DEPARTMENT OF CIVIL ENGINEERING INDIAN INSTITUTE OF . - IIT Roorkee
AppendixDEPARTMENT OF CIVIL ENGINEERINGINDIAN INSTITUTE OF TECHNOLOGY EPREM. Tech. (Structural Engineering)Civil EngineeringPractical20CEITheoryProgram Code:Department:Year:Semester- I (Autumn)PCC43-23-15252040-Course TitleCreditsSubjectCodeSubjectAreaS. No.Teaching SchemeRelative Weight (%)1.CEN-541Matrix Structural Analysis2.CEN-542Continuum MechanicsPCC431-3-25-2550-3.CEN-543Advanced Concrete DesignPCC43-23-15252040-4.CEN-544Structural DynamicsPCC431-3-25-2550-Programme Elective-1PEC4----------Semester-II (Spring)PCC43-23-15252040-5.Total201.CEN-545Finite Element e Elective-IIPEC4----------4.Programme Elective-IIIPEC4----------5.Programme Elective-IVPEC4----------Total18
DEPARTMENT OF CIVIL ENGINEERINGINDIAN INSTITUTE OF TECHNOLOGY ECourse TitleCreditsSubjectCodeSubjectAreaS. No.Teaching SchemeCWSM. Tech. (Structural Engineering)Civil EngineeringPractical20CEIITheoryProgram Code:Department:Year:--------100------100-Relative Weight (%)Semester- I (Autumn)1.CEN701ADissertation Stage–I(to be continued next semester)DISTotal1212Note: Students can take 1 or 2 audit courses as advised by the supervisor, if required.Semester-II (Spring)1.CEN701BDissertation Stage–II(contd. From III r-wise Total Credits20181218Total Credits68
Program Elective Courses (Structural Engineering)CWSPRSMTEETEPREPLPracticalTRelative Weight jectAreaS. No.Teaching SchemeCEN-521Advanced Numerical Analysis -PEC43-23-15252040-SubjectCodeCourse Title3.CEN-642Behaviour & Design of Steel Structures(Autumn)Analysis and Design of Bridges4.CEN-643Analysis and Design of High rise BuildingsPEC43-23-15252040-5.CEN-644Analysis and Design of Plates and ShellsPEC43-23-15252040-6.CEN-645Mechanics of CompositesPEC431-3-25-2550-CEN-646Engineering Design Optimization andReliabilityCondition Assessment and Retrofitting ofStructuresConcrete ture Mechanics in Quasi-BrittleMaterialsDesign of Bridge Sub-structure12.CEN-651Wind 52040-PEC43-23-15252040-
INDIAN INSTITUTE OF TECHNOLOGY ROORKEENAME OF DEPTT/CENTRE:Department of Civil Engineering1. Subject Code : CEN-5412. Contact Hours :Course Title : Matrix Structural AnalysisL: 3T:03. Examination Duration (Hrs) :4. Relative Weight : CWS : 155. Credits : 04P: 2Theory : 3Practical : 0PRS: 25 MTE: 20ETE: 406. Semester: AutumnPRE: 07. Subject Area : PCC8. Pre-requisite: Nil9. Objective: To equip students with different methods of linear and non-linear analysis using matrixapproach and expose them to write small utility programs and use of commercial packages forcomputer aided analysis of common 2D and 3D structures10. Details of Course:S.No.1234567ContentsBasic methods of analysis, different indeterminacies, stiffness and flexibilityapproachFlexibility method using member approachStiffness matrix for prismatic, non-prismatic and curved members, sheardeformationsLinear analysis of different 2D and 3D structuresTechniques for enhancing computing power: solution algorithm, substructuringNon linear analysis: types and different techniques, convergence criteriaDevelopment of codes and introduction to different software packagesTotalContactHours040608080408044211. Suggested Books:S.No.123Name of Authors/Books/PublisherYear ofPublication/ReprintWilliam Weaver Jr & James M Gere, “Matrix Analysis of Framed Structures”,2nd Ed., CBS Publishers, New DelhiMadhu B Kanchi, “Matrix Methods of Structural Analysis”, 2nd Ed., WileyEastern Ltd.Majeed K I, “Non Linear Structure Analysis”, Butterworth Ltd. London.198619931973
