Geosynthetics Engineering : In Theory and Practice

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Overview Contents: Background of reinforced earth, mechanism and concepts, Basis of reinforced earth wall design - Geosynthetics classifications, functions, applications, raw materials used. Different types of Geosynthetics, manufacturing, system, Design and sustainability

Concrete Technology

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Overview The course on Concrete Technology focuses on concrete making materials including supplementary cementitious materials. Concrete production process also forms a part of the discussion.

Seismic Analysis of Structures

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Overview Seismology- tectonic plates, causes of earthquake, soil effects, seismic hazard analysis;Earthquake inputs - spectrums, PSDFs, design spectrum, predictive relationship; Response analysis for specified ground motion - time and frequency domain analyses of structures for single and multi point excitations;

Water and Waste Water Engineering

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Overview Water and Wastewater Quantity Estimation - Population forecast; Water demand for various purposes; Estimation of wastewater quantity; Variation in quantity of water and wastewater - Water Supply/Distribution Systems - Wastewater Collection Systems - Water/Wastewater Quality Enhancement - Philosophy of treatment; Unit operations and processes;

Ground Improvement Techniques

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Overview Introduction:Need for Ground Improvement, Different types of problematic soils, Emerging trends in ground Improvement - Mechanical stabilization:Shallow and deep compaction requirements, Principles and methods of soil compaction, Shallow compaction and methods - Properties of compacted soil and compaction control, Deep compaction and Vibratory methods Dynamic compaction

Concrete Engineering and Technology

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Overview Introduction and course overview - Constituents of concrete - Admixtures in concrete - mineral and chemical - Hydration of cement - Basic properties of concrete - Proportioning of concrete mixes - Pores and porosity in concrete - Porosimetry

Geotechnical Earthquake Engineering

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Overview Introduction to Geotechnical Earthquake Engineering:Scope and objective; Nature and types of earthquake loading; Importance of Geotechnical Earthquake Engineering;Basics of Vibration theory:Concept of dynamic load, Earthquake load, Single degree of freedom system, Multiple degree of freedom system, Free and forced vibrations, Damped and undamped systems, Equation of Motion, Response spectra;Engineering Seismology

Ground Water Hydrology

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Overview INTRODUCTION: Ground water utilization & historical background, ground water in hydrologic cycle, ground water budget, ground water level fluctuations & environmental influence, literature/ data/ internet resources;OCCURRENCE AND MOVEMENT OF GROUND WATER:

Modern Construction Materials

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Overview Basics:Prologue Introduction to the course - Science, Engineering and Technology of Materials;Microstructure:Atomic Bonding - Structure of Solids - Movement of Atoms - Development of Microstructure;Material Behaviour:Surface Properties