RU84864U1 - WALL OF THE HYDROTECHNICAL STRUCTURE - Google Patents

Abstract

1. The wall of the hydraulic structure, consisting of structural and protective layers of concrete, reinforcement, characterized in that the protective layer of concrete includes capsules with decaying shells filled with a saturated aqueous solution of baking soda, and the shell of the capsules have different temporary resistance to decomposition. ! 2. The wall of the hydraulic structure according to claim 1, characterized in that the capsules occupy 0.1-10% of the volume of the protective layer of concrete.

Description

The utility model relates to the construction of hydraulic structures.

Known walls of hydraulic structures, consisting of structural and protective layers of concrete, reinforcement. Over time, due to corrosion of concrete caused by exposure to free calcium hydroxide in an aqueous medium, the walls are destroyed [1], which requires expensive repair and restoration work.

The objective of the utility model is to increase the resistance of the protective layer of the wall of a hydraulic structure to corrosion caused by exposure to free calcium hydroxide.

The technical result is achieved in that in the wall of the hydraulic structure, consisting of structural and protective concrete layers, reinforcement, the concrete protective layer includes capsules with decaying shells filled with saturated aqueous solution of drinking soda, and capsule shells have different temporary resistance to decomposition. Capsules occupy 0.1-10% of the volume of the protective layer of concrete.

Figure 1 shows a fragment of the wall of a hydraulic structure with capsules in the protective layer.

The wall of the hydraulic structure consists of a structural layer 1 of concrete with reinforcement 2 and a protective layer 3 of concrete, including sealed capsules 4 with decaying shells having different temporary resistance to decomposition. The shells are filled with a saturated aqueous solution of baking soda. The temporary stability of the shells to decomposition is achieved both by the use of hydrostable materials soluble in the aquatic environment or vice versa, and by a change in the thickness of the shell. As materials for the manufacture of shells can be used, for example, gelatin, polyethylene, latex, etc. Capsules can have a size of 3 to 15 mm and occupy 0.1-10% of the volume of the protective layer of concrete.

The wall of the hydraulic structure is made two-layer. First, a structural layer 1 of concrete with reinforcement 2 is formed. To prepare the protective layer 3, sealed capsules 4 with decaying shells, designed to decompose over several weeks, months, years, decades, are introduced into the concrete mix. The protective layer is applied to the structural layer of concrete (reinforced concrete), withstand until curing. When the wall of the hydraulic structure comes in contact with the aqueous medium, the solution of drinking soda flows into the protective concrete layer at different times, which neutralizes the destructive effect of free calcium hydroxide.

The use of a saturated aqueous solution of potash, liquid glass in capsules instead of a saturated aqueous solution of drinking soda is an equivalent technical solution.

The overall stability of hydraulic structures (dams, bulls of the bridge, pools, reservoirs, wells, etc.) to the effects of the aquatic environment increases.

The source of information:

1. Fedosov S.V., Bazanov S.M. Sulphate corrosion of concrete. - M .: DIA publishing house, 2003 .-- 9-15.

Claims (2)

1. The wall of the hydraulic structure, consisting of structural and protective layers of concrete, reinforcement, characterized in that the protective layer of concrete includes capsules with decaying shells filled with a saturated aqueous solution of baking soda, and the shell of the capsules have different temporary resistance to decomposition. 2. The wall of the hydraulic structure according to claim 1, characterized in that the capsules occupy 0.1-10% of the volume of the protective layer of concrete.