RU2609863C1 - Method for simulation of interaction of building materials with medium casuing biological damage of building products and structures - Google Patents

Abstract

FIELD: construction.

SUBSTANCE: method consists in immersing of samples of building materials into low aggressive medium. Such medium is a mixture of organic acids: acetic, citric and oxalic acids. Then the samples are held in this medium with varying the temperature in the range ±15 degrees with reference to room temperature.

EFFECT: improved accuracy of medium simulation by taking into account the temperature factor.

7 cl

Description

The invention relates to methods for testing building materials in the laboratories of manufacturing plants.

The problem of biodeterioration is relevant for building materials, since biological damage is a phenomenon inherent in the natural environment and leads to a decrease in the strength characteristics of materials, a change in their shape and appearance, as well as a change in the composition of the environment (microclimate) in buildings and structures.

A known method of testing building materials for biostability, in which modeling of the interaction of building materials with an environment that causes biological damage to building products and structures, by immersing samples of building materials in a slightly aggressive environment, which is used as a mixture of organic acids: acetic, citric and oxalic acids, and subsequent exposure of the samples in this medium (patent RU 2471188, IPC G01N 33/38, publication date 12/27/2012).

The implementation of this method does not require reproduction of the environment with microorganisms, there is no need to use special installations. This method of testing samples of building materials can be applied in the laboratory of manufacturers of building materials without special permission from the sanitary and epidemiological surveillance authorities and without harm to human health, due to the lack of contact with pathogenic microorganisms.

The disadvantage of this method is that it does not take into account the effect of temperature as a factor that actually exists when exposed to an environment with microorganisms and causing various results.

The task is to improve the modeling of the interaction of building materials with the environment, causing biological damage to building products and structures used in testing building materials.

The technical result achieved by solving this problem is to increase the accuracy of modeling the specified environment by taking into account the temperature factor.

The technical result is achieved by the fact that in the method of modeling the interaction of building materials with the environment, causing biological damage to building products and structures, which consists in immersing samples of building materials in a slightly aggressive environment, which is used as a mixture of organic acids: acetic, citric and oxalic acids, and the subsequent exposure of samples in this environment, exposure of samples of building materials is carried out by changing the temperature in the range of ± 15 degrees relative to room temperature th temperature.

The conditions of the environment that cause biological damage to building products and structures are imitated by varying the factors that model this environment: the concentration and ratio of organic acids, the temperature at which exposure is carried out, according to the plan of a full factorial experiment.

A mixture of organic acids of the following concentrations is used: acetic acid 0.9-1.1%, citric acid 0.9-1.1%, oxalic acid 0.09-0.12%, and in a ratio of 1.8: 2 7: 0.8-2.1: 3.1: 1.2.

When simulating the state of the environment that causes biological damage to building products and structures, use the minimum and maximum values of the concentration ranges and ratios of organic acids.

Excerpt samples of building materials is carried out using the set temperature values in the specified range.

The proposed improvements allow us to expand the range of simulated biological media, including reducing the stay of test samples in a slightly aggressive environment (for example, four days at elevated temperatures, while at lower temperatures this time exceeds 28 days).

The proposed method can be illustrated by an example of a planning matrix (MP) of a multifactor experiment, where percentage levels (concentrations) of organic acids (x1 - acetic, x2 - citric, x3-oxalic) are selected as variable factors. The following levels were selected as the levels of variation of these factors: minimal (-), respectively - 0.9; 0.9 and 0.04; and maximum (+), respectively - 1.1; 1.1 and 0.12 subject to the ratios of the components in the composition.

Introduced the fourth factor (x4) - the temperature varied at ± 15 ° С relative to room temperature ("-" - the lower temperature level, "+" - the upper level), where the room temperature is from +15 to +25 degrees С according to the definition that represents the XII State Pharmacopoeia of the Russian Federation part 1. Extract samples of building materials is carried out, choosing the extreme temperature in the specified range. Specific temperature values are selected according to the planning matrix. The controlled parameter (Pc) is also the duration of stay in a slightly aggressive environment, causing damage.

The control is carried out both visually and by measuring the strength of the samples exposed to a slightly aggressive environment.

The MP for the study was formed traditionally for the implementation of the full factorial experiment (2 ⁴ ) with four factors. The average length of stay of the samples in a slightly aggressive medium showed that damage was identical at elevated and lower temperatures when all factors were at the lower level (increase in exposure time) and upper level (decrease in exposure time) for different exposure durations.

The proposed method allows you to choose the combination of variable factors that is more suitable for the manufacturer of building materials, including an important factor in the operating environment - temperature, and reflecting the specifics of the biological environment in which building materials are used.

With different compositions of raw materials and additives, changes in the duration of exposure are possible with different combinations of factors, which will determine the choice of the manufacturer of the final set of effects when modeling the processes of biodeterioration. Given that the biostability of building materials is one of the quality attributes, confirmation should occur at the stage of production, and the choice of modeling composition (a combination of factors) at the stage of preparation for production and development of manufacturing technology for building materials

Claims (8)

1. A method for simulating the interaction of building materials with an environment that causes biological damage to building products and structures, which consists in immersing samples of building materials in a slightly aggressive environment, which is used as a mixture of organic acids: acetic, citric and oxalic acids, and subsequent exposure of samples in this environment , characterized in that the exposure of samples of building materials is carried out by changing the temperature in the range of ± 15 ° C relative to room temperature. 2. The method according to p. 1, characterized in that the state of the environment that causes biological damage to building products and structures, mimic, varying the factors modeling this environment: the concentration and ratio of organic acids, temperature values and time intervals during which exposure is carried out, according to the plan of a full factorial experiment. 3. The method according to p. 2, characterized in that a mixture of organic acids of the following concentrations is used: acetic acid 0.9-1.1%, lemon acid 0.9-1.1%, oxalic acid 0.09-0.12%. 4. The method according to p. 2, characterized in that a mixture of acetic, citric and oxalic acids is used in a ratio of 1.8: 2.7: 0.8-2.1: 3.1: 1.2. 5. The method according to p. 3, characterized in that when simulating a condition that causes biological damage to building products and structures, use a combination of minimum and maximum values of the concentration ranges of organic acids. 6. The method according to p. 4, characterized in that when simulating a condition that causes biological damage to building products and structures using a combination of minimum and maximum values of the ranges of ratios of organic acids. 7. The method according to p. 1, characterized in that the exposure of samples of building materials is carried out by varying a number of set temperature values in the specified range.