PL211110B1 - Cement-mineral blend destructing living organisms - Google Patents

Description

(12) PATENT DESCRIPTION (19) PL (11) 211110 (13) B1 (21) Application number: 368926 ^{(51) Int.Cl.}

C04B 28/04 (2006.01) C04B 103/67 (2006.01) C04B 103/69 (2006.01) (22) Date of notification: 05.07.2004 (54) Cement-mineral composition with biocidal properties

(73) The right holder of the patent: INSTITUTE OF POLYMER MATERIALS AND DYES ENGINEERING, Toruń, PL (43) Application was announced: (72) Inventor (s): 09.01.2006 BUP 01/06 STEFAN KUBICA, Zabrze, PL HELENA KUCZYŃSKA, Gliwice, PL WLADYSŁAW FEDIUK, Gdańsk, PL ALEKSANDRA DOMAŃSKA-PYŚKO, (45) The grant of the patent was announced: Pruszcz Gdański, PL April 30, 2012 WUP 04/12 EWA BRZEZICKA, Pruszcz Gdański, PL AGNIESZKA WOŹNICZKA, Gliwice, PL (74) Representative: item. stalemate. Jan Michalak

PL 211 110 B1

Description of the invention

The subject of the invention is a cement-mineral composition with biocidal properties, intended especially for grouting - filling empty spaces between elements of concrete, stone and ceramic linings and between elements of masonry structures.

Compositions containing admixtures with biocidal and hydrophobizing properties to protect against the effects of the environment, including the action of fungi and molds, are well known. Moreover, there are known methods of producing special cement binders (cements) by applying modifications to the cement production method consisting in the introduction of additives and mineral admixtures.

It is known from EP 0 594 440 a method for producing a water-soluble or water-dispersible organosilicon composition having antibacterial and antifungal properties, containing alkylalkoxy silanes and / or non-ionic and anionic emulsifiers, bactericides and fungicides.

EP 1223200 describes a composition for protecting wooden structures, jute mats, paper, etc. against environmental attack, containing an admixture of a biocide and a hydrophobicizing agent. The composition is available in liquid form - i.e. it is a solution of these admixtures in popular solvents.

The composition against fouling by algae of various types of structures operating in an aquatic environment, according to the international application WO 0135713, comprises a biocide and a binder. The biocide is gradually released into the environment. It consists of tea tree oil, eucalyptus oil, and other essential oils.

There is also known an aquatic / marine anti-fouling system according to international application WO 9419415, comprising a resin dispersed water glass containing phosphorus pentoxide and copper oxide.

Both conventional Portland cements and cements modified in various ways are used for the production of cement joints. The method of obtaining mineralized Portland cement with the use of calcium sulphate, fluorine compounds and post-production mineral waste, introduced at the appropriate stage of production, is known from the patent description EP 0748302.

The chromium (Cr VI) compounds in the Portland cements used for the production of joints have a detrimental effect on human health. Therefore, among others, in the patents: EP 1092690 and EP 0697380, methods of producing cement with a reduced content of chromium compounds (Cr VI) are presented.

The known methods of producing cement joints generally consist in preparing a dry mix consisting of a cement binder and admixtures modifying the processing and operational properties of cement joints. The admixtures used are mainly setting time regulators, fluidity regulators as well as sealing, hydrophobic and thixotropic agents, and other admixtures aimed at improving the resistance of joints to aggressive environmental influences.

The use of cement joints in an environment conducive to the growth of bacteria, fungi and mold causes that they are subject to rapid biological corrosion and after some time they cease to fulfill their functions properly. The cause of the biological degradation of the joints are in many cases the admixtures used that modify the processing properties of the joints, especially organic admixtures, which inherently tend to biodegrade, and the products of their biodegradation negatively affect the functional properties of the joints. The group of such admixtures includes, inter alia, cellulose derivatives.

The methods of immunizing cement joints against biological attack described in the prior art relate mainly to treatments consisting in protecting the surface of the hardened joint with biocides. This is mainly due to the low resistance of admixtures with biocidal properties to the strongly alkaline environment (pH up to 13.2) that occurs when setting cement joints.

The cement-mineral composition according to the invention with biocidal properties contains a mixture of dry basic ingredients, which includes: Portland cement without CEM I 32.5 additives in the amount of 75 - 95 parts by weight, classified fly ash in the amount of 5 - 25 parts by weight and modifying additives, preferably high molecular weight polyoxyethylene in an amount of 0.01-0.10 parts by weight, sodium sulphate in an amount of 0.015-0.045 parts by weight, carbendazim

PL 211 110 B1 and / or sodium-o-phenyl diuron and / or phenoxide 0.1 - 0.3 parts by weight, sodium salts of polycondensates of naphthalene sulfonic acids (C10H8O3S) x ... xNa 0.1 - 0 3 parts by weight.

Unexpectedly, it turned out that the appropriate selection, both qualitative and quantitative, of the introduction of biocidal admixtures into the dry binder mixture in the form of classified fly ash, the regulator of the rheological properties of the joint in the form of a high molecular weight polyoxyethylene admixture, an inhibitor of the decomposition of a biocide in an alkaline environment, whose function polyoxyethylene admixtures and sodium salts of naphthalene sulfonic acid polycondensates (C10H8O3S) x ... xNa formaldehyde polycondensates and biocides resistant to elevated pH, while preventing chemical decomposition of these admixtures under the influence of high pH of the bonding environment, allows to obtain the required joint resistance to the action of biocides, provided that the pH level of the bonding joint environment is reduced, introducing an admixture that stabilizes the biocide and the use of a biocide that does not degrade in this environment.

