RU2074142C1 - Composition for civil engineering work - Google Patents

Abstract

FIELD: civil engineering; may be used in construction of buildings and structures - load bearing and guarding, both built up and cast-in-situ and also in production of mortar both for masonry and for finishing work and, in addition, covering of cast-in-situ floors. SUBSTANCE: composition contains the following components, mas%: cement, 12-33; fine filler - blast furnace granulated slag and/or expanded clay aggregate or mixture of one of above-mentioned fine fillers with quartz sand in ratio of (0.1-1):(1:0.1), 30-62; slime-waste of electroplating, 7-10; water, the balance. Fine filler has the following fraction composition: 2.5-1.25 mm, 10-15%; 1.25-0.63 mm, 20-25%; 0.63-0.315 mm, 20-25%; 0.315-0.15 mm, the balance. Composition features density of 1450-1650 kg/cu.m compression strength in 28 days of 38-52 MPa. EFFECT: higher efficiency. 2 tbl

Description

 The invention relates to construction and can be used in the manufacture of building structures and structures bearing and enclosing, both prefabricated and monolithic, as well as mortars, both masonry and finishing, and in addition screed monolithic floors.

Known composition for construction work, including, by weight. self-scattering slag for the production of ball-bearing steels 30 45, sludge is a product of neutralization of spent solutions of steel sulphate etching (dry) 10 15, aggregate sand 39.82 -59.88 and sulphite-alcohol mash (dry) 0.12 0.18 [1 ]
The closest analogue to the claimed invention is a composition for construction work, including, by weight. cement 22.03 22.142, sand 66.08 67.27, sludge from galvanic production 0.22 1.98 and water 9.91 10.01 [2]
The objective of the invention is to obtain a shower building material with a reduced bulk density and sufficient strength properties.

 The problem is solved in that the composition for construction work, including cement, fine aggregate, sludge galvanic waste and water, contains fine granular blast furnace slag and / or expanded clay, or a mixture of one of these fine aggregates with quartz sand in a ratio of 0, 1: 1 1: 0.1 in the following ratio of components, wt.

Cement 12 33
Fine aggregate sludge waste galvanic production 7 10
Water is the rest.

 Moreover, the fine aggregate has the following fractional composition, wt.

2.5 1.25 mm 10 15
1.25 0.63 mm 20 25
0.63 0.315 mm 20 25
0.315 0.16 mm Else
To prepare the claimed composition are used:
various Portland cement cements, including quick-hardening, plasticized and colored, slag Portland cement;
quartz sand, blast furnace slag and expanded clay sand;
sludge waste galvanic production is a waste solution and wash water, including neutralized with lime. The slurry is characterized by the following composition, wt.

Ca ²⁺ up to 50
Fe ³⁺ , Fe ²⁺ up to 25
Al ³⁺ to 15
SiO ₂ to 20
Cr ³⁺ , Cr ²⁺ up to 30
Mg ²⁺ to 8
(Ni, Cu, Zn) up to 8
(Pb, Cd, Hg) up to 0.05
Sulphates up to 50%
Phosphates up to 15%
Carbonates up to 50,
Moisture Else.

 The mixture is prepared by mixing cement, fine aggregate and sludge from the waste of galvanic production with mixing water, and the amount of water is adjusted taking into account the moisture content of the sludge.

 Cubes with an edge of 7x7x7 cm are prepared from the resulting mixture. The samples harden under normal conditions. The compositions of the mixtures and the test results of the samples are presented respectively in table. 1 and 2. Considering that expanded clay and blast furnace slag are similar in properties, they can be used at any ratio.

 In composition 1, white Portland cement is used as a binder, a mixture of granulated domain slag and quartz sand in a ratio of 1: 0.5 is used as a fine aggregate. The fractional composition of fine aggregate (granulated blast furnace and quartz sand) is as follows, wt. 2.5 1.25 mm 15, 1.25 0.63 mm 25, 0.63 0.315 mm 22, 0.315 0.16 mm 33.

 In composition 2, blast furnace slag of the following fractional composition, wt.%, Is used as an astringent slag Portland cement. 2.5 1.25 mm 10, 1.25 0.63 mm 20, 0.63 0.315 mm 25, 0.315 0.16 mm 45.

 In composition 3, Portland cement is used as a binder, as a fine aggregate, a mixture of blast furnace slag and expanded clay in a ratio of 1: 1. The fractional composition of the fine aggregate is as follows, wt. 2.5 1.25 mm 10, 1.25 0.63 mm 22, 0.63 0.315 mm 25, 0.315 0.16 mm 43.

 In composition 4, slag Portland cement is used as a binder, claydite is used as a fine aggregate in the following fractional composition, wt. 2.5 1.25 mm 15, 1.25 0.63 mm 25, 0.63 0.315 mm 25, 0.315 0.16 mm 35.

 In composition 5, Portland cement is used as a binder, as a fine aggregate, a mixture of blast furnace slag and silica sand in a ratio of 0.5: 1 of the following fractional composition, wt. 2.5 1.25 mm 10, 1.25 0.63 mm 20, 0.63 0.315 mm 25, 0.315 0.16 mm 45.

 As follows from the table. 2, the composition of the invention has sufficient strength with a low bulk density. In addition, the proposed composition can be used for the preparation of a wide range of building products. In addition, the use of production waste in the composition solves the problem of its disposal and reduces the cost of the composition.

Claims (1)

 Composition for construction work, including cement, fine aggregate, sludge galvanic waste and water, characterized in that it contains blast furnace slag and / or expanded clay as a fine aggregate, or a mixture of one of these fine aggregates with silica sand in a ratio of 0, 1: 1 1: 0.1 in the following ratio of components, wt. Cement 12 33
Fine aggregate 30 62
Sludge from galvanic production 7 10
Water Else
moreover, the fine aggregate has the following fractional composition, wt. 2.5 1.25 mm 10 15
1.25 0.63 mm 20 25
0.63 0.315 mm 20 25
0.315 0.16 mm Rest

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