RU2439016C1 - Complex additive for modifying gypsum binding materials - Google Patents

Abstract

FIELD: chemistry.

SUBSTANCE: invention relates to construction materials, and specifically to additives used in production of gypsum binding materials, dry construction mixtures, mortar and concrete articles based on said binding materials. The complex additive for modifying gypsum binding materials, dry construction mixtures, mortar and concrete based on said binding materials, containing a mineral component based on calcium sulphate, a plasticiser, a hardening and setting time regulator, contains said mineral component in form of crude ground gypsum, plasticiser in form of Sika Viscj Crete 225 powder Vp or Melflux 5581F, the hardening and setting time regulator in form of calcium gluconate and additionally contains a water repellent - calcium polymethyl siliconate and an antifoaming agent - Axilat DE 770, where said components are in the following ratio in wt %: said mineral component 64.0-78.0, said plasticiser 15.0-20.0, said water repellent 4.8-8.6, said antifoaming agent 0.2-0.4, said hardening and setting time regulator 2.0-7.0.

EFFECT: high strength and water resistance of the obtained gypsum binding materials, mortar and concrete based on said binding materials, reduced shrinkage of the hardened material, low fluidity of the gypsum suspensions.

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Description

The invention relates to the field of building materials, namely, additives used in the production of gypsum binders, building dry mixes, mortars and concrete products based on them.

The invention is known (patent RU No. 2381191 "Organic-mineral modifier of gypsum binders, mortars, concrete and products based on them"), which describes the modifier, characterized in that as an active mineral component it contains silica fume and a finely divided silica-containing component, and as a stabilizer, water-soluble cellulose ether with a viscosity of 5000-20000 MPa · s. The technical result of the invention is to increase the strength, crack resistance and durability of modified gypsum binders, mortars and concrete based on them, reducing energy consumption, in the following ratio of components, wt.%:

Hydraulic binder 42-76 Active mineral component 8-48 Plasticizing additive 2.1-11.4 Setting time adjuster 0.23-3.8 Specified stabilizer 0.01-1.5

The disadvantages of the invention include the low compressive strength of the resulting products (up to 15 MPa) and the insufficient fluidity of the resulting gypsum suspensions.

Known (RU patent for the invention 2260572, CL IPC С04В 11/30, published on September 20, 2005, Bull. No. 26), the additive selected as the closest analogue for the modification of gypsum binders, mortars and concrete based on them, including, by weight .%:

hydraulic binder 50-90 active mineral component 10-45 plasticizer 0.1-2 setting and setting times 0.001-1 stabilizer 0.001-5

Moreover, as a hydraulic binder, the additive contains Portland cement of any kind, white cement, non-ferrous cement, alumina cement, hydraulic lime or a mixture thereof in any proportion, as an active mineral component - fly ash, rice or buckwheat husk ash, ash and slag from thermal power plants , ceramic dust, waste from brick and other ceramic products, aluminum compounds, fine quartz sand, silica fume, pumice, glass break, silica gel, tuff, diatomite, white soot, aerosil, or any mixture thereof proportions, as a plasticizing additive - a superplasticizer containing compounds based on sulfonated melamine-formaldehyde compounds and / or complexes based on them, compounds based on sulfonated naphthalene formaldehyde compounds or complexes based on them, compounds based on modified lignosulfonates, or compounds based on water-soluble carboxylate polymers, or their mixture in any proportion, as regulators of the setting time and hardening - a moderator of gypsum hardening, as the stabilizer - water-soluble cellulose ether. At the same time, one of the following components or semi-aquatic gypsum or anhydrite mixed in any proportion is used as gypsum binders, the dosage of the additive is carried out in an amount of 10-40% of their mass, and the value of its specific surface is 550-7000 m ² / kg.

The disadvantage of this additive is that when it is used in the hardened material, water-insoluble polymer films are not formed, which increase the water resistance of the material, and the cellulose ethers used in it slow down the hardening process of gypsum or cement and reduce the rate of concrete strength gain. In addition, the use of a large amount of Portland cement in combination with silica fume leads to an increase in shrinkage deformations and the possibility of cracking. At the same time, the components included in this additive do not have antiseptic properties, which, if stored for a long time, can lead to the penetration of microorganisms harmful to human health and destructive to the finished material.

