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Department of Civil Engineering

Since it had been established in 1957, the Department of Civil Engineering continues to expand in activities of research, teaching and professional services. The teaching and research works are devoted in the areas of Structures, Highway and Transportations, Soil Mechanics, Sanitary Engineering, Materials Technology, and Construction Management. The Bachelor Degree in Civil Engineering is structured into a four-year program. The units of the courses are decided to equip students with a broad knowledge base. The Department has 75 academic staff and over 90 postgraduate students reading for the M.Sc. and Ph.D. degrees. The average annual number of undergraduate students is about 450.

The heads of the department

No Name of the head Date 1. Dr. Jameel Esaa AL-Malaika 1942 - 1953

2. Yofant Aozenian 1953 - 1955

3. Dr. Jameel Esaa AL-Malaika 1955 - 1960

4. Dr. Fraj Tarjrian 1960 - 1963

5. Dr. Jameel Esaa AL-Malaika 1963 - 1973

6. Dr. Naji T. Mohammed 1973 - 1976

7. Dr. Laith E. Namaq 1976 - 1981

8. Dr. Khalid S. Mahmmod 1981 - 1985

9. Dr. Laith E. Namaq 1985 - 1987

10. Arteen Leefoon 1987 - 1989

11. Dr. Mofeed A. AL-Samaraai 1989 - 1991

12. Dr. Khalid S. Danoo 1991 - 1992

13. Dr. Ahmeed J. Dabdab 1992 - 2000

14. Dr. Omer AL-Farooq AL-Damalogy 2001 - 2004

15. Dr. Thamir K. Mahmood 2004 - 2007

16. Dr. Rafa H. Al-Suhaili 2007- present time


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Staff of the Civil Engineering Department.

Scientific Degree General Specialty Name No.

Ph.D., Prof. Materials Riyadh Shafiq Al-Rawi 1.

Ph.D., Prof. Structures Khalid Shaker Mahmod 2.

Ph.D., Prof. Water resources Medhat Fadheel Fathullah 3.

Ph.D., Prof. Transportation Hamed Mahmood Hamdou Alani

4.

Ph.D., Prof. Materials Zain El-Abdin Raouf 5.

Ph.D., Prof. (President of Baghdad University)

Soil Mechanics Mosa Jawad Al-Mosawe 6.

Ph.D., Prof. Hydraulics Abdulkareem Hamza Ghailan

7.

Ph.D., Prof. (Head of the Department)

Hydraulics Rafa H. Al-Suhaili

8.

Ph.D.,Prof. Structures Thamir K. Al-Azawi 9.

M.Sc., Assist. Prof. Management Zuhair m. Saco 10.

Ph.D., Assist. Prof. Structures Adnan Falih Ali 11.

M.Sc., Assist. Prof. Structures Amir A. H. Al-Neaime 12.

M.Sc., Assist. Prof. Transportation Saad Sarsam 13.

M.Sc., Assist. Prof. Structures Hassan Ayad 14.

Ph.D., Assist. Prof. Soil Mechanics Ala Nasir Al-Jorany 15.

Ph.D., Assist. Prof. Structures Nazar Kamel Ali Oukaili 16.

Ph.D., Assist. Prof. Structures Abdul Muttalib I. Said AlMusawi

17.

Ph.D., Assist. Prof. Structures Raad Kareem Al-Azawi 18.

Ph.D., Assist. Prof. Management Entisar Kadhm Kadhim Rasheed

19.

Ph.D., Assist. Prof. Management Sawsan Rasheed Mohammed 20.


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Ph.D., Assist. Prof. Materials Nada Mandi Fawzi Al-Jalawi

21.

Ph.D., Lect. Management Sedqi Ismaeel Rezouki 22.

Ph.D., Lect. Sanitary Awatif Soaded A.H. Alsaqqar

23.

Ph.D., Lect. Structures Mohannad Husain Al-Sherrawi

24.

Ph.D., Lect. Structures Rafa'a Mahmood Abbas 25.

Ph.D., Lect. Soil Mechanics Abdul Kareem Esmat Zainal

26.

Ph.D., Lect. Soil Mechanics A'Amal Abdul-Ghani Al-Saidi

27.

Ph.D., Lect. Soil Mechanics Bushra Suhale Zbar Al-Busoda

28.

Ph.D., Lect. Structures Abbas Abdul-Majid Allawi 29.

Ph.D., Lect. Materials Suhaila Ghazi Mattar 30.

Ph.D., Lect. Transportation Asal Farid Naoum Beshoory

31.

Ph.D., Lect. Materials Abeer Abdul-Kader Al-Rawi

32.

M.Sc., Lect. Soil Mechanics Asma Younis Yahya Al-Tae'e

33.

M.Sc., Lect. Soil Mechanics Haiffa ABD-AL Rasool 34.

Ph.D., Lect. Transportation Mohammed Qadir Ismail 35.

M.Sc., Lect. Soil Mechanics Maysam Thamer Al-Hadidi 36.

Ph.D., Lect. Transportation Amjd Hamed Al-Bayati 37.

Ph.D., Lect. Structures Salah Rohaima Obed Al-Zaidee

38.

Ph.D., Lect. Structures Methak Shnan 39.

Ph.D., Lect. Structures Ali Ihsan Sahden 40.


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Ph.D., Lect. Structures A’mer Azet Farook 41.

Ph.D., Lect. Structures Ahmed Jabar Hussen 42.

