RU2602458C2 - Dry adhesive cement-based mixture - Google Patents

Abstract

FIELD: construction.

SUBSTANCE: invention relates to dry adhesive cement-based mixture used as tile glue to perform facing work of outer fronts and internal walls of buildings with ceramic tiles. Mixture contains Portland cement, quartz sand, a plasticizer, polymer and a mineral additive and additionally contains as mineral additive synthesized aluminosilicates obtained by sedimentation from liquid glass with silica modulus 2.8 introduction of 15 % solution of technical aluminium sulphate Al₂(SO₄)₃ with subsequent washing with distilled water of obtained sediment and drying at temperature t = 5±105 °C during 24 hours with subsequent grinding into particles sized 5.208-5.704 µm, as polymer additive-Neolith p 4400, as plasticizer Kratasol LFM in the following proportions, wt%: Portland cement M400 53.07-60.05, silica sand, in fractions, mm: 0.630-0.315 23.54-26.67, 0.315-0.14 5.89-6.67, synthesized aluminosilicates with sizes 5.208-5.704 µm 6.05-15.92, additive Kratasol LFM 0.28-0.79, additive Neolith p 4400 0.28-0.79.

EFFECT: technical result is higher adhesion strength and compression strength, reduced slipping down of tiles.

1 cl, 7 tbl

Description

 The invention relates to the field of building materials, namely to multicomponent dry construction mixes based on cement binder, and can be used as tile adhesive for ceramic cladding of exterior facades and internal walls of buildings.

Known compositions containing cement, mineral aggregate, including sand and zeolite-containing rock (RU 2348588, priority date 10.03.2006, publication date 10.03.2009, Vasilovskaya NG) [1].

The closest of the proposed in its technical essence and the achieved result is a cement composition used as a universal dry cement composition, including Portland cement, sand, limestone or dolomite flour, polyvinyl acetate dispersion powder with a mass ratio of components: Portland cement: sand: superplasticizer: limestone or dolomite flour: cellulose methyl ester: condensed silica fume: polyvinyl acetate: hardening regulator: tartaric acid 10-70, 85-1.0, 0.05-1.5, 0.5-85, 0.01-2.5, 0.25-3.5, 0.01-5.0, 0.10001-0.9, 0.01- 0.1 (RU 2181705, priority date 12/17/1999, publication date 04/27/2002, Lototsky A.I.) [2].

The disadvantage of these compositions are low tensile strength in compression, low adhesive strength, significant sliding tiles.

The objective of the invention is to remedy these disadvantages.

The problem is solved in that the composition of the dry mortar based on a cement binder is used as a tile adhesive for ceramic cladding of exterior facades and internal walls of buildings, including: Portland cement, mineral aggregate, plasticizer, polymer and mineral additives; It contains quartz sand of the Ukhta deposit with fractions of 0.630-0.315 mm and 0.315-0.14 mm in a ratio of 4: 1 as a mineral aggregate, as a polymer additive - a redispersible powder - Neolith P 4400, as a plasticizer - an additive Kratasol PFM, as mineral additives - synthesized aluminosilicates obtained by their precipitation from a solution of aluminum sulfate Al ₂ (SO ₄ ) _{3 by} adding sodium silicate, followed by washing with water and sediment drying at a temperature of t = 105 ± 5 ° C in the following ratio of components, mass. %:

Portland cement M400 53.07-60.05 Quartz sand, fractions: 0.630-0.315 23.54-26.67 0.315-0.14 5.89-6.67 Synthesized Aluminosilicates 6.05-15.92 Additive Kratasol PFM 0.28-0.79 Additive Neolith P 4400 0.28-0.79

A cement-based dry adhesive mixture is prepared in the form of a homogeneous dry mixture consisting of Portland cement, quartz sand with fractions of 0.630-0.315 mm: 0.315-0.14 mm in a 4: 1 ratio, a filler in the form of synthesized aluminosilicates, Kratasol PFM and Neolith P 4400, which before use is diluted with water to the state of an easily moving plastic paste.

