RU2625770C1 - Method for determining volume concentration of cement slurry in soil-cement pulp during jet grouting - Google Patents

Abstract

FIELD: measuring equipment.

SUBSTANCE: when the method is carried out, a sample of the test material is drawn, before the jet grouting, chemical elements are selected for pumping them into the soil together with the cement slurry during jet grouting from the condition that the weight content of each of them does not exceed 0.1% in the soil and possibility of its quantitative determination by X-ray fluorescent method, the cement slurry is prepared by mixing the cement in water and during preparation of the cement slurry, two or more chemical elements are introduced, measurement of the weight concentration of each chemical element in the samples and the density of the sample materials are performed by the X-ray fluorescent method, the volume concentration of the cement slurry in the soil-cement pulp is determined by each chemical element, and arithmetic mean value of volume concentrations determined by each element is taken as a result. At least one chemical element or substance containing this element is in a different aggregate state than the rest.

EFFECT: improved accuracy of determination.

2 cl, 1 ex

Description

The invention relates to methods for rapid control of the volumetric concentration of cement in a cement slurry when creating underground building structures by jet cementation.

The main patent RU 2611373 C1 describes a method for determining the volumetric concentration of a cement mortar in a cement-cement slurry during jet grouting, in which a chemical element is introduced into the cement mortar when it is prepared, the content of which in the soil does not exceed 0.1%, and in an amount determined by X-ray fluorescence analysis, then using an X-ray fluorescence spectrometer and densitometer, the concentration of the chemical element in the samples and the density of the samples of cement mortar and cement slurry and races are determined used to read the volume concentration of the solution in the jet-grouting cement slurry under the formula.

During the construction of underground structures by jet cementation “For the correct selection of parameters in practice, as a rule, columns are arranged in the experimental section under various modes of injection of fastening compounds. After driving control shunts and measuring the diameter of piles, determine the best mode of technology. ”(A. Malinin. Jet soil cementation. - Perm: Presstaym, 2007. - P. 22). And also, “The work on the installation of a geotechnical barrier should begin with a pilot site. At the experimental site, one should work out the method of immersing injectors, select the composition of the injection solution, its temperature (in winter), determine the optimal distance between the injectors, the volume of injected solution at each point of the injector, the necessary pressure, etc. After completing work on the experimental site, a control digging is performed pits, which determine the sufficiency of the geotechnical barrier and control the quality of work "(STO 36554501-007-2006. Organization standard design and construction in a vertical or inclined geotechnical barrier discharge compensation method -. Moscow, 2006 - Federal State Unitary Enterprise LAC - n 4.5 n 4.6)...

In these cases, the determination of the volume concentration of cement in the cement slurry should be carried out with increased accuracy, since the accuracy of the determination affects the amount of material, productivity and quality of underground structures constructed by jet grouting.

The purpose of the invention is to increase the accuracy of determining the volume concentration of cement in a cement slurry during jet grouting.

This goal is achieved by the fact that in the method for determining the volumetric concentration of cement in a cement-cement slurry during jet cementation, which includes sampling the test material and determining by the X-ray fluorescence method the quantitative content of the chemical element in the selected samples, in which

- before jet grouting, a chemical element is selected for pumping it into the ground together with cement mortar during jet grouting,

- prepare the cement mortar by mixing cement in water and when preparing the cement mortar, the selected chemical element is introduced into the cement mortar,

- take a sample of cement mortar,

- when carrying out jet cementation, a sample of soil cement pulp is taken,

- X-ray fluorescence method is used to measure the weight concentration of the chemical element in the samples and the density of the materials of the samples,

- calculate the volume concentration of the cement in the cement slurry according to the formula

,

,

where Cv is the volume percent concentration of cement in the cement slurry;

Cn is the weight concentration of the chemical element in the cement-cement pulp, mg / kg;

CC - weight concentration of the chemical element in the cement mortar, mg / kg;

ρ _p - density of cement-cement pulp, kg / l;

ρ _c is the density of the cement mortar, kg / l, and the choice of a chemical element is carried out from the condition that its weight content of 0.1% in the soil does not exceed and the possibility of its quantitative determination by X-ray fluorescence method, in addition, two or more chemical elements are introduced into the cement mortar for each of which the volume concentration of the cement mortar in the cement-cement pulp is determined, and the arithmetic mean value of the volume concentrations determined for each element is taken as the result, as well as at least one chemical element or compound containing that element is located in another aggregate state than the other.

The essence of the claimed invention

The determination of the volume concentration of the cement in the cement slurry by two or more chemical elements refers to the method of aggregate measurements, in which several measurements of the same value are performed simultaneously. “Obviously, the accuracy of the arithmetic mean of the resulting set of measurements will be higher than the accuracy of an individual measurement” (Accuracy of aggregate measurements, http://chem21.info/info/934170).