INDIAN INSTITUTE OF TECHNOLOGY ROORKEENAME OF DEPTT/CENTRE:Department of Civil Engineering1. Subject Code : CEN-542Course Title : Continuum Mechanics2. Contact Hours : L: 3T:1P: 03. Examination Duration (Hrs) : Theory : 34. Relative Weight : CWS :255. Credits : 04PRS: 0Practical : 0MTE: 256. Semester: SpringETE: 50PRE: 07. Subject Area : PEC8. Pre-requisite: Nil9. Objective of Course : To impart to students the basic knowledge in theory of vibrations andbehaviour of soils under dynamic loads so that foundations for various types of machinescould be designed.10. Details of Course :S.ContentsNo.1.Vector and Tensors Algebra, Lineariziation and Directional Derivatives,2.3.4.Stress and Equilibrium, Analysis for Stresses, Translational and RotationalEquilibrium, Principal Stresses and Principal Planes in 3D, Stress Invariants,Cauchy and Kirchhoff Stress Tensor, Deviatoric and VolumetricComponents, Work Conjugancy, Octahedral and von-Mises stresses.Kinematics, Linearized Kinematics, Strain Quadric of Cauchy, PrincipalStrains, Invariants, Equations of Compatibility, Finite Deformation, Material(Lagrangian) and Spatial (Eulerian) Descriptions, Deformation Gradient,Polar Decomposition, Volume change, Distortional Component ofDeformation Gradient, Area Change.Equations of Elasticity,Hooke’s Law, Generalized Hooke’s Law,Anisotropic, Orthotropic and Isotropic Elasticity Tensor, Plane Stress andStrain Problems, Airy Stress Functions for Two-Dimensional Problems, AiryStress Function in Polar Coordinates, Isotropic Hyper elasticity, ThreeDimensional Elasticity.Elasto-Plastic Behavior of Material, Elasto-Plastic Formulations, MaterialYield Criteria- von Mises, Tresca, Mohr-coulomb, Ducker-Pager, Isotropicand Kinematic Hardening, Normality Principle, Plastic Flow Rule, PlasticPotential, Elasto-Plastic Stress-Strain Relations, Prandtl-Rauss Equations,Levy-Mises Relations, Hardening Modulus, Generalized Elasto-PlasticStress-Strain RelationsTotal11. Suggested Books:S.No.Name of Authors/Books/Publishers1.Finite element analysis in Geotechnical Engineering theory, By David M Pottsand Lidija Zdravkovic, Thomas Telford2.Mechanics of Materials and Interfaces: The Disturbed State Concept, By CS Desai, CRC Press LLCMechanics of Geomaterial Interfaces, By A.P.S. Selvadurai, M.J. Boulon,Elsevier3.ContactHours42Year ofPublication/Reprint199920001995
INDIAN INSTITUTE OF TECHNOLOGY ROORKEENAME OF DEPTT/CENTRE:Department of Civil Engineering1. Subject Code : CEN-5432. Contact Hours :Course Title : Advanced Concrete DesignL: 3T:0P: 23. Examination Duration (Hrs) :Theory : 34. Relative Weight : CWS : 15PRS: 255. Credits : 04Practical : 0MTE: 20ETE: 406. Semester: AutumnPRE: 07. Subject Area : PCC8. Pre-requisite: Nil9. Objective: To give a consistent and sound theoretical background to the force and stress distributionsin reinforced and pre-stressed concrete. To introduce the concepts of yield line analysis, strut-tiemodels and other state of art analysis techniques and to connect these with the extant design ideologiesin the building codes. To study advanced concepts of creep/rheology & crack widths in reinforced andprestressed concrete and creating numerical models of these. To develop a clear theoreticalunderstanding of the underlying reasons behind codal details as ductile detailing, reinforcementplacement etc.10. Details of Course:S.No.1.2.3.4.5.6.7.8.9.10.ContentsPlastic Section Theory for Reinforced Concrete including interaction of flexureShear-Axial effectsUpper bound and lower bound plastic theoremsApplication of plastic analysis to frames – instantaneous centre of rotationsIntroduction to Pushover AnalysisIntroduction to Strut-Tie ModelsStrut-Tie Models for Deep Beams, Beam-Column Joints& Shear wallsIntroduction to Yield line analysis and application for slabs, raft foundations etc.Introduction to Pre-stressed concrete and behaviour for simple elementsModelling of creep/shrinkage and long term effects for RCC and prestressedconcreteCalculation of crack widths and crack control designsTotalContactHours52432548544211. Suggested Books:S.No.1.2.3.4.5.6.7.Name of Authors/Books/PublishersYear ofPublication/ReprintReinforced Concrete: Mechanics and Design, 6th Ed., McGregor & WhiteReinforced Concrete: A Fundamental Approach, 6th Ed., Edward NawyDesign of Prestressed Concrete, 2nd Ed., Arthur H. NilsonDarwin & Dolan, “Design of Concrete Structures”, 14th Ed., Nilson,Prestressed Concrete: A Fundamental Approach, 5th Ed., Edward NawyJ Schlaich, K Schaefer, and M. Jennewin, “Toward a Consistent Design ofStructural Concrete”, PCI Journal V. 32, No. 2, pp. 72-150.Kennedy & Goodchild, “Practical Yield Line Design”, The Concrete Centre,TCC/03/3.2011200819872009200519872004
