VTU Civil Engineering 5th Sem Syllabus

Download VTU B.E Civil Engineering Syllabus 2010 – Soft Copy

V SEMESTER

MANAGEMENT & ENTREPRENEURSHIP
Subject Code : 10AL51

IA Marks : 25
No. of Lecture Hours/Week : 04 Exam Hours : 03
Total No. of Lecture Hours : 52 Exam Marks : 100

PART – A

MANAGEMENT

UNIT – 1
MANAGEMENT: Introduction – Meaning – nature and characteristics of Management, Scope and functional areas of management – Management as a science, art or profession – Management & Administration – Roles of Management, Levels of Management, Development of Management Thought – early management approaches – Modern management approaches.
7 Hours

UNIT – 2
PLANNING: Nature, importance and purpose of planning process – objectives – Types of plans (Meaning only) – Decision making – Importance of planning – steps in planning & planning premises – Hierarchy of plans.
6 Hours

UNIT – 3
ORGANIZING AND STAFFING: Nature and purpose of organization – principles of organization – Types of organization – Departmentation – Committees – Centralisation Vs Decentralisation of authority and responsibility – Span of control – MBO and MBE (Meaning only) Nature and importance of Staffing – Process of Selection & Recruitment (in brief).
6 Hours

UNIT – 4
DIRECTING & CONTROLLING: Meaning and nature of directing – Leadership styles, Motivation Theories, Communication – Meaning and importance – Coordination, meaning and importance and Techniques of Coordination. Meaning and steps in controlling – Essentials of a sound control system – Methods of establishing control (in brief).
7 Hours

PART – B

ENTREPRENEURSHIP

UNIT – 5
ENTREPRENEUR: Meaning of Entrepreneur, Evolution of Concept, Functions of Entrepreneur, Types of Entrepreneur, Entrepreneur – An emerging class. Concept of Entrepreneurship – Evolution of Entrepreneurship, Development of Entrepreneurship, Stages in entrepreneurial process, Role of Entrepreneurs in Economic Development; Entrepreneurship in India; Entrepreneurship – its Barriers.
7 Hours

UNIT – 6
SMALL SCALE INDUSTRY: Definition; Characteristics; Need and rationale: Objectives, Scope, role of SSI in Economic Development. Advantages of SSI. Steps to start an SSI – Government policy towards SSI, Different Policies of SSI., Government Support on SSI., during 5 year plans. Impact of Liberalization, Privatisation, Globalization on SSI. Effect of WTO / GATT Supporting Agencies of Government for SSI Meaning. Nature of support; Objectives; Functions; Types of Help; Ancillary Industry and Tiny Industry (Definition only).
7 Hours

UNIT – 7
INSTITUTIONAL SUPPORT: Different Schemes, TECKSOK, KIADB; KSSIDC; KSIMC; DIC Single Window Agency; SISI, NSIC, SIDBI, KSFC.
6 Hours

UNIT – 8
PREPARATION OF PROJECT: Meaning of Project, Project Identification, Project Selection, Project Report, Need and significance of Project, Contents, formulation, Guidelines by Planning Commission for Project Report, Network Analysis, Errors of Project Report, Project Appraisal. Identification of Business Opportunities. Market Feasibility Study:
Technical Feasibility Study, Financial Feasibility Study & Social Feasibility Study.
6 Hours

TEXT BOOKS:

  • 1. Principles of Management – P.C. Tripathi, P.N. Reddy, Tata McGraw Hill.
  • 2. Dynamics of Entrepreneurial Development & Management – Vasant Desai – Himalaya Publishing House
  • 3. Entrepreneurship Development – Small Business Enterprises – Poornima M. Charantimath – Pearson Education – 2006.

