Novel high-toughness fiber reinforced cement-based composite material and preparation method thereof

A fiber reinforced cement and composite material technology, applied in the field of building materials, can solve the problems of affecting the service life of structural durability, low tensile strength of concrete, difficult to control crack width, etc., so as to inhibit the formation and development of cracks, improve physical Effects of reduced probability of mechanical properties, cracking and fracture

Inactive Publication Date: 2018-06-22
合肥市闵葵电力工程有限公司
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

However, concrete has disadvantages such as low tensile strength, poor toughness, and difficulty in controlling the width of cracks after cracking. Therefore, in traditional reinforced concrete structures, engineering accidents often occur due to corrosion of steel bars caused by cracks.
Cracks in concrete structures directly affect the durability of the structure and the service life of the project, eventually leading to premature deterioration of the concrete structure or even complete loss of function
In order to overcome these shortcomings of concrete, carbon fiber concrete and steel fiber concrete have emerged as the times require. The fiber content of this type of concrete is usually less than 2%. Although this can reduce the early cracking of concrete to a certain extent and improve the flexural toughness of the material, etc. , but strain softening damage still occurs under direct tensile load, and the crack immediately enters the stage of localized expansion after cracking

Method used

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Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0023] A novel high-toughness fiber-reinforced cement-based composite material, comprising the following raw materials in parts by weight: 10 parts of composite reinforcing fiber, 30 parts of Portland cement, 15 parts of fly ash, 4 parts of fine sand, 1 part of dispersant, 2-5 parts of water reducing agent, 0.5 parts of toughening agent and 12 parts of water.

[0024] Wherein, the composite reinforcing fiber is a mixture of polyvinyl alcohol fiber and carbon fiber with a weight ratio of 2:1.

[0025] Wherein, the fly ash is Class I fly ash.

[0026] Wherein, the dispersant is sodium dodecylbenzenesulfonate.

[0027] Wherein, the water reducer is a polycarboxylate water reducer with a water reducing rate of 40%.

[0028] Wherein, the toughening agent is ethylene-vinyl acetate copolymer.

[0029] The present invention also provides a method for preparing the above-mentioned novel high-toughness fiber-reinforced cement-based composite material, comprising the following steps: ...

Embodiment 2

[0034] A novel high-toughness fiber-reinforced cement-based composite material, comprising the following raw materials in parts by weight: 20 parts of composite reinforcing fiber, 50 parts of Portland cement, 25 parts of fly ash, 10 parts of fine sand, 5 parts of dispersant, 5 parts of water reducing agent, 3.5 parts of toughening agent and 18 parts of water.

[0035] Wherein, the composite reinforcing fiber is a mixture of polyvinyl alcohol fiber and carbon fiber with a weight ratio of 4:1.

[0036] Wherein, the fly ash is Class I fly ash.

[0037] Wherein, the dispersant is sodium dodecylbenzenesulfonate.

[0038] Wherein, the water reducer is a polycarboxylate water reducer with a water reducing rate of 40%.

[0039] Wherein, the toughening agent is ethylene-vinyl acetate copolymer.

[0040] The present invention also provides a method for preparing the above-mentioned novel high-toughness fiber-reinforced cement-based composite material, comprising the following steps: ...

Embodiment 3

[0045] A novel high-toughness fiber-reinforced cement-based composite material, comprising the following raw materials in parts by weight: 15 parts of composite reinforcing fiber, 40 parts of Portland cement, 20 parts of fly ash, 7 parts of fine sand, 3 parts of dispersant, 3.5 parts of water reducing agent, 2 parts of toughening agent and 15 parts of water.

[0046] Wherein, the composite reinforcing fiber is a mixture of polyvinyl alcohol fiber and carbon fiber with a weight ratio of 3:1.

[0047] Wherein, the fly ash is Class I fly ash.

[0048] Wherein, the dispersant is sodium dodecylbenzenesulfonate.

[0049] Wherein, the water reducer is a polycarboxylate water reducer with a water reducing rate of 40%.

[0050] Wherein, the toughening agent is ethylene-vinyl acetate copolymer.

[0051] The present invention also provides a method for preparing the above-mentioned novel high-toughness fiber-reinforced cement-based composite material, comprising the following steps: ...

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PUM

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Abstract

The invention discloses a novel high-toughness fiber reinforced cement-based composite material and a preparation method thereof. The composite material is prepared from, by weight, 10-20 parts of composite reinforcing fiber, 30-50 parts of portland cement, 15-25 parts of fly ash, 4-10 parts of fine sand, 1-5 parts of dispersing agent, 2-5 parts of water reducing agent, 0.5-3.5 parts of tougheningagent and 12-18 parts of water. According to the composite material, the toughness and crack resistance of the material are improved, the composite reinforcing fiber is uniformly distributed by the dispersing agent, the mechanical properties are changed, the ability of the material to resist deformation is greatly improved, and the probability of occurrence of cracking and fracture of concrete isreduced.

Description

technical field [0001] The invention relates to the technical field of building materials, in particular to a novel high-toughness fiber-reinforced cement-based composite material and a preparation method thereof. Background technique [0002] Building materials are the basis of construction engineering, and concrete is the most widely used building material. Its main components include cement, admixtures and aggregates. It is hardened after adding water and mixing. It has the advantages of simple process and fire resistance. However, concrete has disadvantages such as low tensile strength, poor toughness, and difficulty in controlling the width of cracks after cracking. Therefore, in traditional reinforced concrete structures, engineering accidents often occur due to corrosion of steel bars caused by cracks. Concrete structure cracks directly affect the durability of the structure and the service life of the project, eventually leading to premature deterioration of the conc...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): C04B28/04C04B14/38C04B16/06C04B111/27C04B111/20
CPCC04B28/04C04B2111/20C04B2111/27C04B2111/29C04B2201/50C04B2201/52C04B18/08C04B14/06C04B24/20C04B24/2623C04B2103/302C04B14/386C04B16/0641
Inventor 何飞
Owner 合肥市闵葵电力工程有限公司
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