INDIAN INSTITUTE OF TECHNOLOGY ROORKEENAME OF DEPTT/CENTRE:Department of Civil Engineering1. Subject Code : CEN-5442. Contact Hours :Course Title : Structural DynamicsL: 3T:13. Examination Duration (Hrs) :4. Relative Weight : CWS : 255. Credits : 04P: 0Theory : 3PRS: 0Practical : 0MTE: 256. Semester: AutumnETE: 50PRE: 07. Subject Area : PCC8. Pre-requisite: Nil9. Objective: To understand the response of structures to earthquakes requires study of structuraldynamics. Therefore, Single Dynamic Degree of Freedom Systems are first introduced, then two andthree DOF system are covered. Finally the earthquake effects on structures are covered.10. Details of Course:S.No.1.2.3.4.5.6.7.6.ContentsOverview of Structural Dynamics, Single Degree of Freedom Systems – Analysisof Free Vibrations – undamped and damped systems, estimation of damping bylogarithmic decrement method.Formulation of equation of motion for generalized SDOF dynamic problems usingvirtual work method.Response of SDOFS systems to Harmonic, Periodic, Impulse LoadsFormulation of equation of motion for two/three DOF systems. Finding modeshapes and frequencies by solving the determinantal equation, and iterativetechniques. Use of sweeping matrices for obtaining higher modes. Proof ofConvergence. Modal superposition and Response Spectrum Methods.Response of single and multiple DOFS systems to Earthquake Loading using TimeStepping Methods based on Forward Cauchy Euler, Backward Cauchy Euler andTrapezoidal Rule. Accuracy, stability and algorithmic dampingin step-by-stepmethods.Earthquake response analysis of Multi-DOF systems subjected to earthquakeground motion. Concept of modal mass and mode participation factors, etc.Newark & Hall’s linear and inelastic response spectra for earthquakesIntroduction to IS code provisions regarding earthquake.TotalContactHours3331266634211. Suggested Books:S.No.1.2.Name of Authors/Books/PublishersRay W. Clough & Penzien, “Dynamics of Structures”, Mc Graw Hill.Anil Chopra, “Dynamics of Structures “, Mc Graw Hill.Year ofPublication/Reprint19932001
INDIAN INSTITUTE OF TECHNOLOGY ROORKEENAME OF DEPTT/CENTRE:Department of Civil Engineering1. Subject Code : CEN-5452. Contact Hours :Course Title : Finite Element AnalysisL: 3T:03. Examination Duration (Hrs) :Theory : 34. Relative Weightage : CWS : 155. Credits : 04P: 2Practical : 0PRS: 25MTE: 206. Semester: SpringETE: 40PRE: 07. Subject Area : PCC8. Pre-requisite: Nil9. Objective: To introduce the concept of domain discretisation and a variational framework of theequations of mechanics. Application of these methodologies to a wide range of engineering problemsand connection with the laws of continua.10. Details of Course:S.No.1.2.3.4.5.6.ContentsBasic Concepts, Discretization; Displacement, Force and Hybrid ModelsInterpolation Functions for General Element Formulations: Compatibility andCompleteness, Polynomial Forms: One Dimensional Elements, Geometric Isotropy,Triangular Elements, Rectangular Elements, Three Dimensional Elements,Isoperimetric Formulations, Axisymmetric Elements; Numerical Integration.Applications in Solid Mechanics: Plane Stress/Strain: FE Formulation: CST, LST;Stiffness Matrix, Load Matrix Formation Rectangular Element IsoparametricFormulation: Plate Elements and Shell Elements, Three Dimensional Elements FEFormulation: Axisymmetric Stress Analysis, Torsion, Interface Elements, InfiniteElementsApplication in Structural Dynamics and Vibrations: Mass (Consistent and Diagonal)and Damping Matrices; Modal Analysis, Time History Analysis, Explicit DirectIntegration/ Implicit Direct Integration and Mixed Methods.Introduction to Nonlinear Problems: Geometric and Material (Elasto-plastic),Solution Methods: Newton Ralphson Method, Modified Newton-Ralphson Method,Arc Method, A Problem of Geometric Nonlinearity.Stationary Principles, Rayleigh Ritz Method and Interpolation; Weighted