SU615238A1 - Method of preparing hardening filling mix - Google Patents

Description

The invention relates to the field of industry and can be used in the development of mineral deposits with hard-hardening.

There is a known method of preparing a hardening bookmark, including the electromagnetic actnachatsch of mixing water f 1. The disadvantage of this method is the high consumption of water.

There is a method of cooking prepared for Sha p1Ochno blend | consisting in the dosing and mixing of the inert aggregate, in the trash, of water and the surfactant additive G2.

The disadvantage of this method is the low efficiency of use, in the cement retaining properties, caused by high water consumption (400 l / m and more) to ensure the hydraulic transport of the mixture. This causes a high ratio, i.e. low strength of the pillars, even at high costs of cement and, moreover, a significant 1-inch trap removal of the milk from artificial mass during the process of setting, which also leads to a decrease in strength.

The purpose of the present invention is to increase the strength of the bookmark and reduce the flow rate of the binder.

This is achieved by the fact that an aqueous solution of a surfactant additive, for example, a sulphite-yeast concentrate.

before mixing with solid components of the filling mixture is processed by an electromagnetic field with an amplitude of 400,600 Oe and a pulsation frequency of 50 Hz.

o leads to a more complete dissolution of the surfactant and a greater degree of dissociation of its molecules. All the add-on effects are enhanced: the adsorption of surfactants on the cemetsgga grains, the evaporation of late particles, air entrainment into the filling mixture and, as a result, its plasticity. The increased fluidity of the mixture reduces the consumption of oxen, providing an additional increase in strength and the possibility of reducing cement. An example of osugtsepeni this way. ba The hard tabs of the tabs are dosed in the following section of the sludge bed: Shcheben (fineness class minus 5 mm) 1700 Ground slag of phosphorus production180; Slag Porting M-ZOO 12O Prepares a 10% surfactant solution (KSDB) in an amount of 70 l / m tab and is passed through the electromagnet gap with a SCO intensity at pulse pulses at a pulsation frequency of 50 ps. After that, the activated surfactant solution mixes with the mixing water and solid components, i.e. a filling mixture is prepared. The total water flow rate is determined by the requirement that the mixture be equally plastic, controls 4 with Suttard's power meter (13.5-14, O by the Stroytsil cone immersion (11, 12: O) and is 36O l / m. Below are the results of the strength test 2c. -day specimens of bookmark prepared by known 1a2J | i and proposed f3 methods. Method of preparing filling mixture. Durability -28-kgf / cm.;. Electromagnetic activation of water .ij, 42 Introduction of surfactant to activated water 2.64 Electromagnetic treatment of surfactant s 792 This method allows em over .effek It is useful to use as an agglomerate and plastic additives, to increase the strength of the alloy by 40-50% in comparison with natural methods. Forms of inventions 1. Method + preparations with hardening mixes, consisting in the addition and mixing of inert filler, , water and surfactant additives, due to the fact that, in order to increase the strength of the bookmark and reduce the consumption of a treadmill, an aqueous solution of a surface-active additive, for example, a sulphide concentrate of a yeast embroil, before mixing with solid components The mixtures are treated with an electromagstatic field. : 2. Method according to Claim 1, that is, with the fact that an aqueous solution of a surfactant additive is subjected to electromagnetic treatment with an amplitude of voltage of 40O-606 Hey, with a pulse frequency of 50 Ph .: Information sources, TipiH expertise: 1. Malakhov, G. M, et al. The effect of magnetized water on the strength of hardening bookmarks. Torn journaling. № 10, 1971, p. 29-31 2. Tsygalov M.N. Zurkov P.E. Development of natural minerals with monolithic bookmark M., Nedra, 1970, p. 36