REFERENCE BOOKS:

  • 1. Management Fundamentals – Concepts, Application, Skill Development – Robert Lusier – Thomson.
  • 2. Entrepreneurship Development – SS Khanka – S Chand & Co.
  • 3. Management – Stephen Robbins – Pearson Education / PHI – 17th Edition, 2003.
  • 4. Management & Entrepreneurship by N V R Naidu & T Krishna Rao – I K International Publishing House Pvt. Ltd. 1st edition

DESIGN OF RCC STRUCTURAL ELEMENTS
Subject Code : 10CV52

IA Marks : 25
No. of Lecture Hours/Week : 04 Exam Hours : 03
Total No. of Lecture Hours : 52 Exam Marks : 100

PART – A

UNIT – 1
GENERAL FEATURES OF REINFORCED CONCRETE: Introduction, Design Loads, Materials for Reinforced Concrete and Code requirements. Design Philosophy – Limit State Design principles. Philosophy of limit state design, Principles of limit states, Factor of Safety, Characteristic and design loads, Characteristic and design strength.
6 Hours

UNIT – 2
PRINCIPLES OF LIMIT STATE DESIGN AND ULTIMATE STRENGTH OF R.C. SECTION: General aspects of Ultimate strength, Stress block parameters for limit state of collapse, Ultimate flexural strength of singly reinforced rectangular sections, Ultimate flexural strength of doubly reinforced rectangular sections, Ultimate flexural strength of flanged
sections, Ultimate shear strength of RC sections, Ultimate torsional strength of RC sections, Concepts of development length and anchorage, Analysis examples of singly reinforced, doubly reinforced, flanged sections, shear strength and development length.
7 Hours

UNIT – 3
FLEXURE AND SERVICEABILITY LIMIT STATES: General Specification for flexure design of beams-practical requirements, size of beam, cover to reinforcement-spacing of bars. General aspects of serviceability-Deflection limits in IS: 456 – 2000-Calculation of deflection (Theoretical method), Cracking in structural concrete members, Calculation
of deflections and crack width.
6 Hours

UNIT – 4
DESIGN OF BEAMS: Design procedures for critical sections for moment and shears. Anchorages of bars, check for development length, Reinforcement requirements, Slenderness limits for beams to ensure lateral stability, Design examples for Simply supported and Cantilever beams for rectangular and flanged sections.
8 Hours

PART – B

UNIT – 5
DESIGN OF SLABS: General consideration of design of slabs, Rectangular slabs spanning one direction, Rectangular slabs spanning in two directions for various boundary conditions. Design of simply supported, cantilever and continuous slabs as per IS: 456 – 2000.
8 Hours

UNIT – 6
DESIGN OF COLUMNS: General aspects, effective length of column, loads on columns, slenderness ratio for columns, minimum eccentricity, design of short axially loaded columns, design of column subject to combined axial load and uniaxial moment and biaxial moment using SP – 16 charts.
5 Hours

UNIT – 7
DESIGN OF FOOTINGS: Introduction, load for footing, Design basis for limit state method, Design of isolated rectangular footing for axial load and uniaxial moment, design of pedestal.
6 Hours

UNIT – 8
DESIGN OF STAIR CASES: General features, types of stair case, loads on stair cases, effective span as per IS code provisions, distribution of loading on stairs, Design of stair cases. With waistslabs.
6 Hours

REFERENCE BOOKS:

  • 1. Limit State Design of Reinforced concrete-by P.C. Varghese, PHI Learning Private Limited 2008-2009
  • 2. Fundamentals of Reinforced concrete Design-by M.L.Gambhir, PHI Learning Private Limited 2008-2009.
  • 3. Reinforced concrete Design-by Pallai and Menon, TMH Education Private Limited,
  • 4. Reinforced concrete Design-by S.N.Shinha, TMH Education Private Limited,
  • 5. Reinforced concrete Design-by Karve & Shaha, Structures Publishers Pune.
  • 6. Design of RCC Structural Elements S. S. Bhavikatti, Vol-I, New Age International Publications, New Delhi.
  • 7. IS-456-2000 and SP-16

STRUCTURAL ANALYSIS – II
Subject Code : 10CV53

IA Marks : 25
No. of Lecture Hours/Week : 04 Exam Hours : 03
Total No. of Lecture Hours : 52 Exam Marks : 100

PART – A

UNIT – 1
ROLLING LOAD AND INFLUENCE LINES: Rolling load analysis for simply supported beams for several point loads and UDL. Influence line diagram for reaction, SF and BM at a given section for the cases mentioned in above uinit 1
6 Hours