ResidualMethods and Variational Methods, Numerical Errors and ConvergenceTotalContactHours0208080608064211. Suggested Books:S.No.1.2.3.4.5.Name of Authors/Books/PublishersDavid Hutton, “Fundamentals of Finite Element Analysis”, Tata McGraw HillR. D. Cook, Malkus and Plesha, “Concepts and Applications of FiniteElement Analysis”, 3rd Ed., John Wiley.T. J. R. Hughes, “The Finite Element Method : Linear Static and DynamicAnalysis”, Prentice Hall.Klaus Juergen Bathe, “Finite Element Procedures”, Prentice Hall of India.O. C. Zienkiewicz., R. L. Taylor & J. Z. Zhu., “The Finite Element Method ItsBasis & Fundamentals”, Elsivier Publications.Year ofPublication/Reprint20051989198720032007
INDIAN INSTITUTE OF TECHNOLOGY ROORKEENAME OF DEPTT/CENTRE:Department of Civil Engineering1. Subject Code : CEN-6412. Contact Hours :Course Title : Behaviour and Design of Steel StructuresL: 3T:03. Examination Duration (Hrs) :4. Relative Weight : CWS : 155. Credits : 04P: 2Theory : 3Practical : 0PRS: 25 MTE: 206. Semester: AutumnETE: 40PRE: 07. Subject Area : PEC8. Pre-requisite: Nil9. Objective: To introduce basic concepts of stability of structures and illustrate it’s application in thinwalled structures along with advanced topics in analysis and design of steel structures10. Details of Course:S.No.123456789ContentsConcepts of Stability, Introduction to Buckling Behaviour of ColumnsStability ofBeam-Columns and FramesLateral Instability of BeamsLocal Buckling and Post Buckling Behaviour of PlatesBehaviour and Design of Cold Formed Thin Walled Structures Subjected to Flexureand CompressionPlastic Analysis and Design of Steel Structures, LRFD approachAdvanced Topics in Bolted and Welded ConnectionsBehaviour of Steel Concrete Composite Construction and Introduction to BrittleFracture and Fatigue.Design of Steel Truss BridgesTotalContactHours0303030310040503084211. Suggested Books:S.No.1.23.4.Name of Authors/Books/PublishersS.P. Timoshenko and J.M. Gere, “Theory of Elastic Stability” McGraw-Hill.A.S. Arya and J.L. Ajmani, “Design of Steel Structures” Nem Chand & Bros.N. Subramanian, “Design of Steel Structures”, Oxford University Press.M.L. Gambhir, “Stability Analysis and Design of Structures”, Springer.Year ofPublication/Reprint1963200020082005
INDIAN INSTITUTE OF TECHNOLOGY ROORKEENAME OF DEPTT/CENTRE:Department of Civil Engineering1. Subject Code : CEN-6422. Contact Hours :Course Title : Analysis and Design of BridgesL: 3T:03. Examination Duration (Hrs) :4. Relative Weight : CWS : 155. Credits : 4P: 2Theory : 3Practical : 0PRS: 25 MTE: 20ETE: 406. Semester: SpringPRE: 07. Subject Area : PEC8. Pre-requisite: Nil9. Objective: To introduce bridge deck behavior with the help of classical and numerical analysisapproaches and impart knowledge needed for design of R.C. and pre-stressed concrete bridges.10. Details of Course:S.No.12345678ContentsStructural Forms and Design Loads for BridgesEffective Width Concept and Load Distribution in Multi-Beam BridgesGrillage AnalogyDesign of R.C. and Pre-Stressed Concrete Slab BridgesDesign of R.C. and Pre-Stressed Concrete Girder BridgesBehaviour of Box-Girder Bridges, Introduction to Arch Bridges, Suspension andCable Stayed BridgesDifferent Types of Bearings and Design of Elastomeric BearingsIntroduction to Secondary Effects, Temperature, Shrinkage, Creep. ConstructionTechniques and Effects of Construction Sequence on Design.TotalContactHours03050306090903044211. Suggested Books:S.No.12.3.4.5.Name of Authors/Books/PublishersYear ofPublication/ReprintN. Rajagopalan, “Bridge Superstructure”, Narosa Publishing House.D.J. Victor, “Essentials of Bridge Engineering” Oxford & IBH Publishing.Code of Practice for Concrete Road Bridges - IRC:112-2011, Indian RoadCongress.Standard Specifications and code of Practice for Bridges, Section II- Loadsand Stresses - IRC:6-2010, Indian Road Congress.E.C. Hambly, “Bridge Deck Behaviour”, Chapman and Hall, London.20102001201120101976
