SU808437A1 - Binder for building mortar - Google Patents

Description

one

BACKGROUND OF THE INVENTION The invention relates to living compounds used for construction works in enterprises, characterized by weakness and. average degree of aggressiveness and in the conduct of construction work at low and negative temperatures.

It is known to contain, including cement, calcium sulfate, water and 0.5% by weight of cement, for example barium oxalate 1.

Closest to the proposed technical essence and the achieved result is a concrete mixture comprising, wt.%:

Mineral to Water 9.2-16.5 Water5.81-11.51

Emulsion of a mixture of petroleum products0, 04-0.33 Filler Else Concrete mixture is characterized by increased (by 20%) workability, compared with control samples, higher (by 30-40%) compressive strength and higher (by 10-35%) corrosion resistance in solutions of 5% sodium sulphate and 3% magnesium sulphate L2J.

The purpose of the invention is to improve the processability, increase the sulphate resistance and strength of the cured solution at an early age.

This goal is achieved in that the mortar for mortar, including portland cement and organic additive, contains as an organic additive oligoglycerooxalate formate with the following ratio of ingredients, wt.%:

0

Portland cement 98-99.9

Oligoglyceroxalatformiat0, 1-2,0

With the introduction of oligoglycerooxalate (rianol). In the cement5 water system, it disintegrates into active organic acids and alcohols, which interact with the minerals of Portland cement and form insoluble compounds, compacted to

0 cement stone. At the same time, ryanol has a strong plasticizing effect on cement paste, which is a source of a significant reduction in the water-cement ratio for obtaining mixtures of the desired mobility.

The high density of hardened cement stone, as well as the binding of tricalcium aluminate alcohol, 0 myrianol, significantly increases the corrosion resistance, especially the sulfate resistance of the material and its durability.

In tab. 1 and 2 presents the composition and properties of the proposed and control compositions.

The compressive strength of the obtained samples increases from 243 kgf / cm (in the control) to 428 kgf / cm.

The coefficient of sulphate resistance increases from 0.3 to 0.89-0.91.

The mixture with the proposed additive is characterized by a higher mobility, its normal density is reduced compared with conventional cement and known by 10-32%, and

W / C while maintaining the required mobility of up to 50%.

These indicators are superior to those of properties that characterize the known.

Table

Portland cement M40033.0 Rianol (oligoglycerooxalate formate) Sand 66.7 W / C with a standard cone spreading 130 mm0.50 Normal density,% 1 h 25 min 50 seizing time: Start 2 h ZOmin 1 h 50 End Strength of sample cubes 2x2.2 cm when compressed kgf / cm 1 day 3 days 421.0 7 days W / C 1: 3 with a mobility of 130 mm (on the agitating table) Beam strength 4x4x16 cm at the age of 7 days, kgf / cm when flexed during splitting Coefficient of sulfate resistance after 50 cycles of alternate incubation in a 10% solution of Na, SO and drying

Table 27 25 0.26 0.98 33.2733.132.6 0.03 0.200.7 66.766.766.7 0.37 0.260.24 22 31 5min 3h Yumin 1h Yumin 10h 45min Samples soft 110 330, 24, 91

Claims (2)

1. Patent OUA 3950178, cl. From 04 To 7/02, 1976. 2. Authors certificate of the USSR 566790, cl. From 04 To 13/24, 1976.