As a prototype (RU patent for the invention No. 2368579 dated 02.15.2008; publ. 09/27/2009 "ADDITIVE FOR MODIFICATION OF GYPSUM BINDERS") of the claimed technical solution, an additive for modifying gypsum binders, mortars, including a hydraulic binder - Portland cement, an active mineral component was selected - silica fume, plasticizing additive — superplasticizer, setting and hardening terms, additionally contains gypsum building and redispersible polymer, while the components have the following ratio, wt. %:

gypsum building 65.0-75.0 Portland cement 24.0-28.0 silica fume 2.0-4.0 superplasticizer 0.7-1.2 redispersible polymer 0.8-1.2 setting and setting times 0.04-0.06

The additive for the modification of gypsum binders, mortars according to the invention, selected as a prototype, contains, wt.%: Building gypsum - 65.0-75.0; Portland cement of any kind - 24.0-28.0; silica fume - 2.0-4.0; superplasticizer - 0.7-1.2; redispersible polymer - 0.8-1.2; tartaric acid - 0.04-0.06.

Portland cement in the composition of the additive, when combined with silica fume, greatly reduces the curing time of the material, increases the likelihood of adverse effects due to false setting, reducing the durability of the products.

Silica fume with calcium hydroxide Ca (OH) ₂ , released during the hydration of Portland cement, loosens the structure due to the formation of porous calcium hydrosilicates.

Superplasticizer of melamine formaldehyde (SMF) or naphthalene formaldehyde (SNF) type does not sufficiently increase the plasticity of the mixture and does not allow to reduce the amount of mixing water with stirring. The redispersible polymer based on a copolymer of vinyl acetate and ethylene in the technical solution selected for the prototype somewhat reduces permeability, increases the elasticity of the hardening material, reduces the rate of hardening, and reduces its density due to additional porosity.

In the known technical solution, tartaric acid and keratin retarder, which significantly reduce the strength of the material obtained, are used as a regulator of the setting time and hardening.

The disadvantages of the known technical solutions include the low strength (not more than 12.0 MPa) of the material obtained from building gypsum, significant deformation shrinkage of products, short survivability of gypsum suspension, the need to work with large quantities of additives in production (up to 250 kg per ton of raw material component ), which leads to significant complications of the technology and the cost of the final product.

The technical result of our proposed technical solution, claimed as an invention, is a complex additive for modifying gypsum, increasing the strength and water resistance of the resulting gypsum binders, dry building mixes and concrete based on them, reducing the shrinkage deformation of hardened material, improving the fluidity of gypsum suspensions. The result of the claimed invention is a comprehensive additive for the modification of gypsum binders, significantly improving the physico-mechanical properties of the resulting material.

The technical result is achieved by the fact that a complex additive for modifying gypsum binders, dry building mixtures, mortars, including a mineral component based on calcium sulfate, a plasticizer, a setting regulator and hardening terms, additionally contains a water repellent and antifoam, while the components have the following ratio, wt. %:

calcium sulfate mineral component 64.0-78.0 hyperplasticizer 15.0-20.0 water repellent 4.8-8.6 antifoam 0.2-0.4 setting and setting times 2.0-7.0

Complex additive, also characterized in that as the mineral component based on calcium sulfate in the claimed technical solution, raw ground gypsum GOST 17498-72 (DSTU B B.2.7-104-2000) or gypsum binder of grades G-2-20 are used; as a hyperplasticizer use sodium polycarboxylate, for example, "Sika ViscoCrete 225 powder Vp" or "Melflux 5581 F"; Calcium polymethylsiliconate is used as a water repellent; as an antifoam "Axilat DF 770" and as a regulator of the setting time and hardening of sodium gluconate.

Moreover, this additive is used in an amount of 0.6-1.6% by weight of the gypsum binder in the manufacture of gypsum binder with improved technical characteristics, high-strength compositions of dry building mixtures and mortars, as well as in the manufacture of gypsum concrete products. Hardened material using the specified complex additives has the following main characteristics:

density, kg / m ³ 1820.0-2200.0 gypsum slurry at the V / G ratio, 190.0 equal to 0.18, not less than, mm gypsum slurry at the V / G ratio, 300,0 equal to 0.4, not less than, mm survivability of gypsum slurry, 60 not less than min compressive strength, MPa 24.0-100.0 water absorption no more than,% 2.5 water resistance coefficient not less than 0.85 frost resistance not less than cycles 25 freeze-thaw

The claimed additive for the modification of gypsum binders, mortars is illustrated using the following examples.