UNIT – 2
SLOPE DEFLECTION METHOD: Introduction, Sign convention, Development of slope-deflection equations and Analysis of Beams and Orthogonal Rigid jointed plane frames (non-sway) with kinematic redundancy less than/equal to three. (Members to be axially rigid)
8 Hours

UNIT – 3
MOMENT DISTRIBUTION METHOD: Introduction, Definition of terms- Distribution factor, Carry over factor, Development of method and Analysis of beams and orthogonal rigid jointed plane frames (nonsway) with kinematic redundancy less than/equal to three. (Members to be axially rigid)
8 Hours

UNIT – 4
SWAY ANALYSIS: Analysis of rigid jointed plane frames (sway, members assumed to be axially rigid and kinematic redundancy <= 3) by slope deflection and moment distribution methods.
4 Hours

PART – B

UNIT – 5
KANIS METHODS: Introduction, Basic Concept, Analysis of Continuous beams and Analysis of rigid jointed non-sway plane frames.
6 Hours

UNIT – 6
FLEXIBILITY MATRIX METHOD OF ANALYSIS: Introduction, Development of flexibility matrix for plane truss element and axially rigid plane framed structural elements and Analysis of plane truss and axially rigid plane frames by flexibility method with static indeterminacy <=3. 7 Hours

UNIT – 7
STIFFNESS MATRIX METHOD OF ANALYSIS: Introduction, Development of stiffness matrix for plane truss element and axially rigid plane framed structural elements. And Analysis of plane truss and axially rigid plane frames by stiffness method with kinematic indeterminacy <=3.
7 Hours

UNIT – 8
BASIC PRINCIPLES OF DYNAMICS: Basic principles of Vibrations and causes, periodic and aperiodic motion, harmonic and non-harmonic motion. Period and frequency.
Forced and Free Vibration, Damping and Equations of Single Degree of Freedom System with and without damping
6 Hours

REFERENCE BOOKS:

  • 1. Basic Structural Analysis- Reddy C.S. – Second Edition, Tata McGraw Hill Publication Company Ltd.
  • 2. Theory of Structures Vol. 2 – S.P. Gupta, G.S. Pandit and R. Gupta, Tata McGraw Hill Publication Company Ltd.
  • 3. Structural Dynamics-by M.Mukhopadhyay,
  • 4. Structural Analysis-II -S. S. Bhavikatti – Vikas Publishers, New Delhi.
  • 5. Basics of Structural Dynamics and Aseismic Design By Damodhar Swamy and Kavita PHI Learning Private Limited
  • 6. Structural Analysis- D.S. Prakash Rao,, A Unified Approach, University Press
  • 7. Structural Analysis, 4th SI Edition by Amit Prasanth & Aslam Kassimali, Thomson Learning.

GEOTECHNICAL ENGINEERING – I
Subject Code : 10CV54

IA Marks : 25
No. of Lecture Hours/Week : 04 Exam Hours : 03
Total No. of Lecture Hours : 52 Exam Marks : 100

PART – A

UNIT- 1
INTRODUCTION: History of soil mechanics, Definition, origin and formation of soil. Phase Diagram, Voids ratio, Porosity, Percentage Air Voids, Air content, Degree of saturation, Water content, Specific Gravity of soil solids and soil mass, Densities and Unit weights – Bulk, Dry, Saturated & Submerged and their inter relationships.
6 Hours

UNIT – 2
INDEX PROPERTIES OF SOIL AND THEIR DETERMINATION: Index Properties of soil- Water content , Specific Gravity, Particle size distribution, Relative Density, Consistency limits and indices, in-situ density, Activity of Clay, Laboratory methods of determination of index properties of soil: Water content (Oven Drying method & Rapid Moisture method), Specific gravity of soil solids (Pycnometer and density bottle method), Particle size distribution (Sieve analysis and Hydrometer analysis only), Liquid Limit- (Casagrande and Cone penetration methods), Plastic limit and shrinkage limit.
7 Hours

