RU2021223C1 - Binder - Google Patents

Abstract

FIELD: building materials. SUBSTANCE: binder has, wt.-%: magnesium oxide 74-78; calcium chloride crystal hydrate 4-6, and water 18-20. Binder strength at 28-days age is 149 MPa. EFFECT: enhanced quality of binder. 1 tbl

Description

 The invention relates to binders and can be used in the building materials industry.

 Known binder containing magnesium oxide and water in the ratio of the starting components, wt.%: Magnesium oxide 68-72; water the rest [1].

 The closest to the proposed composition and the achieved positive effect is an astringent, including magnesium oxide, water and hydrochloric acid salt [2].

 A common disadvantage of the known compositions is the low strength and inability to hydrate hardening while lowering the ambient temperature to zero and negative values due to freezing of the liquid phase.

 The purpose of the invention is to increase the strength of the binder at twenty-eight days of age.

This goal is achieved in that the binder, including magnesium oxide, hydrochloric acid salt and water as a salt of hydrochloric acid contains CaCl ₂ ˙ 6H ₂ O - calcium chloride crystalline hydrate in the following ratio, wt.%: Magnesium oxide 74-78 CaCl ₂ ˙ 6H ₂ O 4-6 Water 18-20
PRI me R. From chemical reagents MgO and CaCl ₂ ˙ 6H ₂ O classification x. hours and tap water are prepared six mixtures of ingredients, the composition of which is given in the table. After thoroughly mixing each mixture for 30 minutes, samples are prepared from it — cylinders with a diameter and height of 15 mm at a specific pressing pressure of 45.0 MPa, after which some of the samples harden under ordinary conditions, some are placed in a refrigerator with a temperature of (-2) ^about C. The results of tests on the strength of the samples conducted on the PSU-10 press are shown in the table.

The invention consists in the following. The introduction of calcium chloride CaCl ₂ ˙ 6H ₂ O into the binder, which is highly soluble in water, changes the ratio between poorly soluble MgO and magnesium hydroxide, as a result of which the dissolution rate of magnesium oxide and the transition of the latter to a more soluble hydroxide increase. This circumstance provides increased temperatures of the set of strength and the final strength of the binder, in addition, particles of calcium chloride CaCl ₂ ˙ 6H ₂ O play the role of additional crystallization centers. By reducing the ambient temperature to negative values, calcium chloride prevents freezing of the liquid phase, as a result of which the binder does not lose the ability to hydrate hardening at low temperatures.

With a decrease in the concentration of calcium chloride CaCl ₂ ˙ 6H ₂ O in the composition of the binder below 4 wt. %, water below 18 wt.% and a corresponding increase in the concentration of magnesium oxide over 78 wt.% there is a decrease in the strength of the binder due to the fact that the amount of calcium chloride CaCl ₂ ˙ 6H ₂ O is insufficient to ensure intensive hydration of magnesium oxide in the amount of water, two times smaller than theoretically necessary.

An increase in the concentration of calcium chloride CaCl ₂ ˙ 6H ₂ O in excess of 6 wt.% And water in excess of 20 wt.% And a corresponding decrease in magnesium oxide below 74 wt. % leads to a deterioration in the quality of the binder due to a decrease in the proportion of the active component of the binder - magnesium oxide and an increase in the concentration of calcium chloride CaCl ₂ ˙ 6H ₂ O, which does not have astringent properties.

Claims (1)

BINDER, including magnesium oxide, hydrochloric acid salt and water, characterized in that, in order to increase strength at 28 days of age, it contains calcium chloride crystalline hydrate as hydrochloric acid in the following ratio, wt.%:
Magnesium Oxide 74 - 78
Calcium Chloride Crystal Hydrate 4 - 6
Water Else

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