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ISEG NATIONAL CONFERENCE EGCON-2018 3 rd -5 th December,2018 GSI, TI,SR, Hyderabad

ISEG NATIONAL CONFERENCE EGCON-2018 3 rd -5 th December,2018 GSI, TI,SR, Hyderabad. Soil Mechanics: Consistency Test Data for Subsurface Investigation & liquefaction. A Case Study of Pondicherry Seismic Microzonations. S . P. Dhanvijay, Director, Project Landslide, GSI-NER, Dimapur &

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ISEG NATIONAL CONFERENCE EGCON-2018 3 rd -5 th December,2018 GSI, TI,SR, Hyderabad

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  1. ISEG NATIONAL CONFERENCE EGCON-2018 3rd-5th December,2018 GSI, TI,SR, Hyderabad

  2. Soil Mechanics: Consistency Test Data for Subsurface Investigation & liquefaction. A Case Study of Pondicherry Seismic Microzonations. S. P. Dhanvijay, Director, Project Landslide, GSI-NER, Dimapur & B. Ajaya Kumar, Director, EG Division, SR, Hyderabad.

  3. Seismic Microzonations attended by GT Lab SR,Hyderabd • Seismic microzonation of Vijayawada • Seismic microzonation of Vishakhapatnam • Seismic microzonation of Chennai • Seismic microzonation of Kochin • Seismic microzonation of Mangalore

  4. Introduction Seismic hazard Microzonation of Pondicherry, India was carried out during 2005-07 in an area of about 150 sq.km in Survey of India Toposheet No.58M/13/1&2 to classify the urban agglomeration into different discrete zones of seismic hazard. The Pondicherry area is essentially a plain country with an upland area of Cuddalore sandstone with its immediate vicinity covered by soil/alluvial overburden underlain apparently by geotechnically not so competent Cuddalore sandstone. The plains essentially comprise of coastal and older flood plains of the Gingee River and the Ariyankuppam River. Of the 11 boreholes drilled in Pondicherry area, 4 are over Tidal flats, 3 are over beach dune, 4 are over flood plain, aggregating to a depth of 325m. In all about 1104 SPT are carried out up to a depth of 30m at an average interval of 2m, indicated a loose to moderately dense soil media up to an average depth of about 14 to 16m.

  5. Targets and analysis • Analysis of 104 SPT samples (carried out up to a depth of 30m at an average interval of 2m) • Analysis of 74 bulk samples carried out for Atterberg and consistency test data parameters • The grain size weight percent determination for different bore holes drilled in Pondicherry area. • The grain size distribution curves for soil samples received from different borehole locations of Pondicherry area. • Synthesization of geotechnical input to the assessment of the liquefaction potential / susceptibility of sub surface soil media. • Classification of soils for potentially vulnerable to seismically induced liquefaction.

  6. SPT & Bulk samples received and analysed by GT Lab SR,Hyderabd

  7. Analysis table(CL-ML)

  8. Analysis table(CL-ML)

  9. Analysis table(CL-ML)

  10. Analysis table(CL-ML)

  11. MC and Grain size analysis

  12. MC and Grain size analysis

  13. MC and Grain size analysis

  14. MC and Grain size analysis

  15. MC and Grain size analysis

  16. Plasticity chart with zones recommended by Seed et al. with Atterberg results plotted.

  17. Observation & Conclusion

  18. Interpretation • In all about 95 SPT carried out up to a depth of 30m at an average interval of 2m, indicated a loose to moderately dense soil media up to an average depth of about 14 to 16 with N value between 5 and 30. • By synthesizing the geotechnical inputs, Microzones of area of the undisturbed samples, were analyzed to determine the soil mechanical properties, as an input to the assessment of the liquefaction potential / susceptibility of sub surface soil media. • The grain size weight percent determined at various depths in different bore hole locations of Pondicherry area indicated that the silty sand, sandy silt, and silt and silty clay are the dominant soil fractions in the area under investigation. • The grain size distribution curves of soil samples observed in different borehole locations of Pondicherry area showed that the tendency of the respective curves towards close to the boundary of potentially liquefiable soils. • The relatively clean sandy soils with few fines are potentially vulnerable to seismically induced liquefaction.

  19. Conclusions The soil present in borehole no-01,03,05,06,08, is containing less than 15-20% particles by weight, smaller than 0.005 mm, and having a water content (WC) to liquid limit (LL) ratio greater than 0.9 is susceptible to liquefaction. Clayey soils is susceptible to liquefaction as of the following conditions are met: (1) percent of particles less than 0.005 mm <15%, (2) LL<35%, and (3) WC/LL>0.9 Hence treated as a simple criteria based on soil parameters determinations to deduce the susceptibility of liquefaction in fine grained soils present in above mentioned boreholes. The grain size of silts falls between that of sand and clay, it is often assumed that the susceptibility of silts must also fall somewhere between the high susceptibility of sands which may prone to liquefaction.

  20. Observation & Conclusion In this paper, the geotechnically analysed soils are considered to be of potentially liquefiable type with character of: (1) less than 15% “clay” fines0.005 mm), (2) Liquid Limit of LL≤35%, and (3) water content greater than or equal to 90% of the Liquid Limit (seed e tal 1984-85). Andrews and Martin (2000) also recommend that soils with less than about 10% clay fines (< 0.002 mm) and a Liquid Limit(LL) in the minus #40 sieve fraction of less than 32% be considered potentially liquefiable, that soils with more than about 10% clay fines and LL≥32% are unlikely to be susceptible to classic cyclically-induced liquefaction. Even this principle is also applicable to the studies carried out for Pondicherry seismic microzonations.

  21. THANK YOU

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