RU2064904C1 - Method of lime paste preparing - Google Patents

Abstract

FIELD: building industry. SUBSTANCE: method involves lime slaking with water where titanium tetrachloride is added (1-11.3 wt.-% of active lime content in paste) followed by removal of water excess by filtration. Method provides: paste adhesion to working surface is (4.2-11) x 10^-2 and (3.6-9.55) x 10^-2 MPa, respectively before and after freezing, paste whiteness is 86.68-88% and 83.2-86% before and after freezing, respectively. Paste can be used for decorative whitening. EFFECT: enhanced quality of paste. 1 tbl

Description

 The invention relates to a technology for the manufacture of building materials, namely, lime paste, and can be used for decorative whitewashing of internal and external surfaces of buildings.

 A known method of producing lime paste / 1 /, including the quenching of lump of lime with water to obtain milk of lime and the subsequent removal of excess water by filtration. The moisture content of the obtained lime paste is 60%, the content of calcium hydroxide is 40% by weight.

The paste obtained in a known manner is characterized by insufficiently high adhesive properties. It was experimentally established that the adhesion of the paste with the working surface was 1.5 • 10 ^-2 MPa. The low adhesive properties of the lime paste determine the low quality of the coating obtained when performing finishing work using the known paste, due to the uneven application of whitewash material on the surface and peeling of the coating after drying.

The closest in technical essence and the achieved technical result to the claimed one is a method of producing lime paste by extinguishing lump of lime with water, followed by removing excess water by filtering the resulting suspension, while chloride salts of CaCl ₂ , NaCl, etc. are introduced into the quenching water in an amount of 0.2 -12/.

 The technical result provided by the claimed invention is to increase the adhesive properties of the lime paste.

 The technical result is achieved by the fact that in the method of producing lime paste, which includes extinguishing lump of lime with water, introducing an addition of chloride salt, removing excess water by filtration, the chloride salt is introduced before filtration, and titanium tetrachloride in an amount of 1.0-11.3 is used as the chloride salt wt. from the content of active lime in the paste.

When titanium tetrachloride is introduced into the lime suspension, titanium hydroxide is formed by the following reaction:
TiCl ₄ + 4H ₂ O Ti (OH) ₂ + 4HCl (1)
The resulting hydrochloric acid is neutralized by calcium hydroxide, which leads to a shift in the equilibrium of reaction (1) towards the formation of titanium hydroxide:
4HCl + 2Ca (OH) ₂ 2CaCl ₂ + 4H ₂ O (2)
The total reaction of hydrolysis of titanium tetrachloride in milk of lime:
TiCl ₄ + 2Ca (OH) ₂ Ti (OH) ₄ + 2CaCl ₂ (3)
The resulting titanium hydroxide is a gelling agent, changes the viscosity of the H ₂ O Ca (OH) _{2 system} . The gel envelops Ca (OH) ₂ particles and, when using lime paste as a whitewash material, plays the role of a cementitious additive, increasing the adhesion of the paste to the working surface to 11 • 10 ^-2 MPa (see Nekrasov V.V. General chemistry course. Goskomizdat, 1953 p. 531-537).

 The optimal amount of titanium tetrachloride introduced into the lime suspension was established experimentally (see table) and is 1.0-11.3 wt. from the content of active lime in the paste.

 A decrease in the amount of titanium tetrachloride introduced into the lime paste below the claimed limit does not provide high adhesive properties of the resulting lime paste due to the low content of titanium hydroxide formed.

 An increase in the amount of titanium tetrachloride introduced into the lime paste above the claimed limit is impractical because at the same time, although a certain increase in the adhesive properties of the paste is provided, the whiteness of the paste is deteriorating, which is one of the important indicators of the consumer properties of lime paste.

 The inventive method is as follows. Lump lime from the kiln is sent to the MIC extinguishing apparatus, into which water is supplied. A calcareous suspension is obtained with a concentration of calcium hydroxide of 150-180 g / l in terms of CaO.

 Titanium tetrachloride in the claimed amounts is added into the obtained lime suspension under a water seal under stirring. Then the lime suspension is sent to a drum filter BOU-20 for filtration under vacuum of 0.6-0.8 at.

Obtained on the surface of the fabric (such as belting) paste containing 27-32 wt. calcium hydroxide (in terms of active lime), which meets the requirements of TU 48-0501-300-88, and 0.42-5.3% of titanium in terms of TiO ₂ , is sent to the storage hopper, from the bottom of which is fed by a screw feeder served in packaging containers.

 Comparative tests of lime paste were carried out, upon receipt of which, by the claimed method, the amount of titanium tetrachloride introduced into the lime suspension was changed from 0.5 to 12.0 wt. from the content of active lime (see table, experiments 1-5).

 The lime paste obtained according to the technical solution of the prototype was also tested (see table, experiment 6).

The following properties of lime paste were determined: whiteness (%); adhesion of the paste to the working surface before freezing and after freezing the paste (1 • 10 ^-2 .

 The whiteness of the lime paste was determined using a KC-2 color comparator.

 The adhesive properties of the paste are determined on a tensile testing machine PT-8.

 The test results are shown in the table, which shows that the best properties both before and after freezing have a lime paste, upon receipt of which the amount of titanium tetrachloride introduced into the lime suspension was 1.0-11.3 wt. from the content of active lime in the paste (see experiments 2-4).

When titanium tetrachloride is introduced into the lime suspension in an amount below the declared limit (0.5 wt.% Of the active lime content in the paste), the adhesion of the paste was 1.5 • 10 _-2 and 1.4 • 10 ^-2 MPa, respectively, before and after freezing. The whiteness indicators in this case are high (see experiment 1).

An increase in the amount of titanium tetrachloride above the claimed limit (12.0 wt.% From the content of active lime in the paste) is impractical, because in this case, there is a slight increase in adhesive properties (11.2 • 10 ^-2 MPa before and after freezing, respectively), and the whiteness of the resulting paste deteriorates (see experiment 5).

Lime paste, obtained according to the technical solution of the prototype, is characterized by high whiteness, however, its adhesive properties are low
1.15 • 10 ^-2 and 1.1 • 10 ^-2 MPa, respectively, before and after freezing (see experiment 6). This determines the low quality of the coating due to the low hiding power and peeling of the coating after drying.

 The proposed lime paste has high adhesive properties both before and after freezing, is characterized by high hiding power and whiteness, which determines the high quality of the coating when using the proposed paste as a whitewash material.

Claims (1)

 A method of producing a lime paste, which includes extinguishing lump of lime with water, introducing an addition of chloride salt, removing excess water by filtration, characterized in that the chloride salt is introduced before filtration, and titanium tetrachloride in an amount of 1.0 to 11.3 wt. from the content of active lime in the test.

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