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A hybrid fiber reinforced concrete

A reinforced concrete and hybrid fiber technology, which is applied in the field of concrete and hybrid fiber reinforced concrete, can solve problems such as low cohesion, lower fiber strength, and lower fiber reinforcement effect, so as to improve toughness, increase post-crack strength, and increase tensile strength The effect of flexural strength

Active Publication Date: 2017-10-17
殷石
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

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Problems solved by technology

However, polypropylene coarse fibers are hydrophobic and have low adhesion to concrete, thus greatly reducing the reinforcing effect of the fibers
In order to improve the bonding force between fibers and concrete, fibers are often subjected to heterogeneous treatment or surface indentation treatment, but this treatment will seriously reduce the strength of fibers

Method used

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  • A hybrid fiber reinforced concrete
  • A hybrid fiber reinforced concrete
  • A hybrid fiber reinforced concrete

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Embodiment Construction

[0020] The preferred embodiments of the present invention will be described in detail below.

[0021] A hybrid fiber reinforced concrete is prepared by first mixing one or more of organic modifiers, silane coupling agents and inorganic modified fillers with polypropylene particles in proportion, and then melting and stretching to prepare a modified polymer. Propylene crude fiber; then add the modified polypropylene crude fiber and polymer fine fiber into the concrete and mix thoroughly until it is uniform; finally, pour the mixed fiber concrete that has been stirred on the welded steel reinforcement for 28 days. Table 1 shows the specimen information of the hybrid fiber reinforced concrete, in which the control group 1 is plain concrete, the control group 2 is the concrete reinforced with modified polypropylene coarse fibers, and the control group 3 is the concrete reinforced with polymer fine fibers; Tables 2 and 3 , 4 respectively characterize the flexural toughness, perform...

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Abstract

The invention discloses hybrid fiber reinforced concrete, that is to say, stressed reinforcing steel bars, modified polypropylene coarse fibers and polymeric fine fibers are used in the concrete in cooperation.The modified polypropylene coarse fibers are prepared through melt stretch after modification with an organic modifying agent, a silane coupling agent and an inorganic modifying filler.The polymeric fine fibers are capable of preventing the original concrete defects and microcrack expansion, and the modified polypropylene coarse fibers are capable of effectively limiting and delaying the occurrence and development of macrocracks.When the two fibers are used simultaneously in the concrete, the hybrid fiber reinforced concrete can have better shock resistance, crack resistance and abrasion resistance compared with constructional reinforcement, and replace the constructional reinforcement accordingly, and therefore, carbon emission generated during reinforcing bar production is significantly reduced.In addition, the two fibers are used in cooperation with the stressed reinforcing steel bars, the quality and durability of concrete work are greatly improved, and the service life of the concrete work is prolonged.

Description

technical field [0001] The invention belongs to the field of building materials and relates to concrete, in particular to a hybrid fiber reinforced concrete. Background technique [0002] Concrete is made by mixing cement, sand, stone and water, admixture materials and admixtures in a certain proportion. After solidification, it is as hard as stone, with good compressive ability, but poor tensile ability, and is easy to break due to tension. In order to solve this contradiction and give full play to the compressive capacity of concrete, a certain number of stressed steel bars are often added in the tensile area of ​​concrete or corresponding parts, so that the two materials are bonded into a whole and jointly bear external forces. However, the unreinforced part of the concrete is still plain concrete, which will cause cracking and wear due to concrete shrinkage, creep and external impact. Concrete cracking reduces the protection of stressed steel bars, which can cause corr...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): C04B16/06C04B20/02
CPCC04B16/0608C04B16/0633C04B20/023C04B2111/20C04B2111/34
Inventor 石峰殷石
Owner 殷石
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