RU2099304C1 - Dry mix for mortar - Google Patents

Abstract

FIELD: building materials, in particular, dry mixes for mortars used in laying of small cellular-concrete blocks. SUBSTANCE: dry mix includes portland cement and additive in the form of wastes of concentration of gold-containing ores and quicklime preliminarily ground together. EFFECT: higher efficiency. 4 tbl

Description

 The present invention relates to the field of building materials, in particular, to dry mixes for mortars and can be used for masonry from small cellular concrete blocks.

 Mortars for masonry from small cellular concrete blocks are known. As a rule, they include mineral binder and additives of various plasticizers. However, the use of additives, along with the improvement of the plastic properties of solutions, leads to their appreciation. In addition, such additives cannot be used in dry mixtures, and the known dry plasticizers of type C-3 in solutions with a high water content worsen their effect.

 In addition to the use of special additives of plasticizers, there is another way to increase the water-holding ability and plasticity of the mortar for masonry from small cellular concrete blocks. This way the use of traditional materials used for masonry mortars, in composition with some technogenic products and with their additional processing. This allows not only to obtain the required strength characteristics of the solution during operation, but also the required properties for the period of masonry work.

 Since the use of special additives is excluded, the cost of the solution is reduced.

Known mineral glue, including water glass, finely ground quartz sand and waste superphosphate production with a specific surface of 3000-4000 cm ³ / g [1]
Using this solution allows you to get joints of reduced thickness. However, liquid glass is a scarce and expensive product. In addition, quartz sand and waste phosphate production must be dried before grinding. This increases the energy intensity of the production of glue and its cost. And finally, the described adhesive cannot be used in the form of dry mixes and must be delivered to the construction site in liquid form.

Known dry industrial mortar based on a mineral binder, including Portland cement, hydrated lime, classified quartz sand and additives that improve the properties of the mortar [2]
The described solution is the closest to the claimed one according to the totality of features and we have taken as a prototype.

 This solution has improved properties, but its use does not allow to obtain seams of small thickness (1-2 mm). In addition, the need for preliminary extinguishing of lime and classification of sand, as well as the use of additives increase the cost of the solution.

 The objective of the invention is to reduce the cost of dry mix for mortar for masonry from small cellular concrete blocks, providing masonry joints of small thickness.

 To solve the problem in a dry mixture for mortar, including Portland cement and the additive according to the invention, a mixture of gold ore and quicklime wastes is used as an additive, previously crushed to a residue of 20-25% on a sieve with 0.2 mm holes at the following ratio of ingredients, weight. h

Portland cement 4-4.5
gold ore dressing waste 4-4.5
quicklime in terms of active CaO 1-1.5
The chemical composition of gold ore-dressing wastes is given in table 1.

Gold-bearing ore dressing waste has the following mineralogical composition: quartz 28.6% carbonates 8.6% feldspars, mica, clay minerals 47.1% biotites, talc, dark-colored amphiboles 11.6% impurities - apatite, magnetite, zircon 0.5 %
Joint grinding of gold-bearing ore dressing wastes in a natural wet state with quicklime allows the waste to be dried by combining active CaO with the water contained in the waste, ensuring it is ground to the desired fineness. The fineness of grinding is selected from the condition of obtaining a small thickness of the masonry seam (1-2 mm).

 With the joint grinding of lime and enrichment waste, aggregation of the particles of the mixture also occurs and, as a result, the water holding capacity and the decrease in the water separation of the mortar prepared from the dry mixture are increased.

 In the analysis of the prior art, no analogue has been identified, characterized by all the essential features of the proposed solution, i.e. it meets the requirement of novelty.

 The analysis of the prior art will also not allow to identify features that are distinctive in the claimed solution, It meets the requirement of inventive step.

 Example.

 To prepare the mixture, the dosed ingredients of the additive: gold ore-containing ore dressing waste and quicklime were crushed together to a residue of 20-25% on a sieve with 0.2 mm holes. Then metered cement and additive were mixed. The effectiveness of preliminary joint processing of the ingredients of the additive and the proposed composition of the mixture was evaluated by the indicators of water separation (GOST 310.6-85. Cements. Method for determining water separation) and water retention capacity (GOST 5802-86. Building solutions. Test methods.).

 Reduced water separation and increased water retention capacity characterize the suitability of the solution prepared from the dry mixture for use for masonry from small cellular concrete blocks with a small thickness of the masonry seam (1-2 mm).

 The effectiveness of preliminary joint grinding of the ingredients of the additive, as well as the recommended ratio of the ingredients of the mixture is characterized by the data in table. 2, 3, 4.

 The mixture prepared using additives, the ingredients of which were previously co-ground, has reduced water separation and increased water retention capacity. It was determined that the content of waste and cement in the dry mixture is more than 4.5 parts by weight and less than 4 hours and lime more than 1.5 parts by weight and less than 1 hour leads to a deterioration in the indicators of water separation and water holding capacity of the mixture.

Claims (1)

 A dry mortar mixture, including Portland cement and an additive, characterized in that as an additive a mixture of gold ore-containing ore and quicklime wastes is used, preliminarily crushed to a residue of 20 25% on a sieve with holes of 0.2 mm in the following ratio of ingredients, wt .h. Portland Cement 4.0 4.5
Gold ore processing waste 4.0 4.5
Quicklime in terms of active CaO 1.0 1.5,

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