The Sulphate Effect on Lijiaxia Concrete Dam (China) Gallery

Zhu, Xufen; Li, Ji; Zhang, Yi; Han-zhou, Song; Zheng, Hu

doi:10.1155/2017/8698759

Cited by 3 publications

(2 citation statements)

References 22 publications

Supporting

Mentioning

Contrasting

Order By: Relevance

“…Subsequent model experimental analysis showed that the erosion of tunnel-lining concrete by sulfates is the main cause of cracking and spalling of tunnel linings [ 7 ]. A similar situation occurred at Bapanxia Dam [ 8 ] and Lijiaxia Dam [ 9 ] in the northwestern region. Sulfate minerals in the underlying rock and soil bodies came in contact with the concrete via groundwater transport, causing severe damage to the concrete structure in the projects.…”

Section: Introductionsupporting

confidence: 56%

Comprehensive Testing of Sulfate Erosion Damage of Concrete Structures and Analysis of Silane Coating Protection Effect

Liu

Jian

Tang

et al. 2022

Sensors

View full text Add to dashboard Cite

In order to study the protection performance of silane coating on in-service concrete structures in a sulfate environment, we collect concrete samples in the field to simulate the concrete erosion process by accelerated erosion with wetting–drying cycles. We place the samples into protected, exposed and control groups corresponding to a corrosive environment with silane protection, corrosive environment without protection and general environment for three different service conditions. A combination of ultrasonic velocimetry, CT (Computed Tomography) scan imaging, NMR (Nuclear Magnetic Resonance) pore structure analysis, strength testing and other methods are used to analyze the strength, ultrasonic wave velocity, pore structure and other characteristics of the specimens during sulfate erosion. Based on the test results, the protective effect of silane coating on concrete structures under sulfate attack is quantitatively analyzed, and an index for judging the damage rate of specimens is proposed to quantitatively analyze the protective effect of silane coating. The research results show that the damage of the concrete structure under silane protection in a sulfate-attack environment can be reduced by more than 50%; its integrity damage index and strength damage index are easily affected by the location of local defects, which leads to a decrease in the protection efficiency of the surface silane coating.

show abstract

Section: Introductionsupporting

confidence: 56%

Comprehensive Testing of Sulfate Erosion Damage of Concrete Structures and Analysis of Silane Coating Protection Effect

Liu

Jian

Tang

et al. 2022

Sensors

View full text Add to dashboard Cite

show abstract

“…In another study of civil dam related problems, the comprehensive evaluation method by using XRF, XRD, SEM, and EDS was applied to investigate the mechanism of the concrete degradation [4]. This is supported by the study of Silva et al, where it explains that microscopy is the only technique capable to clearly identify the features associated with DEF in concrete [5].…”

Section: Introductionmentioning

confidence: 93%

Discrete Particle Method Numerical Simulation on The Distributions of Suspended Particles in The Flow of Ogee Spillway Structure

Zahari

Zawawi

Sidek

et al. 2022

ARFMTS

View full text Add to dashboard Cite

Dam failure is undeniably catastrophic and one of its major causes is the soil erosion near the dam structure. In this paper, the characteristics and compositions of soil sediment in dam spillway structure were investigated to determine its impact on the occurrence of erosion. Four suspended samples were taken from the vicinity of Ogee dam spillway. Sediment analysis using scanning electron microscope revealed that the soils consist of relative high metal contents of aluminium, iron and magnesium. These metals will attribute to the erosion of dam wall, which subsequently reduce the durability of wall against high hydrostatic pressure exerted by the reservoir. Nonetheless, as the average sizing of suspended particles at each sampling location were capped at 4.55 μm, the damages incurred to the dam were minimal. Additionally, the suspended particles around the dam spillway was numerically simulated with the inclusion of discrete phase model. The numerical data were in great consensus with the corresponding finding attained from the particle image velocimetry experimental of a scaled-down dam model, with the discrepancy not more than 4.89 %. The movement of suspended particles due to the water flow can be tracked numerically and it is found the sediment prone to accumulate at the vicinity of dam spillway.

show abstract

The mechanism of large-scale river valley deformation induced by impoundment at the Baihetan Hydropower Station

Rong,

Xu,

et al. 2024

Computers and Geotechnics

View full text Add to dashboard Cite

The Sulphate Effect on Lijiaxia Concrete Dam (China) Gallery

Cited by 3 publications

References 22 publications

Comprehensive Testing of Sulfate Erosion Damage of Concrete Structures and Analysis of Silane Coating Protection Effect

Comprehensive Testing of Sulfate Erosion Damage of Concrete Structures and Analysis of Silane Coating Protection Effect

Discrete Particle Method Numerical Simulation on The Distributions of Suspended Particles in The Flow of Ogee Spillway Structure

The mechanism of large-scale river valley deformation induced by impoundment at the Baihetan Hydropower Station

Contact Info

Product

Resources

About