UNIT – 3
CLASSIFICATION OF SOILS: Purpose of soil classification, Particle size classification – MIT classification and IS classification, Textural classification. IS classification – Plasticity chart and its importance, Field identification of soils. CLAY MINERALOGY AND SOIL STUCTURE: Single grained, honey combed, flocculent and dispersed structures, Valence bonds, Soil-Water system, Electrical diffuse double layer, adsorbed water, base-exchange capacity, Isomorphous substitution. Common clay minerals in soil and their structures- Kaolinite, Illite and Montmorillonite.
8 Hours

UNIT – 4
FLOW OF WATER THROUGH SOILS: Darcy’s law- assumption and validity, coefficient of permeability and its determination (laboratory and field), factors affecting permeability, permeability of stratified soils, Seepage velocity, Superficial velocity and coefficient of percolation, quick sand phenomena, Capillary Phenomena.
6 Hours

PART – B

UNIT – 5
SHEAR STRENGTH OF SOIL: Concept of shear strength, Mohr-coulomb theory, conventional and modified failure envelops, Effective stress concepttotal stress, effective stress and Neutral stress, Concept of pore pressure, Total and effective shear strength parameters, factors affecting shear strength of soils, Sensitivity and Thixotropy of clay.
7 Hours

UNIT – 6
COMPACTION OF SOIL: Definition, Principle of compaction, Standard and Modified proctor’s compaction tests, factors affecting compaction, effect of compaction on soil properties, Field compaction control – compactive effort & method, lift thickness and number of passes, Proctor’s needle, Compacting equipment.
6 Hours

UNIT – 7
CONSOLIDATION OF SOIL: Definition, Mass-spring analogy, Terzaghi’s one dimensional consolidation theory-assumption and limitations (no derivation), Normally consolidated, under consolidated and over consolidated soils, pre-consolidation pressure and its determination by Casagrande’s method. Consolidation characteristics of soil (Cc, av, mv and Cv).

UNIT- 8
DETERMINATION OF SHEAR STRENGTH AND CONSOLIDATION OF SOIL: Measurement of shear parameters- Direct shear test, unconfined compression test, Triaxial compression test and vane shear test, Test under different drainage conditions. Laboratory one dimensional consolidation test, Determination of consolidation characteristics of soils-compression index and coefficient of consolidation (square root of time fitting method, logarithmic time fitting method).
6 Hours

TEXT BOOKS:

  • 1. Soil Mechanics and Foundation Engg.- Punmia B.C. (2005), 16th Edition Laxmi Publications Co. , New Delhi.
  • 2. Principles of Soil Mechanics and Foundation Engineering- Murthy V.N.S. (1996), 4th Edition, UBS Publishers and Distributors, New Delhi.
  • 3. Geotechnical Engineering; Braja, M. Das (2002), Fifth Edition, Thomson Business Information India (P) Ltd., India

REFERENCES BOOKS:

  • 1. Foundation Analysis and Design- Bowles J.E. (1996), 5th Edition, McGraw Hill Pub. Co. New York.
  • 2. Soil Engineering in Theory and Practice- Alam Singh and Chowdhary G.R. (1994), CBS Publishers and Distributors Ltd., New Delhi.
  • 3. Basic and Applied Soil Mechanics- Gopal Ranjan and Rao A.S.R. (2000), New Age International (P) Ltd., Newe Delhi.
  • 4. Geotechnical Engineering- Donold P Coduto Phi Learning Private Limited, New Delhi
  • 5. Geotechnical Engineering- Shashi K. Gulathi & Manoj Datta. (2009), “ Tata Mc Graw Hill.
  • 6. Text Book of Geotechnical Engineering- Iqbal H. Khan (2005), 2nd Edition, PHI, India.
  • 7. Numerical Problems, Examples and objective questions in Geotechnical Engineering- Narasimha Rao A. V. & Venkatrahmaiah C. (2000), Universities Press., Hyderabad.