The introduction of substances containing chemical elements into the cement mortar, by which the concentration of the cement mortar is determined in two aggregate states - liquid and solid, reduces and reveals a random error (erroneous determination of the amount of a chemical element, the introduction of an erroneous amount of a substance, another substance, etc.). p.), and also increases the accuracy of measurements (see. The most frequently used methods and methods for increasing the accuracy of measurements, p. 9 http://metrob.ru/html/Stati/staty/tochnost.html).

The possibility of carrying out the claimed invention is shown by the following example.

The construction of the subway tunnel was carried out in difficult engineering and geological conditions. It was decided to fix the soils during tunneling with piles constructed by jet cementation. Several experimental piles were constructed along the tunnel laying route, during the construction of which the volume concentration of cement mortar in the cement-cement slurry was determined. When mixing cement, to determine the volume concentration of cement in the pulp, cobalt hydroxide Co (H ₂ O) ₂ TU261-001-469133-78-2002 (used in the manufacture of building materials, glass) and zinc powder Zn PCR were introduced into it - 3 GOST 12601-76 (used in the manufacture of paints and varnishes and in metallurgy). Engineering and geological surveys along the tunnel, it was found that the soil contains only traces of cobalt and zinc, which makes it possible to determine the volume concentration of cement in the cement slurry according to patent RU 2611373 C1. Cobalt hydroxide is a powder, it is well soluble in cement mortar water, the mass fraction of cobalt in the powder is 62%. Zinc powder in water is insoluble, has a particle size of 100 microns, which corresponds to a particle size of cement of 80-100 microns. The concentration of elements in the samples was determined by a Delta Premium spectrometer (USA), and the density by a Densito 30 PX densitometer (Italy).

The minimum number of insertion member according to RU 2611373 C1 is calculated according to the formula P _min = _p C _for 5;

where P _{r min} - the minimum amount of a chemical element introduced per 1 kg of cement mortar (mg / kg);

C _by - detection limit of the spectrometer used chemical element (mg / kg).

For cobalt C _po = 10 mg / kg (Portable analyzer of metals and alloys Olympus Delta Professional, http://pvp-snk.ru/dalta_profesional. C.5. LOD table) P _{r min} = 5 × 10 mg / kg = 50 mg / kg and taking into account its content of 62% in cobalt hydroxide powder, the minimum amount of cobalt hydroxide powder is 80 mg / kg.

Zinc = C _of 3 mg / kg (ibid), hence P _{p min} = 5 × 3 mg / kg = 15 mg / kg.

When preparing the cement mortar, 90 mg / kg of cobalt hydroxide and 20 mg / kg of zinc powder were introduced into it.

During jet cementation, sampling of cement mortar and soil-cement pulp was carried out, in which the concentration of cobalt and zinc, as well as the density of the samples, were determined.

For cement mortar:

ρ _s = 1.48 kg / l C _{with Co} = 87.8 mg / kg C _{with Zn} = 18.5 mg / kg

For pulp:

ρ _p = 1.86 kg / l C _{p Co} = 25.9 mg / kg C _{p Zn} = 5.5 mg / kg

The calculation of the volume concentration of the cement in the cement slurry is carried out according to the formula:

,

,

where Cv is the volume percent concentration of cement in the cement slurry;

Cn is the weight concentration of the chemical element in the cement-cement pulp, mg / kg;

CC - weight concentration of the chemical element in the cement mortar, mg / kg;

ρп - density of soil-cement pulp, kg / l;

ρс - density of cement, kg / l.

For cobalt:

For zinc:

Arithmetic Mean

The inventive method allows for a more accurate determination of the volumetric concentration of cement in the cement slurry during jet grouting.

Claims (15)

1. A method for determining the volumetric concentration of a cement mortar in a cement-cement slurry during jet cementation, including sampling the test material and determining, by the X-ray fluorescence method, the quantitative content of the chemical element in the samples taken, in which - before jet grouting, a chemical element is selected for pumping it into the ground together with cement mortar during jet grouting, - prepare the cement mortar by mixing cement in water and when preparing the cement mortar, the selected chemical element is introduced into the cement mortar, - take a sample of cement mortar, - when carrying out jet cementation, a sample of soil cement pulp is taken, - X-ray fluorescence method is used to measure the weight concentration of the chemical element in the samples and the density of the materials of the samples, - calculate the volume concentration of the cement in the cement slurry according to the formula

, where Cv is the volume percent concentration of cement in the cement slurry; Cn is the weight concentration of the chemical element in the cement-cement pulp, mg / kg; CC - weight concentration of the chemical element in the cement mortar, mg / kg; ρ _p - density of cement-cement pulp, kg / l; ρ _s - density of cement, kg / l, at the same time, the choice of a chemical element is carried out from the condition that its weight content of 0.1% in the soil does not exceed and the possibility of its quantitative determination by the X-ray fluorescence method, characterized in that two or more chemical elements are introduced into the cement mortar, for each of which the volume concentration of the cement mortar is determined in cement-cement pulp, and the result is taken as the arithmetic mean value of the volume concentrations determined for each element. 2. The method according to p. 1, characterized in that at least one chemical element or substance containing this element is in a different state of aggregation than the rest.