A platform for research: civil engineering, architecture and urbanism
A platform for research: civil engineering, architecture and urbanism
Evaluation of Liquefaction Potential of Saturated Sands Based on Resistivity Piezocone Penetration Testing—A Case Study
Abstract The liquefaction of saturated soils is a major concern for the earthquake damage of foundation. Due to the difficulty and cost constraint in obtaining high-quality undisturbed samples, in situ testing is commonly applied to evaluating the potential of soil liquefaction. At present, numerous methods based on the cone penetration test (CPT) have been developed, but none of them has been accepted to be the most reliable one. In high risk projects, a comprehensive evaluation based on various methods is usually adopted, and thus the research on new method to evaluate the liquefaction is still necessary. In this research the feasibility of using resistivity piezocone penetration test (RCPTU) for predicting liquefaction resistance is investigated. The resistivity of saturated silts and sands is measured using RCPTU at a test section of Suqian-Xinyi expressway. The study on combination of resistivity and soil behavior type index to directly calculate the cycle resistance ratio (CRR) is conducted with the CRR from Robertson modified liquefaction evaluation model as reference. The state parameter (Ψ) to directly calculate the cycle resistance ratio (CRR) is also analyzed. It is shown that the resistivity and soil behavior type index and the in situ state parameter (Ψ) are two good methods that used for effective evaluation of liquefaction potential of saturated soils.
Evaluation of Liquefaction Potential of Saturated Sands Based on Resistivity Piezocone Penetration Testing—A Case Study
Abstract The liquefaction of saturated soils is a major concern for the earthquake damage of foundation. Due to the difficulty and cost constraint in obtaining high-quality undisturbed samples, in situ testing is commonly applied to evaluating the potential of soil liquefaction. At present, numerous methods based on the cone penetration test (CPT) have been developed, but none of them has been accepted to be the most reliable one. In high risk projects, a comprehensive evaluation based on various methods is usually adopted, and thus the research on new method to evaluate the liquefaction is still necessary. In this research the feasibility of using resistivity piezocone penetration test (RCPTU) for predicting liquefaction resistance is investigated. The resistivity of saturated silts and sands is measured using RCPTU at a test section of Suqian-Xinyi expressway. The study on combination of resistivity and soil behavior type index to directly calculate the cycle resistance ratio (CRR) is conducted with the CRR from Robertson modified liquefaction evaluation model as reference. The state parameter (Ψ) to directly calculate the cycle resistance ratio (CRR) is also analyzed. It is shown that the resistivity and soil behavior type index and the in situ state parameter (Ψ) are two good methods that used for effective evaluation of liquefaction potential of saturated soils.
Evaluation of Liquefaction Potential of Saturated Sands Based on Resistivity Piezocone Penetration Testing—A Case Study
Duan, Wei (author) / Cai, Guojun (author) / Zou, Haifeng (author) / Liu, Songyu (author)
2017-06-28
6 pages
Article/Chapter (Book)
Electronic Resource
English
Resistivity , Piezocone penetration test , Liquefaction , State parameter , Cycle resistance ratio Engineering , Geoengineering, Foundations, Hydraulics , Geotechnical Engineering & Applied Earth Sciences , Vibration, Dynamical Systems, Control , Monitoring/Environmental Analysis , Building Repair and Maintenance , Transportation Technology and Traffic Engineering
| British Library Online Contents | 2012
Probabilistic identification of contaminated soils using resistivity piezocone penetration tests
| Springer Verlag | 2020
Evaluating Liquefaction Phenomenon Of Silty Sand Using Piezocone Penetration Test (CPTu)
| DOAJ | 2022