INDIAN INSTITUTE OF TECHNOLOGY ROORKEENAME OF DEPTT/CENTRE:Department of Civil Engineering1. Subject Code : CEN-6432. Contact Hours :Course Title : Analysis and Design of High-Rise BuildingsL: 3T:03. Examination Duration (Hrs) :4. Relative Weight : CWS : 155. Credits : 4P: 2Theory : 3Practical : 0PRS: 25 MTE: 20ETE: 406. Semester: SpringPRE: 07. Subject Area : PEC8. Pre-requisite: Nil9. Objective: To introduce the analysis and design of tall buildings subjected to different loadingconditions and detailing of various components.10. Details of Course:S.No.1.2.3.4.5.6.ContentsStructural systems for multi-storey buildings, gravity and lateral loads on buildings,analysis of multi-storey frames. Behaviour of framed tube, tube-in-tube systems,and bundled tube systemsImportance of symmetry and regularity in plan, and regularity in elevation.Analysis for torsion in buildingsDesign of buildings with shear walls and coupled shear wallsDesign and detailing of various members and beam-column joints for ductility. Thecapacity design principle. Performance based design philosophyDesign of floor slabs, raft and pile foundationsApplication of MS-Excel, ETABS and SAFE softwareTotalContactHours6666994211. Suggested Books:S.No.1.2.3.4.5.6.Name of Authors/Books/PublishersU.H.Varyani, “Structural Design of Multi-storeyed Buildings”, 2nd Ed., SouthAsian Publishers, New Delhi.V.L. Shah & S.R.Karve, “Illustrated Design of Reinforced ConcreteBuildings”, (GF 3storeyed), Structures Publications, Pune.Design of Multi Storeyed Buildings, Vol. 1 & 2, CPWD Publications.Bungale S. Taranath, “Structural Analysis and Design of Tall Buildings”,Mc-Graw Hill.Bryan S. Smith and Alex Coull, “Tall Building Structures”, Wiley India.Wolfgang Schueller, “High Rise Building Structures”, Wiley.Year ofPublication/Reprint200220131976198819911986
INDIAN INSTITUTE OF TECHNOLOGY ROORKEENAME OF DEPTT/CENTRE:Department of Civil Engineering1. Subject Code : CEN-6442. Contact Hours :Course Title : Analysis and Design of Plates and ShellsL: 3T:03. Examination Duration (Hrs) :4. Relative Weight : CWS : 155. Credits : 4P: 2Theory : 3Practical : 0PRS: 25 MTE: 206. Semester: SpringETE: 40PRE: 07. Subject Area : PEC8. Pre-requisite: Nil9. Objective: To analyze and design of plate and shell structures10. Details of ion of PlatesGoverning EquationsBoundary ConditionsAnalysis of Rectangular and Circular PlatesGrid Floor as Orthotropic PlateBuckling of PlatesDesign Criteria and Code SpecificationClassification of ShellsMembrane Theory for Shells of Revolution with Axisymmetric and NonAxisymmetric LoadingsBending Analysis of Shells of Revolution for Axisymmetric LoadingsMembrane and Bending Theories of Cylindrical ShellsTheory of Edge BeamsDoubly Curved ShellsMembrane Theory and Design of Hyperbolic ShellsBuckling of ShellsDesign Applications, Analysis and Design of Folded plates, Cooling towers, Silosand Bunkers,Codal Specifications, Practical Considerations, Computer 30202020104024211. Suggested Books:S.No.1.2.3.4.5.Name of Authors/Books/PublishersYear ofPublication/ReprintS.P. Timoshenko and S. Woinowsky-Krieger, “Theory of Plates and Shells”,5th Ed., McGraw- Hill.J.N. Reddy, “Theory and Analysis of Elastic Plates”, 2nd Ed., Taylor & Francis.B.K. Chatterjee, “Theory and Design of Concrete Shells”, 3rd Ed., Chapmanand Hall.V.S. Kelker and R.T. Sewell, “Fundamentals of the Analysis and Design ofShell Structures”, 1st Ed., Prentice Hall.R. Szilard, “Theory and Analysis of Plates : Classical and Numerical Methods,1st Ed., Prentice Hall.19592006198819871973
