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Low shrinkage anti-cracking C60 grade self-compacting bridge tower concrete based on internal curing, shrinkage compensating and toughening, and preparation method thereof

A shrinkage compensation and low shrinkage resistance technology, applied in the field of building materials, can solve the problems of high thermal insulation temperature rise of concrete, affecting concrete work performance and mechanical properties, and difficult expansion performance.

Active Publication Date: 2015-12-09
WUHAN UNIV OF TECH +2
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  • Summary
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  • Application Information

AI Technical Summary

Problems solved by technology

[0003] However, the high-performance concrete of bridge towers used at present generally has the following problems: (1) the admixture used has limited dispersion ability to cement, and about 10% of the cement particles in the concrete have not been fully hydrated and only play the role of inert filling. Therefore, the amount of cement and cementitious materials in bridge tower concrete is generally high, the concrete has a large adiabatic temperature rise, large shrinkage, and is easy to crack; (2) adding expansion agent to high-strength concrete to compensate for shrinkage, due to the concrete water-cement ratio Low, there is not enough water for the expansion agent to react in the later stage of hydration, and its expansion performance is difficult to exert, and the due shrinkage compensation effect cannot be achieved; (3) Internal curing materials represented by SAP are more sensitive to the pH value of the solution, After the pH value of the solution rises, the water will be released rapidly in a short time, which will affect the working performance and mechanical properties of the concrete; (4) the structural characteristics and service environment of the bridge tower require the bridge tower concrete to have good crack resistance and durability. At present, the commonly used anti-cracking measure is fiber crack resistance. However, ordinary admixtures have limited effect on reducing viscosity and maintaining plasticity of concrete. After adding fibers to high-strength concrete with low water-binder ratio, it will seriously affect the working performance of concrete, which is difficult to achieve. Its self-compacting and ultra-elevation pumping

Method used

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  • Low shrinkage anti-cracking C60 grade self-compacting bridge tower concrete based on internal curing, shrinkage compensating and toughening, and preparation method thereof
  • Low shrinkage anti-cracking C60 grade self-compacting bridge tower concrete based on internal curing, shrinkage compensating and toughening, and preparation method thereof
  • Low shrinkage anti-cracking C60 grade self-compacting bridge tower concrete based on internal curing, shrinkage compensating and toughening, and preparation method thereof

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Experimental program
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Effect test

Embodiment 1

[0044]The preparation method of the ultra-dispersed water-reducing, shrink-reducing and plastic-preserving admixture in embodiment 1 is roughly the same as embodiment 2~4, difference is: 1) the molar ratio of methallyl alcohol, ammoniacal liquor and propylene oxide is 1:0.4: 20. The amount of catalyst used is 0.4% of the mass of methallyl alcohol, the reaction pressure is 0.30MPaG, the temperature is 105°C, and the time is 5h; 2) the reaction between methallyl alcohol polyoxypropylene ether and triisopropanolamine Mixture 86%, sodium acrylate sulfonate 3%, methacrylate 8%, water 3%; 3) The molar ratio of methacrylic acid and polypropylene glycol monomethyl ether is 1.18:1, dipropylene glycol monobutyl ether and maleic anhydride The molar ratio is 1.5:1, the reaction temperature is 120°C, and the time is 4h; 4) Polypropylene glycol monomethyl ether methacrylate monomer 82%, diethylene glycol dipropylene glycol monobutyl ether monomer 3%, methyl Acrylic acid 8%, dimethylaminoeth...

