{"title":"SOIL STRENGTH ESTIMATION USING SCREW DRIVING SOUNDING TECHNIQUE FOR BANGKOK CLAY LAYERS","authors":"Suttisak Soralump","doi":"10.21660/2023.111.3368","DOIUrl":null,"url":null,"abstract":": The Screw Driving Sounding (SDS) test is an improvised and modified version of the Swedish Weight sounding (SWS) test. It is an emerging technique for in-situ field characterization used to estimate strength parameters from field tests directly, rather than by obtaining samples from the field and performing laboratory tests. For this research, several boreholes with standard penetration tests (SPTs) were conducted in the central region of Bangkok. SDS tests and field vane shear tests were performed in the vicinity of these boreholes. The undrained shear strengths from these tests were correlated separately to the SDS torque for marine and intertidal clay deposits. These equations differed slightly due to the difference in the shearing during failure of soil. These empirical equations are supported by an analytical equation that is derived based on the shearing mechanism of soil when the SDS screw head is penetrated into the soil. The correlation to estimate the SPT N was developed for stiff and hard alluvium clay, and compared with the equation from past research. Plots of SDS penetration energy with the consistency index showed that the clays could be clustered as two distinct groups based on their state and consistency. The SDS penetration resistance parameters were extremely affected by differences in the state of clay, which depended on the soil’s depositional history and depositional environment. The past researches were mainly empirical and dealt with sand or Japanese clay, formed in different depositional environment. Those equations do not give reliable results when applied directly to Bangkok clay. Hence, from this research, the undrained shear strength of soft clay and SPT N of stiff clay of the Bangkok deposit can be estimated directly from the equations.","PeriodicalId":47135,"journal":{"name":"International Journal of GEOMATE","volume":null,"pages":null},"PeriodicalIF":0.9000,"publicationDate":"2023-11-01","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"0","resultStr":null,"platform":"Semanticscholar","paperid":null,"PeriodicalName":"International Journal of GEOMATE","FirstCategoryId":"1085","ListUrlMain":"https://doi.org/10.21660/2023.111.3368","RegionNum":0,"RegionCategory":null,"ArticlePicture":[],"TitleCN":null,"AbstractTextCN":null,"PMCID":null,"EPubDate":"","PubModel":"","JCR":"Q4","JCRName":"ENGINEERING, CIVIL","Score":null,"Total":0}
引用次数: 0
Abstract
: The Screw Driving Sounding (SDS) test is an improvised and modified version of the Swedish Weight sounding (SWS) test. It is an emerging technique for in-situ field characterization used to estimate strength parameters from field tests directly, rather than by obtaining samples from the field and performing laboratory tests. For this research, several boreholes with standard penetration tests (SPTs) were conducted in the central region of Bangkok. SDS tests and field vane shear tests were performed in the vicinity of these boreholes. The undrained shear strengths from these tests were correlated separately to the SDS torque for marine and intertidal clay deposits. These equations differed slightly due to the difference in the shearing during failure of soil. These empirical equations are supported by an analytical equation that is derived based on the shearing mechanism of soil when the SDS screw head is penetrated into the soil. The correlation to estimate the SPT N was developed for stiff and hard alluvium clay, and compared with the equation from past research. Plots of SDS penetration energy with the consistency index showed that the clays could be clustered as two distinct groups based on their state and consistency. The SDS penetration resistance parameters were extremely affected by differences in the state of clay, which depended on the soil’s depositional history and depositional environment. The past researches were mainly empirical and dealt with sand or Japanese clay, formed in different depositional environment. Those equations do not give reliable results when applied directly to Bangkok clay. Hence, from this research, the undrained shear strength of soft clay and SPT N of stiff clay of the Bangkok deposit can be estimated directly from the equations.
期刊介绍:
The scope of special issues are as follows: ENGINEERING - Environmental Engineering - Chemical Engineering - Civil and Structural Engineering - Computer Software Eng. - Electrical and Electronic Eng. - Energy and Thermal Eng. - Aerospace Engineering - Agricultural Engineering - Biological Engineering and Sciences - Biological Systems Engineering - Biomedical and Genetic Engineering - Bioprocess and Food Engineering - Geotechnical Engineering - Industrial and Process Engineering - Manufacturing Engineering - Mechanical and Vehicle Eng. - Materials and Nano Eng. - Nuclear Engineering - Petroleum and Power Eng. - Forest Industry Eng. SCIENCE - Environmental Science - Chemistry and Chemical Sci. - Fisheries and Aquaculture Sciences - Astronomy and Space Sci. - Atmospheric Sciences - Botany and Biological Sciences - Genetics and Bacteriolog - Forestry Sciences - Geological Sciences - Materials Science and Mineralogy - Statistics and Mathematics - Microbiology and Medical Sciences - Meteorology and Palaeo Ecology - Pharmacology - Physics and Physical Sci. - Plant Sciences and Systems Biology - Psychology and Systems Biology - Zoology and Veterinary Sciences ENVIRONMENT - Environmental Technology - Recycle Solid Wastes - Environmental dynamics - Meteorology and Hydrology - Atmospheric and Geophysics - Physical oceanography - Bio-engineering - Environmental sustainability - Resource management - Modelling and decision support tools - Institutional development - Suspended and biological processes - Anaerobic and Process modelling - Modelling and numerical prediction - Interaction between pollutants - Water treatment residuals - Quality of drinking water - Distribution systems on potable water - Reuse of reclaimed waters