This volume comprises select papers presented during the Indian Geotechnical Conference 2018. This volume discusses construction challenges and issues in geotechnical engineering. The contents cover foundation design and analysis, issues related to geotechnical structures, including dams, retaining walls, embankments and pavements, and rock mechanics and construction in rocks and rocky environments. Many of the papers discuss live case studies related to important geotechnical engineering projects worldwide, providing useful insights into the realistic designs and constructions. This volume…mehr
This volume comprises select papers presented during the Indian Geotechnical Conference 2018. This volume discusses construction challenges and issues in geotechnical engineering. The contents cover foundation design and analysis, issues related to geotechnical structures, including dams, retaining walls, embankments and pavements, and rock mechanics and construction in rocks and rocky environments. Many of the papers discuss live case studies related to important geotechnical engineering projects worldwide, providing useful insights into the realistic designs and constructions. This volume will be of interest to students, researchers and practitioners alike.
Dr. G. Madhavi Latha is a Professor in the Department of Civil Engineering, Indian Institute of Science (IISc) Bangalore, India. She completed her Ph.D. from Indian Institute of Technology Madras, and has previously worked as a post-doctoral fellow and assistant professor at IISc and IIT Guwahati respectively. Professor Latha is a member of various professional bodies including IGS, ISSMGE and ISRM, and is the Editor-in-Chief of the Indian Geotechnical Journal, and an Editorial board member in many reputed journals. Her research work focuses on fundamental aspects of soil and ground reinforcement, and she has authored 70 journal articles, 4 book chapters and has developed a web-course on Geotechnical Earthquake Engineering on the NPTEL platform, sponsored by the Ministry of Human Resources Development, Government of India. Dr. P Raghuveer Rao is Principal Research Scientist at Department of Civil Engineering and involved in teaching, research and consultancy in the broad area of geotechnical engineering. He has been working with the department since 1989 and has been teaching courses related to subsurface exploration and soil testing, Earth retaining structures, behavior and testing of unsaturated soils, and fundamental of soil behavior for Masters and Doctoral students. His research interests are geotechnical instrumentation, slope stability analysis, numerical modelling, mechanics of unsaturated soils, contaminant transport through soil and reinforced earth structures. He has conducted several field and laboratory tests for design of foundations of different structures like buildings, turbo-generator and water tanks. He has analyzed stability of several embankments, tailing dams and stability of large size surge shafts for a hydropower project through numerical modelling and trial wedge method. He has 21 publications in journals and conference proceedings.
Inhaltsangabe
Increasing the yield of ring wells by user friendly method.- Study on the effect of soil as a filler in foamed concrete.- Effect of variation of in-situ moisture content on pullout capacity of grouted soil nail.- Behaviour of instrumented piles under different loading and soil conditions.- Effect of piles on the design of the raft foundation.- Importance of Near Surface Shear Wave Velocity (Vs) in Foundation Studies.- Interaction effect on laterally loaded piles in cohesionless deposit.- Uplift capacity of single belled anchor in cohesionless foundation media.
Increasing the yield of ring wells by user friendly method.- Study on the effect of soil as a filler in foamed concrete.- Effect of variation of in-situ moisture content on pullout capacity of grouted soil nail.- Behaviour of instrumented piles under different loading and soil conditions.- Effect of piles on the design of the raft foundation.- Importance of Near Surface Shear Wave Velocity (Vs) in Foundation Studies.- Interaction effect on laterally loaded piles in cohesionless deposit.- Uplift capacity of single belled anchor in cohesionless foundation media.
Increasing the yield of ring wells by user friendly method.- Study on the effect of soil as a filler in foamed concrete.- Effect of variation of in-situ moisture content on pullout capacity of grouted soil nail.- Behaviour of instrumented piles under different loading and soil conditions.- Effect of piles on the design of the raft foundation.- Importance of Near Surface Shear Wave Velocity (Vs) in Foundation Studies.- Interaction effect on laterally loaded piles in cohesionless deposit.- Uplift capacity of single belled anchor in cohesionless foundation media.
Increasing the yield of ring wells by user friendly method.- Study on the effect of soil as a filler in foamed concrete.- Effect of variation of in-situ moisture content on pullout capacity of grouted soil nail.- Behaviour of instrumented piles under different loading and soil conditions.- Effect of piles on the design of the raft foundation.- Importance of Near Surface Shear Wave Velocity (Vs) in Foundation Studies.- Interaction effect on laterally loaded piles in cohesionless deposit.- Uplift capacity of single belled anchor in cohesionless foundation media.
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