Embodiment 2

[0059] A low-shrinkage crack-resistant C60 grade self-compacting bridge tower concrete based on internal curing, shrinkage compensation and toughening, the preparation process of which includes the following steps:

[0060] 1) Accurately weigh cement (C), fly ash (FA), slag powder (BFS), expansion agent (EAACII, limit expansion rate in 7d water 0.08%), river sand (S ), gravel (G), AN-ICA internal curing agent (AN-ICA), polyacrylonitrile fiber (PPF), micron modified absorbent cotton cellulose (CF), cement paste microstructure regulator (PAT), Water (W) and ultra-dispersed water-reducing, shrink-reducing and plastic-preserving admixture (JNT);

[0061] 2) Add the weighed cement, fly ash, mineral powder, expansion agent, AN-ICA internal curing agent, cement slurry microstructure regulator, gravel, and river sand into a single-horizontal shaft forced mixer for dry mixing In the process of dry mixing, add the weighed polyacrylonitrile fiber and micron modified absorbent cotton cel...

Embodiment 3

[0071] A low-shrinkage crack-resistant C60 grade self-compacting bridge tower concrete based on internal curing, shrinkage compensation and toughening, the preparation process of which includes the following steps:

[0072] 1) Accurately weigh cement (C), fly ash (FA), slag powder (BFS), expansion agent (EAACII, limit expansion rate in 7d water is 0.08%), river sand (S ), gravel (G), AN-ICA internal curing agent (AN-ICA), polyacrylonitrile fiber (PPF), micron modified absorbent cotton cellulose (CF), cement paste microstructure regulator (PAT), Water (W) and ultra-dispersed water-reducing, shrink-reducing and plastic-preserving admixture (JNT);

[0073] 2) Add the weighed cement, fly ash, mineral powder, expansion agent, AN-ICA internal curing agent, cement slurry microstructure regulator, gravel, and river sand into a single-horizontal shaft forced mixer for dry mixing In the process of dry mixing, add the weighed polyacrylonitrile fiber and micron modified absorbent cotton ...

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Abstract

The present invention discloses a low shrinkage anti-cracking C60 grade self-compacting bridge tower concrete based on internal curing, shrinkage compensating and toughening, wherein the low shrinkage anti-cracking C60 grade self-compacting bridge tower concrete is prepared from the following raw materials: cement, fly ash, mine powder, an expander, an AN-ICA internal curing agent, crushed stone, river sand, polyacrylonitrile fibers, micro-scale modified degreasing cotton cellulose, a cement slurry microstructure regulation agent, water and an ultra-dispersed water-reducing and shrinkage-reducing superplastic admixture. According to the present invention, the initial slump is more than or equal to 230 mm, the expansion degree is more than or equal to 630 mm, the 28 d compressive strength is more than or equal to 70 MPa, the 28 d splitting tensile strength is more than or equal to 5.8 MPa, the toughness index I5 is more than or equal to 3.0, the 28 d self-shrinkage is less than 100*10<-6>, the 28 d dry shrinkage rate is less than 150*10<-6>, the carbonization grade achieves T-IV, the anti-cracking grade achieves L-V, the product has characteristics of excellent mechanical property, excellent cracking resistance and excellent durability, and the difficult problems of high cement and cementing material material consumption, large shrinkage and easy cracking of the bridge tower concrete at the current stage can be solved.

Description

technical field [0001] The invention belongs to the field of building materials, and in particular relates to a low-shrinkage, crack-resistant C60 grade self-compacting bridge tower concrete based on internal curing, shrinkage compensation and toughening and a preparation method thereof. Background technique [0002] Cable-stayed bridges are being used more and more widely because of their elegant shape, super-large span, super-navigable capability and light structure. The bridge tower is the main load-bearing structure of the cable-stayed bridge, which bears the huge cable force brought by the bridge, and its mechanical properties and durability determine the service life of the entire bridge. However, super-high bridge towers have dense reinforcement, large height, and large cross-sectional size, requiring the bridge tower concrete to have high flow performance, low temperature rise, and high volume stability. [0003] However, the high-performance concrete of bridge towe...

Claims

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Application Information

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IPC IPC(8): C04B28/04C04B16/02C04B24/04C04B24/16C04B103/30
Inventor 丁庆军曹健张燕飞胡文军罗超云梅新咏高宗余闫志刚张文芹王发洲胡曙光王中文王小佳何涛刘小清
Owner WUHAN UNIV OF TECH
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