Example 1

To experimentally confirm the composition of the additive, the following mixture of ingredients was prepared (wt.%):

1. Gypsum cement binding construction grade G5 - 80.

2. Additive for the modification of gypsum binders for building mortars - 1.0.

3. Quartz sand - 19.

4. Mixing water until the mixture is spreadable (Suttard mobility after 5 minutes - 270, after 10 minutes - 250, after 15 minutes - 190) and W / D = 0.35.

In this case, an additive was used to modify gypsum binders for building mortars of the following composition (% by weight):

raw gypsum 64.0 Sika ViscoCrete 225 powder Vp 20,0 calcium polymethylsiliconate 8.6 antifoam "Axilat DF 770" 0.4 sodium gluconate 7.0

The resulting composition has the following physical and technical characteristics: density - 1728.0 kg / m ³ ; water resistance coefficient - 0.99; compressive strength after 12 hours - 15.2 MPa; after 10 days - 28.5 MPa; frost resistance 30 cycles; gypsum slurry survivability - 65 min; product shrinkage - 0.1 mm / m.

Example 2

To experimentally confirm the composition of the additive, the following mixture of ingredients was prepared (wt.%):

1. Gypsum cement binding construction grade G5 - 80.

2. Additive for the modification of gypsum binders for building mortars - 0.6.

3. Quartz sand - 19.4.

4. Mixing water until the mixture spreads (mobility along Suttard after 5 minutes - 280, after 10 minutes - 270, after 15 minutes - 240). In this case, an additive was used to modify gypsum binders for building mortars of the following composition (wt.%):

raw gypsum 70.0 Sika ViscoCrete 225 powder Vp 18.0 calcium polymethylsiliconate 6.0 antifoam "Axilat DF 770" 0.3 sodium gluconate 5.7

The resulting composition has the following physical and technical characteristics: density - 1640.0 kg / m ³ ; water resistance coefficient - 1.0; compressive strength after 10 hours - 14.8 MPa, 10 days - 26.5 MPa; frost resistance of 35 cycles; survivability of gypsum suspension - 65 min; product shrinkage - 0.14 mm / m.

Example 3

To experimentally confirm the composition of the additive, the following mixture of ingredients was prepared (wt.%):

1. Gypsum building binder grade G5 - 80.

2. Additive for the modification of gypsum binders for building mortars - 1.2.

3. Quartz sand - 18.8.

4. Mixing water until the mixture spreads (mobility along Suttard after 5 minutes - 250, after 10 minutes - 250, after 15 minutes - 200). In this case, an additive was used to modify gypsum binders for building mortars of the following composition (wt.%):

raw gypsum 70.0 Sika ViscoCrete 225 powder Vp 18.0 calcium polymethylsiliconate 6.0 antifoam "Axilat DF 770" 0.3 sodium gluconate 5.7

The resulting composition has the following physical and technical characteristics: density - 1780.0 kg / m ³ ; water resistance coefficient - 1.1; compressive strength after 10 hours - 16.7 MPa; after 10 days 27.8 MPa; frost resistance 37 cycles; gypsum slurry survivability - 65 min; product shrinkage - 0.1 mm / m.

Example 4

To experimentally confirm the composition of the additive, the following mixture of ingredients was prepared (wt.%):

1. Gypsum high-strength binder grade G16 - 80.

2. Additive for the modification of gypsum binders for building mortars - 1.0.

3. Quartz sand - 19.0.

4. Mixing water until the mixture spreads (mobility according to Suttard after 5 minutes - 240, after 10 minutes - 230, after 15 minutes - 180). In this case, an additive was used to modify gypsum binders for building mortars of the following composition (wt.%):

raw gypsum 70.0 Sika ViscoCrete 225 powder Vp 18.0 calcium polymethylsiliconate 6.0 antifoam "Axilat DF 770" 0.3 sodium gluconate 5.7

The resulting composition has the following physical and technical characteristics: density - 1980.0 kg / m ³ ; water resistance coefficient - 0.99; compressive strength after 10 hours - 27.7 MPa; after 10 days, 81.4 MPa; frost resistance 39 cycles; survivability of gypsum suspension - 68 min; shrinkage of the product is 0.12.