INDIAN INSTITUTE OF TECHNOLOGY ROORKEENAME OF DEPTT/CENTRE:Department of Civil Engineering1. Subject Code : CEN-6452. Contact Hours :Course Title : Mechanics of CompositesL: 3T:13. Examination Duration (Hrs) :4. Relative Weight : CWS : 255. Credits : 4P: 0Theory : 3PRS: 0Practical : 0MTE: 25ETE: 506. Semester: SpringPRE: 07. Subject Area : PEC8. Pre-requisite: Nil9. Objective: To analyze and design Laminated composite structures10. Details of Introduction-Classification and Characteristics of Composite Materials, BasicTerminology, Uses of Fibrous CompositesBehaviour of Lamina Stress-Strain Relationship for Anisotropic, Orthotropic andIsotropic Material. Transformation of Elastic ConstantsFailure Criteria for an Orthotropic LaminaIntroduction to Micromechanics: Laws of MixtureBehavior of Laminate: Classical Lamination Theory, Stress-Strain Relationship fora Laminate, Extensional, Bending and Coupling Stiffness, Different Configurationsand Corresponding StiffnessStrength of LaminatesInter-laminar StressesShear Deformation TheoriesBehaviour and Analysis of Laminated Plates Subjected to Bending, Buckling andVibrationsThin Walled Laminated Structures and Sandwich ConstructionsBehaviour of laminated composite JointsExamples on Practical 303044211. Suggested Books:S.No.1.2.3.4.5.Name of Authors/Books/PublishersR.M. Jones, “Mechanics of Composite Materials”, 2nd Ed., Taylor & Francis.I.M. Daniel & Ori Ishai, “Engineering Mechanics of Composite Materials”, 2ndEd., Oxford University Press.Autar K. Kaw, “Mechanics of Composite Materials”, 2nd Ed., CRC Press.R.F. Gibson, “Principles of Composite Mechanics”, 2nd Ed., CRC Press.B.D. Agarwal, L.J. Broutman, L.J. Broutman, “Analysis and Performance ofFibre Composites”, 2nd Ed., John Wiley.Year ofPublication/Reprint19982013200520071990
INDIAN INSTITUTE OF TECHNOLOGY ROORKEENAME OF DEPTT/CENTRE:Department of Civil Engineering1. Subject Code : CEN-6462. Contact Hours :Course Title : Engineering Design Optimization and ReliabilityL: 3T:03. Examination Duration (Hrs) :4. Relative Weight : CWS : 155. Credits : 4P: 2Theory : 3Practical : 0PRS: 25 MTE: 20ETE: 406. Semester: SpringPRE: 07. Subject Area : PEC8. Pre-requisite: Nil9. Objective: This course is designed to introduce graduate students to concepts and applications ofstructural reliability and design optimization. Upon completion of this course, students will be able to: (a)Compute first- and second-order estimates of failure probabilities of engineered systems; (b) Computesensitivities of failure probabilities to assumed parameter values; (c) Measure the relative importance ofthe random variables associated with a system; (d) Update reliability estimates based on newobservational data; (e) Identify the relative advantages and disadvantages of various analytical reliabilitymethods, as well as Monte Carlo simulation; (f) Use reliability tools to calibrate simplified building codes10. Details of Course:S.No.ContentsIntroduction to Design Optimization; Optimal Design Problem Formulation;Graphical Optimization and Basic ConceptsOptimum Design Concepts: Optimality Conditions; Optimal Design with MATLABNumerical Methods for Unconstrained Design Optimization; Numerical Methodsfor Constrained Design Optimization; Practical Applications of OptimizationGenetic Algorithm for Optimum Design; Multi-objective Optimum DesignConcepts and MethodsFundamentals of probability theory; Common probabilistic modelsGeneral component reliability; First-order second-moment methods; First andSecond-order reliability methodImportance measures and parameter uncertainty; Sampling techniques; SurrogateModellingDevelopment of reliability based design codes; System reliabilityTotalContactHours358829434211. Suggested Books:S.No.1.2.3.4.5.Name of Authors/Books/PublishersJasbir S. Arora, “Introduction to Optimum Design”, 3rd Ed., Academic Press.Achintya Halder and Sankaran Mahadevan, “Probability, Reliability, andStatistical Methods in Engineering Design”, John Wiley.O. Ditlevsen, and H. O. Madsen, “Structural Reliability Methods”, InternetEdition 2.3.7, John Wiley. http://www.web.mek.dtu.dk/staff/od/books.htmA.H.S. Ang and W. H. Tang, “Probability Concepts in Engineering Planningand Design”, Vol. I : Basic Principles, Wiley.R. E. Melchers, “Structural Reliability Analysis and Prediction”, 2nd Ed.,Wiley.Year ofPublication/Reprint20122000200719751999