Hydrology and Irrigation Engineering
Sub Code : 10CV55

IA Marks : 25
Hrs/ Week : 04 Exam Hours : 03
Total Hrs. : 52 Exam Marks : 100

PART-A

HYDROLOGY
UNIT 1: INTRODUCTION & PRECIPITATION
Introduction ,Hydrologic cycle (Horton’s representation). Water budget equation Precipitation: introduction, forms of precipitation, types of precipitation, measurement of precipitation (Simon’s gauge & Syphon gauge only), selection of rain gauge station. Adequacy of raingauges, methods of computing average rainfall, interpolation of missing data, adjustment of missing data by double mass curve method. Hyetograph and mass curve of rainfall, 07 hrs

UNIT 2 : LOSSES FROM PRECIPITATION
Evaporation: Definition, factors affecting, measurement (Class A pan). Estimation using empirical methods (Meyer’s and Rohwer’s equation), evaporation control. Evapo-transpiration: Definition, factors affecting, measurement, estimation ( Blaney criddle method) Infiltration: Definition, factors affecting, measurement ( double ring infiltrometer ), infiltration indices, Horton’s equation of infiltration. 07 hrs

UNIT 3: HYDROGRAPHS
Definition, components of hydrographs, unit hydrograph and its derivation from simple storm hydrograph, base flow separation, Prepositions of unit hydrograph- problems 06 hrs

UNIT 4: ESTIMATION OF FLOOD & FLOOD ROUTING Definition of flood, factors affecting flood, methods of estimation ( envelope curves, empirical formulae, rational
method ). Flood routing: Introduction to hydrological routing, relationship of out flow and storage, general storage equation, Muskingum routing method. 07 hrs

PART-B

IRRIGATION ENGINEERING
UNIT 5 : INTRODUCTION
Introduction, need for irrigation, advantages and disadvantages of irrigation, environmental impacts of irrigation, Systems of irrigation: Gravity irrigation, lift irrigation, well irrigation, tube well irrigation, infiltration galleries, sewage irrigation, supplemental irrigation.
06 hrs

UNIT 6: SOIL-WATER-CROP RELATIONSHIP
Introduction, soil profile, physical properties of soil, soil classification. Indian soils, functions of irrigation soils, maintaining soil fertility, soil-water-plant relationship, soilmoisture.
Irrigation relationship, frequency of irrigation. 06 hrs

UNIT 7: WATER REQUIREMENT OF CROPS
Introduction, definitions, crop seasons of India, water requirement of a crop, duty, delta, base period. Consumptive use. Irrigation efficiencies. Assessment of irrigation water. 07 hrs

Unit 8: Canals
Definition, Types of canals, Alignment of canals, Design of canals by Kenedy’s and Lacey’s methods- Problems 06 hrs

TEXT BOOKS:

  • 1. Engineering Hydrology – Subramanya.K; Tata Mcgraw Hill NewDelhi-2008 (Ed)
  • 2. Hydrology- Madan Mohan Das, Mim Mohan Das-PHI Learning private Ltd. New Delhi-2009 (Ed)
  • 3. A Text Book Of Hydrology- Jayarami Reddy, Laksmi Publications, New Delhi-2007 (Ed)
  • 4. Irrigation, water Resources and water power Engineering- P.N.Modi- standard book house, New Delhi.
  • 5. Irrigation and Water Power Engineering-Madan Mohan Das & Mimi Das Saikia; PHILearning pvy. Ltd. New Delhi 2009 (Ed).

REFERENCE BOOKS:

  • 1. Hydrology & Soil Conservation Engineering- Ghanshyam Das- PHI Learning Private Ltd., New Delhi- 2009 (Ed)
  • 2. Hydrology & Water Resources Engineering- Patra K.C. Narosa Book Distributors Pvt. Ltd. New Delhi-2008 (Ed)
  • 3. Hydrology & Water Resources Engineering- R.K.Sharma & Sharma, Oxford and Ibh, New Delhi
  • 4. Irrigation Engineering and Hydraulic structures- S. K. garg- Khanna Publication, New Delhi.

