SU966572A1 - Method of determining frost resistance of porous bodies - Google Patents

Description

one

The invention relates to the field of physicochemical methods for analyzing capillary-porous systems of solids and, in particular, can be used to determine their frost resistance.

There is a known method for determining the frost resistance of building materials by repeatedly creating an overpressure in a sample using gas using freezing and thawing techniques and measuring their residual deformations 11 J.

The disadvantages of the method are that the destruction of the material from ice and gas is based on various mechanisms: in the first case, the formation of ice occurs in the surface layers of the samples and, therefore, the destruction begins from the surface, in the second case, the gas pressure in the surface layers ( pressure in a pressure-tight vessel is leveled off instantly, and therefore destruction from the surface of the samples is not possible, and complexity, multistage and duration are inherent in the method.

The closest to the proposed is a method for determining the frost resistance of porous ones: l, which includes saturating samples with liquid, freezing, thawing and measuring thermal deformations during freezing and thawing, followed by plotting the deformations from the number of freeze and thaw cycles 2J.

However, the method is suitable only for concretes, and only on dense aggregates. Samples are taken for analysis

Claims (2)

20 of the freshly compacted concrete mix, while not taking into account the different degrees of hydration at different water-cement ratios. In hard concrete mixes, the spherical pores after water saturation are free from water, and in plastic (with a cone sediment, see cm and more) they are filled with mixing water, which then hydrates or evaporates and, therefore, these pores are not fixed in this cnoco6f. It is not possible to obtain a sufficiently high accuracy of the test results of the samples. The purpose of the invention is to reduce the test duration and improve the accuracy of the determination. The goal is achieved by the fact that according to the method for determining the frost resistance of body bodies that include saturating the samples with liquid, freezing, thawing and measuring thermal deformations in the process of freezing and thawing, and then plotting the graphical dependency. deformations from the number of freezing and thawing cycles, an aqueous solution is used as a liquid; acetone solution, and after saturation, the samples are coated with a layer of technical vaseline or a synthetic salt salt. The method is carried out as follows. Prepare samples in the form of prisms of size 10-K) -30 mm from Portland cement M-500, aggregate and water at a C / C of 1.0-0.45, saturate it with 8-30% aqueous acetone solution and immediately cover them surface with a layer of technical petroleum jelly or synthetic grease. The samples are placed in a small freezer of a medium-temperature dilatometer, which is used to measure the temperature deformations of the samples during freezing. Samples are frozen with liquid nitrogen to a temperature in the freezer minus 50 ° C and maintained at this temperature until deformation is stopped, after which the samples are thawed to a temperature of + 20 ° C. The deformation process also measures the temperature deformations of the sample freezing and defrosting on graph paper is constructed a graphical dependence of strain on temperature and a hysteresis loop is obtained, the area of which is measured by a planimetric method. house. Frost resistance is determined by a previously constructed calibration dependence of the number of cycles on the area of the hysteresis loop (see drawing). The use of an aqueous solution of acetone with a concentration of less than 8 wt in the proposed method significantly reduces the accuracy of determining the results and increases the duration of the test, and its use with a concentration of more than 30 weight. impractical because it does not lead to further improvement of any indicators, has a partial dissolving effect on the sealing means: technical petrolatum or synthetic solid oil, as a result of which a leakage of the coating may be required and a deeper cooling of the samples is required (aqueous solution of acetone with concentration 8-; 30 wt.% Freezes respectively at minus 2.5-9, lc). The invention The method of determining the frost resistance of porous bodies, including the saturation of samples with liquid, freezing, thawing and measuring temperature deformations in the process of freezing and thawing, followed by building a graphical dependence of the deformations on the number of freezing and thawing cycles that, in order to reduce the test duration and increase the accuracy of determination, an aqueous solution of acetone is used as a liquid, and after saturation, the samples are coated with a technical layer Zelina or synthetic grease. Sources of information taken in. attention in the examination 1. USSR author's certificate №, cl. G 01 N 33/33, 1977. 2. GOST 10060-76, Concretes, Methods for determining frost resistance. Publishing house of standards, 1Y80. ISucmef f3ucu, Cff