SU846515A1 - Binder - Google Patents

Description

(54) BINDING

one

The invention relates to compositions in living and can be used for construction work at negative and alternating rates.

Known compounds in the living, hardening at low temperatures, the content of Portland cement, potash, water-soluble salts of lignosulfonic acid, calcite chloroaluminates 1.

The disadvantage of these people who eat is the presence of gypsum in their composition, which increases the water demand of the cement paste and slows down the hardening at frost. These strangers also have a limited range of negative temperatures {up to minus 10 ° C) at which hardening occurs.

The closest in technical essence and the achieved result to the invention. is a non-splicing, containing Portland cement clinker, SDB potash, possessing better strength than the Portland cement of composition 2..

The disadvantage of this proprietor is that the Oroch is low when it hardens under conditions of negative and alternating temperatures.

The purpose of the invention is to accelerate the hardening and increase the strength of the cement stone under conditions of negative and alternating temperatures.

The goal is achieved by the fact that, including portland cement clinker, sulphite-yeast mash and potash, it also contains Gshumoferrite cement

10 in the following ratio, wt.%:

Portland cement

clinker69,5-93,5

Sulfite Yeast

15

mash 1.0-2.5

Potash 0.5-3.0

A-Shomoferrntvy

cement5.0-25.0

Example 1. Stir

20 93.5% finely ground Portland cement clinker and 5% finely grilled-. aluminoferrite cement. With water gate, 1.% SDB and 0.5% potash are added. Hardening samples

25 passes at minus 15 ° C. To determine the effect of alternating temperatures, a part of the specimens are placed after one day of hardening at minus 15 ° C in water and tested at three days old. The results of physical and mechanical tests are given in the table,

Example 2. Mixed 82% finely ground clinker port of cement and 15% of finely ground aluminoferritny cement. RDB and 1.5% potash are added with mixing water. The hardening of the samples is similar to Example 1. The results of the physicomechanical tests are given in the table.

93, 5

five

82

15 25

69.5

98.75

From the table it can be seen that the well-known in conditions of negative temperatures has low strength in the early periods of hardening. With age hydration, the increase in strength is not significant.

The addition of alumina-ferritic cement to the composition of the binder increases the strength of the cement stone when hardened in the cold on the first day by 86%, and by 28 days - by 31%.

Higher efficiency of the proposed lagging system in conditions of negative and alternating temperatures is due to the heat gap in the initial periods of hardening of the additionally introduced aluminum ferrite

Example 3. 69.5% of finely ground Portland cement clinker and 25% fine-particulate alumoferrite cement are mixed. 2.5% SDB and 3% Prthas were injected with water. Hardening of the samples is carried out analogously to example 1.

The effect of the composition on the cement stone that is hardening, hardening at minus 15 ° C (samples of beams 2x2x8 cm from a 1: 3 solution) is given in Table. 1 and 2.

T a b l i

C a

 10,50,28

1,51,50,29

2.53.00.30

10,250,28

Table

cement, which prevents the transfer of water in the cement stone. It should be noted that the effect of calcium alumino ferrites, which are part of Portland cement clinker and are added separately, is different. The hydration of calcium alkoferrites contained in Portland cement clinker proceeds gradually as they are exposed from the silicate phase. In the free state, calcium agaoferrites are hydrated independently of other Portland cement minerals. Therefore, their effectiveness is highest in the initial period of hydration, which ensures the hardening of the proposed in a twitch at low temperatures.

With sharp fluctuations in temperature in the initial periods of hardening from negative to positive, no failure of the specimens is observed, and with age of hardening an intensive increase in strength is observed.

Thus, the wafer is characterized by accelerated hardening and increased strength under conditions of negative and alternating temperatures. This is of particular importance when conducting construction work with extreme daily temperature fluctuations and frost.

Claims (2)

1. USSR author's certificate, 568608 ,. cl. From 04 to 7/04, 1977. 2.Roo x S.M. and others. Ways to reduce the water demand of Portland cement. 1978, 7, p. 6-7. Cement