TRANSPORTATION ENGINEERING I
Subject Code :10CV56

I A Marks :25
No. of lecture Hours/week :04
Exam Hours :03
Total No. of Lecture Hours :52
Exam Marks :100

PART – A

UNIT – 1
PRINCIPLES OF TRANSPORTATION ENGINEERING: Importance of transportation, Different modes of transportation and comparison, Characteristics of road transport Jayakar
committee recommendations, and implementation – Central Road Fund, Indian Roads Congress, Central Road Research Institute
04 Hrs

UNIT – 2
HIGHWAY DEVELOPMENT AND PLANNING: Road types and classification, road patterns, planning surveys, master plan – saturation system of road planning, phasing road
development in India, problems on best alignment among alternate proposals Salient Features of 3rd and 4th twenty year road development plans and Policies, Present scenario of road development in India (NHDP & PMGSY) and in Karnataka (KSHIP & KRDCL) Road development plan – vision 2021.
06 Hrs

UNIT – 3
HIGHWAY ALIGNMENT AND SURVEYS: Ideal Alignment, Factors affecting the alignment, Engineering surveys-Map study, Reconnaissance, Preliminary and Final location & detailed survey, Reports and drawings for new and re-aligned projects 04 Hrs
HIGHWAY GEOMETRIC DESIGN – I: Importance, Terrain classification, Design speed, Factors affecting geometric design, Cross sectional elements-Camber- width of pavement- Shoulders-, Width of formation- Right of way, Typical cross sections 05 Hrs

UNIT – 4
HIGHWAY GEOMETRIC DESIGN – II: Sight Distance- Restrictions to sight distance- Stopping sight distance- Overtaking sight distance- overtaking zones- Examples on SSD
and OSD- Sight distance at intersections, Horizontal alignment-Radius of Curve- Superelevation – Extra widening- Transition curve and its length, setback distance – Examples,
Vertical alignment-Gradient-summit and valley curves with examples. 07 Hrs

PART – B

UNIT – 5
PAVEMENT MATERIALS: Subgrade soil – desirable properties-HRB soil classification-determination of CBR and modulus of subgrade reaction-Examples on CBR and Modulus
of subgrade reaction, Aggregates- Desirable properties and list of tests, Bituminous materials-Explanation on Tar, bitumen,cutback and emulsion-List of tests on bituminous
materials 06 Hrs

UNIT – 6
PAVEMENT DESIGN: Pavement types, component parts of flexible and rigid pavements and their functions,design factors, ESWL and its determination-Examples, Flexible pavement- Design of flexible pavements as per IRC;37-2001-Examples, Rigid pavement- Westergaard’s equations for load and temperature stresses- Examples- Design of slab thickness only as per IRC:58-2002
06 Hrs

UNIT – 7
PAVEMENT CONSTRUCTION: Earthwork –cutting-Filling, Preparation of subgrade, Specification and construction of i) Granular Subbase, ii) WBM Base, iii) WMM base, iv)
Bituminous Macadam, v) Dense Bituminous Macadam vi) Bituminous Concrete, vii) Dry Lean Concrete sub base and PQC viii) concrete roads 05 Hrs
HIGHWAY DRAINAGE: Significance and requirements, Surface drainage system and design-Examples, sub surface drainage system, design of filter materials
03 Hrs

UNIT – 8
HIGHWAY ECONOMICS: Highway user benefits, VOC using charts only-Examples, Economic analysis – annual cost method-Benefit Cost Ratio method-NPV-IRR methods-
Examples, Highway financing-BOT-BOOT concepts 06 Hrs

TEXT BOOKS:

  • 1. Highway Engineering – S K Khanna and C E G Justo, Nem Chand Bros, Roorkee
  • 2. Highway Engineering – L R Kadiyali, Khanna Publishers, New Delhi
  • 3. Transportation Engineering – K P Subramanium, Scitech Publications, Chennai
  • 4. Transportation Engineering – James H Banks, Mc Graw. Hill Pub. New Delhi
  • 5. Highway Engineeering –R. Sreenivasa Kumar, University Press. Pvt.Ltd. Hyderabad

REFERENCE BOOKS:

  • 1. Relevant IRC Codes
  • 2. Specifications for Roads and Bridges-MoRT&H, IRC, New Delhi.
  • 3. Transportation Engineering – C. Jotin Khisty, B. Kent lal, PHI Learning Pvt. Ltd. New Delhi.