Example 5

To experimentally confirm the composition of the additive, the following mixture of ingredients was prepared (wt.%):

1. Gypsum molding binder grade G7 - 80.

2. Additive for the modification of gypsum binders for building mortars - 1.0.

3. Quartz sand - 19.0.

4. Mixing water until the mixture spreads (mobility according to Suttard after 5 minutes - 240, after 10 minutes - 230, after 15 minutes - 180). In this case, an additive was used to modify gypsum binders for building mortars of the following composition (wt.%):

raw gypsum 70.0 Sika ViscoCrete 225 powder Vp 18.0 calcium polymethylsiliconate 6.0 antifoam "Axilat DF 770" 0.3 sodium gluconate 5.7

The resulting composition has the following physical and technical characteristics: density - 1910.0 kg / m ³ ; water resistance coefficient - 1.05; compressive strength after 10 hours - 18.6 MPa; after 10 days, 55.1 MPa; frost resistance of 35 cycles; survivability of gypsum suspension - 70 min; shrinkage of the product - 0.1 mm / m.

Example 6

To experimentally confirm the composition of the additive, the following mixture of ingredients was prepared (wt.%):

1. Plaster knitting construction G4 - 80.

2. Additive for the modification of gypsum binders for building mortars - 1.5.

3. Quartz sand - 18.5.

4. Mixing water until the mixture is spreadable (Suttard mobility after 5 minutes - 280, after 10 minutes - 250, after 15 minutes - 190). In this case, an additive was used to modify gypsum binders for building mortars of the following composition (wt.%):

raw gypsum 70.0 Sika ViscoCrete 225 powder Vp 18.0 calcium polymethylsiliconate 6.0 antifoam "Axilat DF 770" 0.3 sodium gluconate 5.7

The resulting composition has the following physical and technical characteristics: density - 1710.0 kg / m ³ ; water resistance coefficient - 0.99; compressive strength after 10 hours - 16.6 MPa; after 10 days 26.7 MPa; frost resistance of 35 cycles; survivability of gypsum suspension - 60 min; shrinkage of the product - 0.11 mm / m.

Example 7. (prototype) As in the prototype, the following mixture of ingredients was prepared (wt.%):

1. Plaster of construction - 80.

2. Additive for the modification of gypsum binders for building mortars - 20.0.

3. Mixing water until the mixture is spreadable (Suttard mobility after 5 minutes - 250, after 10 minutes - 150, after 15 minutes - 90), W / D = 0.52.

In the prototype, an additive was used to modify gypsum binders for building mortars of the following composition (% by weight):

gypsum building 70 Portland cement 26.46 silica fume 2.0 superplasticizer 0.7 melamine formaldehyde (SMF) type redispersible polymer based 0.8 copolymer of vinyl acetate and ethylene wine acid 0.04

The resulting composition has the following physical and technical characteristics: density - 800.0 kg / m ³ ; water resistance coefficient - 0.86; compressive strength (28 days) - 4.9 MPa; frost resistance 30 cycles; survivability of gypsum suspension 30 min; shrinkage of the product - 1.58 mm / m.

Comparative characteristics of gypsum materials using the developed by us complex additives and additives selected as a prototype are given in table 1.

Table 1 Example No. Additive consumption,% Spread mm at W / D ratio The survivability of gypsum suspension, min Shrinkage, mm / m products Water resistance coefficient Compressive strength, MPa one. 1,0 270 at 65 0.1 0.99 28.5 0.35 2. 0.6 280 at 65 0.14 1,0 26.5 0.4 3. 1,2 250 at 65 0.1 1,1 27.8 0.38 four. 1,0 240 at 68 0.12 0.99 81.4 0.2 5. 1,0 240 at 70 0.1 1.05 55.1 0.22 6. 1,5 280 at 60 0.11 0.99 26.7 0.4 7. (about twenty 250 at thirty 1,58 0.86 4.9 totip) 0.52

As can be seen from the above examples, the additive for the modification of gypsum binders for building dry mixes, mortars and concrete based on gypsum binders has significant advantages over the known ones and increases the strength and water resistance with the required survivability of the gypsum slurry.

Claims (1)

A complex additive for modifying gypsum binders, building dry mixes, mortars and concrete based on these binders, including a mineral component based on calcium sulfate, a plasticizer, a setting and hardening time regulator, characterized in that it contains raw gypsum as the specified mineral component, as a plasticizer - Sika ViscjCrete 225 powder Vp or Melflux 5581F, as a regulator of the setting time and hardening - calcium gluconate and additionally contains a water-repellent-polymethylsiliconate cal lst and antifoam - Axilat DE 770, while the components have the following ratio, wt.%:
mineral component 64.0-78.0 plasticizer 15.0-20.0 water repellent 4.8-8.6 antifoam 0.2-0.4 setting and setting times 2.0-7.0