INDIAN INSTITUTE OF TECHNOLOGY ROORKEENAME OF DEPTT/CENTRE:1. Subject Code : CEN-6472. Contact Hours :Course Title : Condition Assessment and Retrofitting of StructuresL: 3T:03. Examination Duration (Hrs) :4. Relative Weight : CWS : 155. Credits : 4Department of Civil EngineeringP: 2Theory : 3Practical : 0PRS: 25 MTE: 20ETE: 406. Semester: SpringPRE: 07. Subject Area : PEC8. Pre-requisite: Nil9. Objective: To introduce the application of different techniques for evaluation and retrofitting ofbuildings10. Details of Course:S.No.123456ContentsDeterioration of Concrete Buildings: Embedded Metal Corrosion, DisintegrationMechanisms, Moisture Effects, Thermal Effects, Structural Effects, FaultyConstructionEvaluation of Concrete Buildings: Visual Investigation, Destructive TestingSystems, Non-Destructive Testing Techniques, Semi-Destructive TestingTechniques, Chemical Testing.Surface Repair & Retrofitting Techniques: Strategy & Design, Selection of RepairMaterials, Surface Preparation, Bonding repair Materials to Existing concrete,Placement Methods,Epoxy Bonded Replacement Concrete, Preplaced Aggregate Concrete, Shotcrete/Gunite, Grouting, Injection Grouting, Micro concrete.Strengthening Techniques: Strengthening Techniques, Beam Shear CapacityStrengthening, Shear Transfer Strengthening between Members, ColumnStrengthening, Flexural Strengthening, and Crack StabilizationGuidelines for Seismic Rehabilitation of Existing Buildings, Seismic Vulnerabilityand Strategies for Seismic Retrofit.TotalContactHours0808080608044211. Suggested Books:S.No.Name of Authors/Books/Publishers12Emmons, P.H., “Concrete Repair and Maintenance”, Galgotia Publication.Bungey, S., Lillard, G. and Grantham, M.G., “Testing of Concrete inStructures”, Taylor and Francis.Malhotra, V.M. and Carino, N.J., “Handbook on Non-destructive Testing ofConcrete”, CRC Press.Bohni, H., “Corrosion in Concrete Structures”, CRC Press.FEMA 273; NEHRP Guidelines for the Seismic Rehabilitation of Buildings.ATC- 40: Seismic Evaluation and Retrofit of Concrete Buildings, Vol. 1 & 2.M.J.N., Seible, F. and Calvi, G.M., “Seismic Design and Retrofit of Bridgesby Priestley”, John Wiley.34567Year ofPublication/Reprint2001200120042005199719971996
INDIAN INSTITUTE OF TECHNOLOGY ROORKEENAME OF DEPTT/CENTRE:1. Subject Code : CEN-6482. Contact Hours :Course Title : Concrete TechnologyL: 3T:03. Examination Duration (Hrs) :4. Relative Weight : CWS : 155. Credits : 4Department of Civil EngineeringP: 2Theory : 3Practical : 0PRS: 25 MTE: 206. Semester: SpringETE: 40PRE: 07. Subject Area : PEC8. Pre-requisite: Nil9. Objective : The objective of this course is to provide detailed knowledge about concrete and itscomposition.10. Details of Course:S.No.1.2.3.4.5.6.7.ContentsIngredients of Concrete: Review of Cements including Blended Cements,Manufacture, Chemical Composition, Aggregates: Review of Types; ElementaryMineralogy and Petrology; Sampling and Testing; Effects on Properties ofConcretes, Chemical and Physical Processes of Hydration.Mineral Admixtures: Pulverized Fly Ash, Ground Granulated Blast Furnace Slagand Silica Fume; Chemical Composition,Physical Characteristics,Chemical andPhysical Processes of Hydration and Interaction,Effects on Properties of Concretes.Admixtures:Review of Types and Classification, Chemical Composition,Effects onProperties of Concretes.Fresh-Concrete: Rheology of Mortars and Concretes; Workability, Segregation andBleeding, Theory and Principles governing the correct transportation, Placing,Compaction and Curing of Concrete. Plastic Settlement and PlasticShrinkage,Exothermic Characteristics:Early Age Thermal Movements,StrengthDevelopment,Maturity, Accelerated Curing,Hot and Cold Weather eformationunderLoad,Elasticity,Creep,Drying Shrinkage and other volume Changes. ThermalProperties.Durability of Concrete and Concrete Construction: Durability Concept,PoreStructure and Transport Processes,Reinforcement Corrosion, Fire Resistance,FrostDamage, Sulfate Attack,Alkali Silica Reaction,Methods of Providing DurableConcrete.Concrete Mix Design: The process of Mix Selection, Factors governing theselection of Mix Proportions, Combining Aggregates to obtain Specified Grading,Different Methods of Mix Design, Concepts of Statistical Quality Control ofConcrete Construction.Special Concretes: Lightweight Concrete,No-Fines Concrete, High PerformanceConcrete,High Density and Radiation-Shielding Concrete,Polymer Concrete,FibreReinforced Concrete,Self Compacting Concrete, Roller Compacted Concrete, HighVolume Fly Ash Concrete, Ready Mixed Concrete.TotalContactHours82857664211. Suggested Books:S.No.1.2.Name of Authors/Books/PublishersA.M. Neville and J.J. Brooks, “Concrete Technology”, 1st Ed.P.K. Mehta and Paulo J.M. Monteiro, “Concrete: Microstructure, Propertiesand Materials”, 3rd Ed.Year ofPublication/Reprint20022006