HYDRAULICS AND HYDRAULICS MACHINERY LABORATORY
Sub Code : 10CV 57

IA Marks : 25
Hrs/ Week : 03 Exam Hours : 03
Total Hrs. : 42 Exam Marks : 100

  • 1. Calibration of collecting tank ( gravimetric method )
  • 2. Calibration of pressure gauge ( dead weight method )
  • 3. Verification of Bernoulli’s equation
  • 4. Calibration of 900 V-notch
  • 5. Calibration of Rectangular and Cipolletti notch
  • 6. Calibration of Broad- crested weir
  • 7. Calibration of Venturiflume
  • 8. Calibration of Venturimeter
  • 9. Determination of Darcy’s friction factor for a straight pipe
  • 10. Determination of Hydraulic coefficients of a vertical orifice
  • 11. Determination of vane coefficients for a flat vane & semicircular vane
  • 12. Performance characteristics of a single stage centrifugal pump
  • 13. Performance characteristics of a Pelton wheel
  • 14. Performance characteristics of a Kaplan turbine

Reference:
Experiments in Fluid Mechanics – Sarbjit Singh- PHI Pvt. Ltd.- NewDelhi- 2009-12-30
Hydraulics and Hydraulic Mechines Laboratory Manual – Dr. N. Balasubramanya

COMPUTER AIDED DESIGN LABORATORY
Subject Code : 10CVL58

IA Marks : 25
No. of Practical Hours/Week : 03 Exam Hours : 03
Total No. of Practical Hours : 42 Exam Marks : 50

1. AUTOCAD
1.1 Basics of AUTOCAD:

DRAWING TOOLS: Lines, Circle, Arc, Polyline, Multiline, Polygon, Rectangle, Spline, Ellipse, Modify tools: Erase, Copy, Mirror, Offset, Array, Move, Rotate, Scale, Stretch, Lengthen, Trim, Extend, Break, Chamfer and Fillet, Using Text: Single line text, Multiline text, Spelling, Edit text, Special Features: View tools, Layers concept, Dimension tools, Hatching, Customising toolbars, Working with multiple drawings
3 Hours

1.2 Use of AUTOCAD in Civil Engineering Drawings:
Following drawings are to be prepared for the data given using AUTOCAD
i) Cross section of Foundation – masonry wall, RCC columns (isolated)
ii) Different types of staircases
iii) Lintel and chajja
iv) RCC slabs and beams
v) Drawing of Plan, elevation and sectional elevation of single storied residential and public buildings given the single line diagram and preparing excavation plan.
18 Hours

2. STRUCTURAL ANALYSIS SOFTWARE
Use of commercially available software for the analysis of
i) Plane Trusses
ii) Continuous beams
iii) 2D Portal frames-single storied and multistoried
9 Hours

3. USE OF EXCEL IN CIVIL ENGINEERING PROBLEMS
Use of spread sheet for the following civil engineering problems
i) SFD and BMD for Cantilever and simply supported beam subjected to uniformly distributed and uniformly varying load acting throughout the span
ii) Design of singly reinforced and doubly reinforced rectangular beams
iii) Computation of earthwork
iv) Design of horizontal curve by offset method
v) Design of super elevation
12 Hours

REFERENCE BOOKS:

  • 1. Computer Aided Design Laborator- Dr M.N.Shesha Prakash, Dr.G.S.Suresh, Lakshmi Publications
  • 2. CAD Laboratory- M.A.Jayaram, D.S.Rajendra Prasad- Sapna Publications
  • 3. AUTOCAD 2002- Roberts JT, -BPB publications
  • 4. AUTOCAD 2004- Sham Tickoo, A beginner’s Guide, Wiley Dreamtech India Pvt Ltd.,
  • 5. Learning Excel 2002- Ramesh Bangia, -Khanna Book Publishing Co (P) Ltd.,
  • 6. Microsoft Excel- Mathieson SA, Starfire publishers

 

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