Steel Fiber Reinforced Concrete Carbonation Simulation Research

Yuan Yao Miao; Di Tao Niu; Yan Wang

doi:10.4028/www.scientific.net/AMR.243-249.108

Paper Titles

Inverse Heat Conduction Problem of the Temperature Field with Artificial Ground Freezing Method
p.89

Analysis of Ice Response Spectra with Nonlinear Interpolation Method
p.93

The Engineering Application of Free Form Structures Derived by Structural Morphogenesis Methods
p.97

Nonlinear Finite Element Stress Analysis on the Interior Steel-Concrete Composite Beam Joints
p.101

Steel Fiber Reinforced Concrete Carbonation Simulation Research
p.108

Research on the Time-Varying Interaction of Structure and High Assembled Support System
p.112

Finite Element Model Updating of Space Grid Structures
p.116

Stiffness Analysis on Semi-Rigid Joints in Gabled Frames
p.120

Finite Element Analysis for Lateral Resistance Performance of New Precast Concrete Shear Wall
p.124

HomeAdvanced Materials ResearchAdvanced Materials Research Vols. 243-249Steel Fiber Reinforced Concrete Carbonation...

Steel Fiber Reinforced Concrete Carbonation Simulation Research

Abstract:

Durability of concrete structure due to carbonation problem has attracted worldwide attention. By studying on the performance of steel fiber reinforced concrete carbonation, simulations CO₂ corrosion environment was simulated. The impacts of the change law of carbonation depth of steel fiber reinforced concrete with water cement ratio (0.35,0.45,0.55), as well as steel fiber content (0%, 0.5%, 1.0%, 1.5% , 2.0%), pouring surface and age, on concrete carbonation depth were studied. Steel fiber reinforced concrete carbonation performance improvement role was analyzed. Thus, providing a experimental basis that can be used in the design and analysis of the durability of steel fiber reinforced concrete structure.

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Periodical:

Advanced Materials Research (Volumes 243-249)

Pages:

108-111

DOI:

https://doi.org/10.4028/www.scientific.net/AMR.243-249.108

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Online since:

May 2011

Authors:

Yuan Yao Miao, Di Tao Niu, Yan Wang

Keywords:

Carbonation, Concrete, Durability, Steel Fiber (SF)

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