The following materials were used to prepare a dry cement-based adhesive mixture:

Portland cement, which is a fine powder of gray-green color. Physico-mechanical tests of cement are presented in table 1.

The sand of the Ukhta deposit belongs to the group of fine sands. The mineral composition is quartz with an admixture of feldspar, glauconite, clay-opal aggregates, as well as fractions of heavy minerals - zircon, rutile, ilmenite, distene, etc. Physicochemical parameters are shown in table 2.

Kratasol PFM admixture is a multifunctional admixture for concrete, meets the requirements of GOST 24211 [3] and belongs to the group of superplasticizers and additives that increase frost resistance. Plasticizing additive Kratasol PFM is a product obtained by multistage organic synthesis and is a copolymer based on sodium polymethylene naphthalenesulfonates with the addition of an air-entraining and hydrophobizing component. Physico-chemical characteristics of the additives Kratasol PFM are shown in table 3.

Redispersible powder Neolith P 4400 is a copolymer powder based on vinyl acetate and vinyl versatate. It is produced by spray drying a latex dispersion with polyvinyl alcohol as a protective colloid, and it is easily redissolved in water. Neolith P 4400 is particularly suitable for the preparation of cement adhesives for tiles. Delivered to Russia by EuroChem-1. The properties of the redispersible powder Neolith P 4400 are shown in table 4.

A mineral additive is obtained by precipitation from water glass with a silicate module of 2.8 by the introduction of a 15% solution of technical aluminum sulfate Al ₂ (SO ₄ ) ₃ (GOST 12966-85 with amendment 1, 2) [4] followed by washing with distilled water sediment and grinding dried at a temperature of t = 105 ± 5 ° C for 24 h of sediment to a particle size of 5.208-5.704 microns. Physico-chemical characteristics of mineral additives based on synthesized aluminosilicates are presented in table 5.

Specific examples of the compositions of the dry cement-based adhesive mixture are given in table. 6.

To study the properties of the presented compositions of the dry cement-based adhesive mixture, the following methods were used.

The compressive strength of the samples was determined according to GOST 5802-86 “Construction solutions. Test methods ”[5] on cube samples measuring 70 × 70 × 70 mm at the age of 28 days. Three samples were made. As a test equipment for studying the compressive strength of samples, a testing machine of the type IR 5057-50 was used. Depending on the type of used IR 5057-50 power sensor, the range of force measurement is from 50 to 50,000 N with an accuracy of 1 N (0.1 kgf). The built-in controllers of the traverse movement speed allow setting the load application speed from 1 to 100 mm / min (by the value of movement). The compressive strength of the samples is determined by the formula:

where P is the destructive force, N;

F is the cross-sectional area of the sample before the test, mm ² .

To assess the strength of adhesion to the base, the stamp peeling method (normal peeling) was used according to the European standard EN 1348: 2007 “Solutions and adhesives for ceramic tiles. Determination of adhesion to the base of cement-containing mortars for indoor and outdoor use. German publication EN 1348: 2007 ”, registered by the Federal Agency for Technical Regulation and Metrology FSUE“ Standardinform ”, registration number 5067 / DIN EN, registration date - November 30, 2010 [6]. The method is based on determining the force of peeling of the stamp from the surface by separation. After 27 days of storage under normal conditions, tiles with a cylindrical shape with a diameter of 20 mm were glued to the tiles using epoxy glue (EDP-TU 0751-018-48284381-00). After another 24 hours of storage under normal conditions, the adhesion strength of the solution to the base is determined. For this, a load is applied to the stamp with a constant rate of increase (250 ± 50) N / s. The adhesion strength of the finishing composition to the substrate was determined by the formula:

where P is the total tensile force, N;

F is the bonding surface, mm ² .

