SU1689366A1 - Method of preparing plasticizing additive for concrete mix - Google Patents

Abstract

The invention relates to proc-podoestp construction materials technology - in particular, to the preparation of modified lignosulphonate and the quality of the additive used in concrete. The chain of the invention is to increase the plasticity of the concrete mixture and to intensify the process of material consumption. 25-30 The% aqueous raspor of technical ligno phonates are intermixed with mineral adsorbent of thin layers from those of cellular concrete with condition of SOOGVRTSTPRNNO G 10 1 on sous and real plasticity n (lemsay tone is non-g and g is iri 22 cm strength up to 38 2 MSa t bp In | C G

Description

From (, the term relates to the production technology of building materials, in particular, to the production of plasticizers based on modified LIGNIASULFZ | OP DLR of preparation of concrete mixes

The chain of the invention is to increase the plasticity of the 6eTOHHOvi mixture, to intensify the process and reduce its material consumption.

The technical implementation of the method used is lipus sulfates, LSTs) are a mixture of substances, among which hemiceculate sugar (hexane and pentose) are contained, as well as some organic and mineral impurities (furfural, organic acids, sulfurous anhydride). LST can contain up to 12 May% reducing substances that have a negative effect on the strength properties of β1

Ј PPG.REMO as an adsorbent;), d) of the existing infrared light sulphates by means of the cellulose transform minerals; crystalline tobermorpt 11.3 And im ° e primg | and close to amo (ober, Ratio Cs / li v synthetic crystal 1. chromic toeurorma 11 J An changes in the range from О Ь to 1 "At a close to amof 1th v, the Cd / Si ratio can be changed from JT 1 39 to 1 73, due to the CGDD, close to amorphous tobermorite, HP will settle in water environment and has a strongly alkaline reaction, the pH of the aqueous extract of doggie, z 11.2 that

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determines its high reactivity with respect to reducing substances contained in aqueous solutions of LST. These properties create the conditions for the intense adsorption of reducing substances from aqueous solutions of high-concentration plastics of increased concentration, the pH of which is acidic. Capillary porosity and the microstructure of cellular concrete (the presence of crystalline quartz as an abrasive material) are developed using intensive mixing using an ultrasonic unit, a disintegrator or a balm mill, in addition, it additionally accelerates the process of adsorption of reducing substances from an aqueous solution of LST. During the mixing process, the adsorption surface of cellular concrete is constantly updated, which makes it possible to reduce the amount of adsorbent to the ratio LST: ff 5-10: 1 and reduce the mixing time to 30-120 s.

The method of preparation of the plasticizing agent is carried out as follows. A mixture of 25-35% aqueous solution of LST and crushed cellular concrete with a specific surface area of 2.5-4.0 m / g is prepared. The prepared mixture is vigorously stirred using an ultrasound unit, a disintegrator or a bissing mill for 30-120 s. The suspension obtained after this physicomechanical treatment is centrifuged, separated

sediment and get the target product - plasticizing additive for concrete in the form of an aqueous solution of 25-35% concentration.

Method parameters and properties of concrete with

the proposed addition is presented in the table.

The intensification of the technological process is promoted by the use of a highly concentrated aqueous solution of LST (25-35% concentration), since the production volumes and areas as well as the preparation time are reduced.

The material cost reduction is caused by the use of cellular concrete production wastes.

Claims (1)

Claims The method of preparing a plasticizer additive for a concrete mixture, including mixing an aqueous solution of technical lignosulfonates with a finely ground mineral adsorbent, characterized in that a 25-35% aqueous solution is used to increase the plasticity of the concrete mixture, intensify the process and reduce its material intensity. technical lignosulphonates, and as a mineral adsorbent fine ground waste cellular concrete, and the ratio of this solution to the mineral adsorbent is 5-10: 1 for solids. Note. The control sample without the use of a plasticizing additive has a mobility of the concrete mixture at a cone sediment of 4.0 cm, a compressive strength at 3 days old of normal curing 10.6 MPa, and at 28 days of normal curing 27, I MPa.