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Construction method for impermeability leakage prevention of secondary structure

A construction method and secondary structure technology, applied in the field of housing construction, can solve problems such as separation and shedding, poor anti-seepage performance, and decreased anti-seepage effect of secondary structures, and achieve the effect of ensuring stability, good strength, and good strength

Inactive Publication Date: 2019-11-15
广东粤腾建设有限公司
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0003] Some secondary structures located outside, such as exterior walls, mainly play the role of partition, and separate indoor and outdoor through secondary structures. In order to keep the indoor space dry and comfortable, the secondary structures located outside such as exterior walls need to be kept in good condition. Impermeability, and the general concrete structure has poor impermeability such as gaps and pores, and an additional waterproof layer is required, but the waterproof layer is generally organic, which is easy to separate and fall off from the inorganic concrete structure, resulting in the impermeability of the secondary structure Effectiveness declines, therefore, there is room for improvement

Method used

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  • Construction method for impermeability leakage prevention of secondary structure
  • Construction method for impermeability leakage prevention of secondary structure
  • Construction method for impermeability leakage prevention of secondary structure

Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0065] A kind of impermeable concrete, the preparation method of impermeable concrete is as follows:

[0066] a. Put silica, talc, mica, graphite, granite, and dolomite into a grinder and grind them into powders with a particle size of 10-100nm;

[0067] b. Add Portland cement 100kg, water 90kg, water reducing agent 11kg, adhesive 30kg, rotating speed 60r / min, stirring for 5min to form cement slurry in the mixing tank;

[0068] c. Add 12.5kg of nano-silica powder, 15kg of nano-talc powder, 20kg of nano-mica powder, 10kg of nano-graphite powder, 17.5kg of nano-granite powder, 25kg of nano-dolomite powder, rotating speed 60r / min, and stirring into the cement slurry 8min to form a nano-premix;

[0069] d. Add 200kg of fine aggregate to the nano premix, rotate at 50r / min, and stir for 10min to form a fine premix;

[0070] e. Add 300kg of coarse aggregate to the fine premix, rotate at 30r / min, and mix for 20min to form impermeable concrete, rotate at 10r / min, and continue to mix until it is...

Embodiment 2

[0072] A kind of impermeable concrete, the preparation method of impermeable concrete is as follows:

[0073] a. Put silica, talc, mica, graphite, granite, and dolomite into a grinder and grind them into powders with a particle size of 10-100nm;

[0074] b. Add Portland cement 100kg, water 100kg, water reducing agent 10kg, adhesive 40kg, rotating speed 60r / min, stirring for 5min to form cement slurry in the mixing tank;

[0075] c. Add 15.625kg of nano-silica powder, 18.75kg of nano-talc powder, 25kg of nano-mica powder, 12.5kg of nano-graphite powder, 21.875kg of nano-granite powder, and 31.25kg of nano-dolomite powder in the cement slurry at a speed of 60r / min, stirring for 8 min to form a nano-premix;

[0076] d. Add 225kg of fine aggregate to the nano premix, rotate at 50r / min, and stir for 10min to form a fine premix;

[0077] e. Add 350kg of coarse aggregate to the fine premix, rotate speed 30r / min, and stir for 20min to form impermeable concrete, rotate speed 10r / min, and conti...

Embodiment 3

[0079] A kind of impermeable concrete, the preparation method of impermeable concrete is as follows:

[0080] a. Put silica, talc, mica, graphite, granite, and dolomite into a grinder and grind them into powders with a particle size of 10-100nm;

[0081] b. Add Portland cement 100kg, water 110kg, water reducing agent 90kg, adhesive 50kg, rotating speed 60r / min, stirring for 5min to form cement slurry in the mixing tank;

[0082] c. Add 18.75kg of nano-silica powder, 22.5kg of nano-talc powder, 30kg of nano-mica powder, 15kg of nano-graphite powder, 26.25kg of nano-granite powder, and 37.5kg of nano-dolomite powder in the cement slurry at a speed of 60r / min , Stir for 8min to form a nano-premix;

[0083] d. Add 250kg of fine aggregate to the nano premix, rotate at 50r / min, and stir for 10min to form a fine premix;

[0084] e. Add 400kg of coarse aggregate to the fine premix at a speed of 30r / min and stir for 20min to form impermeable concrete with a speed of 10r / min, and continue stirri...

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Abstract

The invention relates to the field of house construction, and provides a construction method for impermeability leakage prevention of a secondary structure aiming at the problem that an impermeable effect of a secondary structure is reduced because a waterproof layer easily falls off. The technical solution is as follows: the method comprises the following steps: step 1, building a reinforced barframe; step 2, building a casting template; step 3, pouring impermeable concrete; step 4, disassembling a casting template after the impermeable concrete is initially settled; and step 5, sprinkling water for curing, wherein the impermeable concrete comprises the following components, in parts by mass: 100 parts of Portland cement, 300-400 parts of coarse aggregate, 200-250 parts of fine aggregate, 100-150 parts of a nano filler, 30-50 parts of an adhesive, and 90-110 parts of water. According to the method provided by the invention, the nano filler is added into the impermeable concrete to fill gaps and fine pores in the concrete structure, the adhesive fills crack fine pores in the concrete structure, so that the concrete structure is very compact, the impermeability of the concrete structure is improved, even without addition of a waterproof layer, the impermeable effect is better and more stable, and the construction is more convenient.

Description

Technical field [0001] The invention relates to the field of house construction, in particular to a secondary structure anti-seepage and anti-leakage construction method. Background technique [0002] Secondary structures are some non-load-bearing concrete structures in frame, shear wall and frame-shear projects. [0003] Some secondary structures located outdoors, such as external walls, are mainly used as partitions. The secondary structure separates indoors and outdoors. In order to keep the indoor space dry and comfortable, secondary structures located outdoors, such as external walls, need to be kept well. Impermeability, while the general concrete structure has cracks, pores and other poor impermeability, it is necessary to add an additional waterproof layer, but the waterproof layer is generally organic, which is easy to separate and fall off from the inorganic concrete structure, resulting in the impermeability of the secondary structure The effect is reduced, so there is ...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): C04B28/04
CPCC04B28/04C04B2111/00293C04B2201/50C04B2103/302C04B2103/0045C04B14/062C04B14/042C04B14/20C04B14/024C04B14/048C04B14/26C04B14/42C04B14/104C04B2103/0013
Inventor 林贵宣
Owner 广东粤腾建设有限公司
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