The cement-mineral composition according to the invention with biocidal properties shows resistance to the action of bacteria, fungi and mold, and is not subject to atmospheric corrosion due to dry air or moisture.

The composition according to the invention is described in more detail in the working examples.

P r z k ł a d I

Portland cement without CEM I 32.5 additives in the amount of 75,000 parts by weight and classified fly ash in the amount of 24.725 parts by weight are introduced into the mixer, which components are mixed with high molecular weight polyoxyethylene in the amount of 0.010 parts by weight, sodium sulphate in the amount of 0.015 parts by weight , carbendazim in an amount of 0.150 parts by weight, sodium salts of naphthalene sulfonic acid polycondensates (C10H8O3S) x ... xNa in an amount of 0.100 parts by weight.

The thus obtained composition is conditioned for 2 - 4 minutes. In order to obtain a weld, the so-called grout, the composition is bound to water in the water-joint ratio w / s = 0.4.

P r z x l a d II

Portland cement without CEM I 32.5 additives in an amount of 80,000 parts by weight and classified fly ash in the amount of 19,420 parts by weight, which components are mixed with high molecular weight polyoxyethylene in the amount of 0.050 parts by weight, sodium sulphate in the amount of 0.030 parts by weight, are introduced into the mixer. , carbendazim in an amount of 0.300 parts by weight, sodium salts of naphthalene sulfonic acid polycondensates (C10H8O3S) x ... xNa in an amount of 0.200 parts by weight.

The thus obtained composition is conditioned for 2 - 4 minutes. In order to obtain a weld, the so-called grout, the composition is bound to water in the water-joint ratio w / s = 0.4.

P r z x l a d III

Portland cement without CEM I 32.5 additives in an amount of 87,000 parts by weight and classified fly ash in an amount of 12,480 parts by weight are introduced into the mixer, which components are mixed with high molecular weight polyoxyethylene in the amount of 0.040 parts by weight, sodium sulphate in the amount of 0.030 parts by weight , diuron in an amount of 0.300 parts by weight, sodium salts of naphthalene sulfonic acid polycondensates (C10H8O3S) x ... xNa in an amount of 0.150 parts by weight.

The thus obtained composition is conditioned for 2 - 4 minutes. In order to obtain a weld, the so-called grout, the composition is bound to water in the water-joint ratio w / s = 0.4.

P r x l a d IV

Portland cement without CEM I 32.5 additives in an amount of 95,000 parts by weight and classified fly ash in the amount of 4.515 parts by weight, which components are mixed with high molecular weight polyoxyethylene in the amount of 0.070 parts by weight, sodium sulphate in the amount of 0.015 parts by weight, are introduced into the mixer. , diuron in an amount of 0.100 parts by weight, sodium salts of naphthalene sulfonic acid polycondensates (C10H8O3S) x ... xNa in an amount of 0.300 parts by weight.

The thus obtained composition is conditioned for 2 - 4 minutes. In order to obtain a weld, the so-called grout, the composition is bound to water in the water-joint ratio w / s = 0.4.

PL 211 110 B1

P r z k ł a d V

Portland cement without CEM I 32.5 additives in an amount of 76,000 parts by weight and classified fly ash in the amount of 23.565 parts by weight, which components are mixed with high molecular weight polyoxyethylene in the amount of 0.010 parts by weight, sodium sulphate in the amount of 0.025 parts by weight, are introduced into the mixer. , o-phenyl sodium phenate in an amount of 0.100 parts by weight, sodium salts of naphthalene sulfonic acid polycondensates (C10H8O3S) x ... xNa in an amount of 0.300 parts by weight.

The thus obtained composition is conditioned for 2 - 4 minutes. In order to obtain a weld, the so-called grout, the composition is bound to water in the water-joint ratio w / s = 0.4.

P r x l a d VI

Portland cement without CEM I 32.5 additives in the amount of 75,000 parts by weight and classified fly ash in the amount of 24.485 parts by weight are introduced into the mixer, which components are mixed with high molecular weight polyoxyethylene in the amount of 0.100 parts by weight, sodium sulphate in the amount of 0.015 parts by weight , o-phenyl sodium phenate in an amount of 0.300 parts by weight, sodium salts of naphthalene sulfonic acid polycondensates (C10H8O3S) x ... xNa in an amount of 0.100 parts by weight.

The thus obtained composition is conditioned for 2 - 4 minutes. In order to obtain a weld, the so-called grout, the composition is bound to water in the water-joint ratio w / s = 0.4.

The invention is presented as exemplary of its feasibility, however, it also covers all variations and modifications falling within the scope of the patent claim, which may occur alone and / or in combination.

Claims (1)

Patent claim Cement-mineral composition with biocidal properties containing cement binder and modifying admixtures, characterized in that it contains a mixture of dry basic ingredients which includes: Portland cement without CEM I 32.5 additives in the amount of 75 - 95 parts by weight, classified fly ash in the amount of 5 - 25 parts by weight and modifying additives, preferably high molecular weight polyoxyethylene in an amount of 0.01 - 0.10 parts by weight, sodium sulphate in an amount of 0.015 - 0.045 parts by weight, carbendazim and / or diuron and / or sodium-phenyl phenate in an amount of 0 , 1 - 0.3 parts by weight, sodium salts of naphthalene sulfonic acid polycondensates (C10H8O3S) x ... xNa in an amount of 0.1 - 0.3 parts by weight. Publishing Department of the Polish Patent Office