Microscopic Analysis and Study of High-Performance Seawater All-Coral Concrete

Chao Chen; Jin Ming Liu; Yang Yang; Zhi Guo Guo

doi:10.4028/www.scientific.net/KEM.815.216

Paper Titles

Study on the Influence of Inertia Effect in Dynamic Splitting Test of Concrete
p.182

Research and Application of Electromagnetic Wave Absorbing Materials in Microwave Melting Ice and Snow Road
p.188

Lightweight Aggregate Shotcrete: Part 1
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Mechanical and Strain-Sensing Properties of Cement-Matrix Composite Containing Nano-Sized Carbon Black
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Detection of Defects in Layered Concrete Based on Rayleigh Surface Wave Method
p.210

Microscopic Analysis and Study of High-Performance Seawater All-Coral Concrete
p.216

Research on the Influence of the Stiffening Plates on the Stress of Hold Hoop of Bent Cap
p.223

Local Optimization Analysis of Bailey Beam Bracket Based on Multiscale Model
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Experimental Study on Water Permeability of Rubber Aggregate Concrete
p.235

HomeKey Engineering MaterialsKey Engineering Materials Vol. 815Microscopic Analysis and Study of High-Performance...

Microscopic Analysis and Study of High-Performance Seawater All-Coral Concrete

Abstract:

The ocean islands are far from inland and the concrete sandstone aggregates are scarce. In this paper, high-performance seawater all-coral concrete was developed by seawater mixing and room temperature maintenance design, and by optimizing the water-to-binder ratio, regulating internal curing, changing auxiliary cementing materials and blending ratio, incorporating expansion agent, adjusting fiber blending, etc. Combined with the consideration of work performance and mechanical properties, the concrete self-shrinkage is adjusted to further optimize the mix design. The mechanical properties of the optimized high-performance seawater all-coral concrete were studied, and the relevant durability tests were carried out according to the natural environment characteristics of the island. This is of great significance to the construction of island projects, repair and construction, and construction of protective projects [1].

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Periodical:

Key Engineering Materials (Volume 815)

Pages:

216-222

DOI:

https://doi.org/10.4028/www.scientific.net/KEM.815.216

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Online since:

August 2019

Authors:

Chao Chen, Jin Ming Liu*, Yang Yang, Zhi Guo Guo

Keywords:

All-Coral Concrete, Axial Compression, Microscopic Analysis

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References

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