crack resistance, as can be judged by an increase in K _Tr by 26%, i.e. to a value of 0.24, as well as a reduced value of shrinkage by 30%. The resulting solution can be recommended for the manufacture of floor screed.

Claims (1)

Mortar, including cement, sand, additive, water, characterized in that it contains Portland cement and alumina cement as cement, sand for sand for construction work fractions from 0 to 0.63 mm and additionally contains dolomitic limestone with a size of 100 microns, and as an additive - superplasticizer C-3 and magnesium sulfate in the following ratio of components, wt.%:
Portland cement 26.18-32.18 alumina cement 3.76-4.56 specified limestone 7.34-9.34 specified sand 37.3-38.3 superplasticizer C-3 1.88-2.48 magnesium sulfate 1.37-1.97 water 16.17-17.17