INDIAN INSTITUTE OF TECHNOLOGY ROORKEENAME OF DEPTT/CENTRE:Department of Civil Engineering1. Subject Code : CEN-6492. Contact Hours :Course Title : Fracture Mechanics in Quasi-brittle MaterialsL: 3T:13. Examination Duration (Hrs) :4. Relative Weight : CWS : 255. Credits : 4P: 0Theory : 3PRS: 0Practical : 0MTE: 256. Semester: SpringETE: 50PRE: 07. Subject Area : PEC8. Pre-requisite: Nil9. Objective: To introduce the mechanics of
Appendix- DEPARTMENT OF CIVIL ENGINEERING INDIAN INSTITUTE OF TECHNOLOGY ROORKEE Program Code: 20 M. Tech. (Structural Engineering) Department: CE Civil Engineering Year: I Teaching Scheme
What is Civil Engineering? Civil Engineering: The Present The first self-proclaimed civil engineer was John Smeaton (1724 -1792). What is Civil Engineering? Civil Engineering: The Present In 1818 the Institution of Civil Engineers was founded in London and received a Royal Charter in 1828, formally recognizing civil engineering as a profession.File Size: 2MBPage Count: 17Explore furtherIntroduction to Civil Engineeringwebpages.uncc.edu[PDF] Civil Engineering Books Huge Collection (Subject .learnengineering.inEngineering Books Pdfwww.engineeringbookspdf.comRecommended to you b
Master of Civil Engineering (p. 1) M.S. in Facility Management (p. 2) Ph.D. in Civil Engineering (p. 2) Ph.D. in Environmental Science and Engineering (p. 6) Master of Science Degree in Civil Engineering The Master of Science degree in Civil Engineering is designed to provide specialized knowledge in selected technical areas of Civil
Bockus, John Civil War 0-48 Knapp, Leonard Civil War 0-62 Bryson, Frank T. Civil War 0-6 Lampson, G. W. Civil War 0-25 Burkley, John I. Civil War 0-65A Martin, Jacob A. Civil War 0-49 Carr, Asa M. Civil War 0-39 Martin, Pembrooke Civil War 0-9A Carr, Julius Civil War 0-39 Mather, Jonathan War of 1812 0-78
o Indian Journal of Biochemistry & Biophysics (IJBB) o Indian Journal of Biotechnology (IJBT) o Indian Journal of Chemistry, Sec A (IJC-A) o Indian Journal of Chemistry, Sec B (IJC-B) o Indian Journal of Chemical Technology (IJCT) o Indian Journal of Experimental Biology (IJEB) o Indian Journal of Engineering & Materials Sciences (IJEMS) .
Materials Science and Engineering, Mechanical Engineering, Production Engineering, Chemical Engineering, Textile Engineering, Nuclear Engineering, Electrical Engineering, Civil Engineering, other related Engineering discipline Energy Resources Engineering (ERE) The students’ academic background should be: Mechanical Power Engineering, Energy .
Civil Engineering Electives* 9 Civil Engineering Electives* 9 17 Free Elective 3 13 * One course is required in the Environmental and Water Resources, Geotechnical and Transportation area. Total Credit Hours Required -- 124. Guidance for Completing the Civil Engineering Program Advising Procedures In Civil Engineering
DIREITO CIVIL 1. Conceito de direito civil 2. Histórico do direito civil 3. A codificação 4. O Código Civil brasileiro 4.1. O Código Civil de 1916 4.2. O Código Civil de 2002 4.2.1. Estrutura e conteúdo 4.2.2. Princípios básicos 4.2.3. Direito civil-constituci
API Structure Over 500 member companies involved in all aspects of the oil and natural gas industry Over 700 committees and task forces covering various advocacy and technical issues Staff of 240 led by board of directors who are the CEO’s of API member companies . API Standards Program All industry segments active in standardization: Exploration and Production Refining Petroleum .