The strength of adhesion to the base in a water-saturated state was determined by the method of tearing a stamp (normal tearing) according to the European standard EN 1348: 2007 “Solutions and adhesives for ceramic tiles. Determination of adhesion to the base of cement-containing mortars for indoor and outdoor use. German edition of EN 1348: 2007 ”. The test samples can withstand 7 days under normal conditions, then stored in water at normal temperature. After 20 days, the test samples are removed from the water, wiped dry with a towel and glued to the tiles with cylindrical dies with a diameter of 20 mm using epoxy glue (EDP-TU 0751-018-48284381-00). After 7 hours, the test samples are again placed in water at normal temperature. The next day, the test specimens are removed from the water and immediately after that they test the adhesion to the base. The adhesion strength of the finishing composition to the substrate was determined by the formula:

where P is the total tensile force, N;

F is the bonding surface, mm ² .

To determine the strength of adhesion to the base after freeze-thaw cycles of a saturated sample, we used the tear-off method (normal tear-off) according to the European standard EN 1348: 2007 “Solutions and adhesives for ceramic tiles. Determination of adhesion to the base of cement-containing mortars for indoor and outdoor use. German edition of EN 1348: 2007 ”. The test samples can withstand 7 days under normal conditions, then stored in water for 21 days, and then subjected to 25 cycles of freezing and thawing. The freezing and thawing cycle was carried out according to the procedure specified in the standard EN 1348: 2007. At the end of the last cycle, the test samples are removed from the water, wiped dry with a towel and glued to the tiles with cylindrical dies with a diameter of 20 mm using epoxy adhesive (EDP-TU 0751-018-48284381-00). The test samples can withstand another 24 hours under normal conditions. The adhesion to the base is determined according to the formula:

where P is the total tensile force, N;

F is the bonding surface, mm ² .

Correction time for ceramic tiles is determined according to TU 5745-011-58239148-04 "Glue for fixing tiles. Specifications ”approved by Henkel Bautechnik LLC (01.01.2004), date of introduction: January 1, 2004 [7]. Correction time is determined on a cement-fiber plate, on which a glue layer is applied with a notched trowel and immediately glued 4-5 ceramic tiles (5 × 5 cm) with their further loading for 30 seconds with a force of 5 N applied to the center of the tile. With an interval of 5 minutes from the moment of gluing the tiles, their position is adjusted by turning 180 ° in the horizontal plane without applying a pressing force or detachment. The time of possible adjustment of the position of the tile is defined as the time from the start of gluing the first tile to the moment of testing the last tile, at which it does not come off after adjustment of the position.

Tile sliding was determined according to the European standard EN 1308: 2007 “Mortars and adhesives for ceramic tiles. Definition of creep. German publication EN 1308: 2007 ”, registered by the Federal Agency for Technical Regulation and Metrology FSUE“ Standardinform ”, registration number 5065 / DIN EN, registration date - 11/30/2010 [8]. The method consists in measuring the maximum sliding of the tile under the influence of its own weight using the difference of the caliper readings.

The test results of the compositions of the dry adhesive mixture on a cement basis are given in table. 7.

Claims (1)

Cement-based dry adhesive mixture used as tile adhesive for ceramic cladding of exterior facades and internal walls of buildings, including Portland cement, silica sand, plasticizer, polymer and mineral additives, characterized in that it additionally contains synthesized aluminosilicates as mineral additives, obtained by precipitation from water glass with a silicate module of 2.8 the introduction of a 15% solution of technical aluminum sulfate Al ₂ (SO ₄ ) ₃ , followed by washing the distillations with the obtained water and drying it at a temperature of t = 105 ± 5 ° C for 24 hours, followed by grinding to a particle size of 5.208-5.704 μm, and as a polymer additive - Neolith P 4400, as a plasticizer Kratasol PFM in the following ratio of components mass. %:
Portland cement M400 53.07-60.05 Sand quartz, fractions, mm: 0.630-0.315 23.54-26.67 0.315-0.14 5.89-6.67 Synthesized Aluminosilicates 5.208-5.704 microns in size 6.05-15.92 Additive Kratasol PFM 0.28-0.79 Additive Neolith P 4400 0.28-0.79