Ph.D., Lect. Surveying Athra Hashim Mohammad 43.

Ph.D., Lect. Soil Mechanics Mahmod Dyab Alahmed 44.

M.Sc., Assist. Lect. Soil Mechanics Balqees Abdul-Wahed Ahmed Al-Janabi

45.

M.Sc., Assist. Lect. Soil Mechanics Rana Mohammed Ameen Al-Kahdaar

46.

M.Sc., Assist. Lect. Soil Mechanics Abbas Fadhil Ibrahim AL-Ameri

47.

M.Sc., Assist. Lect. Management Mustafa Abdullah Hilal Al-Jumaily

48.

M.Sc., Assist. Lect. Structures Hayder Amer Ahmed Al-Baghdady

49.

M.Sc., Assist. Lect. Structures Qusay Asaad Al-Aqooly 50.

M.Sc., Assist. Lect. Structures Shatha Deya 51.

M.Sc., Assist. Lect. Sanitary Nawar O. A. Nasser 52.

M.Sc., Assist. Lect. Structures Zaid Fadheel Watheej 53.

M.Sc., Assist. Lect. Materials Zena Khudair Abbas 54.

M.Sc., Assist. Lect. Structures Tagreed Hasan Abraheem 55.

M.Sc., Assist. Lect. Materials Akram Fraon 56.

M.Sc., Assist. Lect. Soil Mechanics Faris Sadeq Mustafa 57.

M.Sc., Assist. Lect. English Lang. Noor Dahham Abid Al- Rashid

58.

M.Sc., Assist. Lect. Structures Moshrek Foaad 59.

M.Sc., Assist. Lect. Structures Adnan Najem Lazm 60.


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M.Sc., Assist. Lect. Structures Widad Yousif Dawood 61.

M.Sc., Assist. Lect. Soil Mechanics Ahmed Salman 62.

M.Sc., Assist. Lect. Mathematics Alia Husan Naser 63.

M.Sc., Assist. Lect. Sanitary Sura Kareem Ali 64.

M.Sc., Assist. Lect. Structures Alia Moreeh Mohammed 65.

M.Sc., Assist. Lect. Management Ahmed Mohammed Raoof 66.

M.Sc., Assist. Lect. Structures Nehad Tarek 67.

M.Sc., Assist. Lect. Management Kadom Rehaem Rzaeg 68.

M.Sc., Assist. Lect. Mathematic Laila Hashem 69.

M.Sc., Assist. Lect. Management Abbas Mohammed Burhan 70.

M.Sc., Assist. Lect. Structures Muhammad Abdul Jabber abdul Sattar

71.

M.Sc., Assist. Lect. Structures Mahdi Hameed Mohmmed 72.


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Engineering Staff

No. Name

1. Huda Butroos

2. Raoa Khalid

3. Zena Zaki

4. Mohammed Maaged

5. Alyaa Falih

6. Hadeel Khalid

7. Njlaa Adhm

8. Ahlaam Abood

9. Azaam Gali

10. Esraa Yaseen

11. Esraa Mebdr

12. Loma Khalid

13. Rasha Atuan

14. Akeel Taleeb

15. Amal Mahdi

16. Noor Sameer

Technical Staff

No. Name

1. Deia Mohammed Abbas

2. Mohammed Joad

3. Faidh Azeez Ali

4. Jamaal Flaeh

5. Saadoon Madab

6. Raoa Abd-Alrasol Ali

7. Saghda Kadom

8. Halla Yhya

Administration Staff

No. Name

1. Eman Abd-Alelah

2. Wafaa Abd-Alhadi

3. Nada Sadeq

4. Saba Mohmmed Taki


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The Undergraduate Curriculum The annual system of study is followed in the department. The

following is the curriculum of the department for the four years of study.

FIRST YEAR 1st Semester Hours/Week

2nd Semester Hours/Week

Code Subject Units Theo. Tuto. Lab. Theo. Tuto. Lab.

GE 101 Mathematics 6 3 1 - 3 1 -

CE 102 Engineering Mechanics 6 3 1 - 3 1 -

CE 105 Building Material 4 1 1 1 1 1 1

GE 109 Computer Programming

6 2 - 2 2 - 2

CE 103 Engineering Drawing 6 1 - 4 1 - 4

CE 108 Engineering Statistics 2 1 1 - 1 1 -

CE 104 Engineering Geology 4 1 1 1 1 1 1

GE 107 Workshop 2 - - 2 - - 2

GE 111 Technical English 2 1 1 - 1 1 -

GE 113 Human Rights 2 1 1 - 1 1 -

Total 40 16 5 10 16 5 10

Total hours per week 31 31

SECOND YEAR 1st Semester Hours/Week



CE201 Surveying 6 2 1 2 2 1 2

GE201 Mathematics 6 3 1 - 3 1 -

CE203 Mechanics of Materials 6 3 1 - 3 1 -

GE204 Computer Programming

6 2 - 2 2 - 2

CE205 Fluid Mechanics 6 2 1 1 2 1 1

CE206 Building Construction 4 1 1 1 1 1 1

CE207 Concrete Technology 4 1 1 2 1 1 2

GE206 Freedom & Democracy 2 1 1 - 1 1 -

Total 40 16 6 8 16 6 8



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THIRD YEAR 1st Semester Hours/Week



CE 301 Theory of Structures 6 3 1 - 3 1 -

CE 302 Soil Mechanics 6 2 1 2 2 1 2

CE 307 Eng. Management and Economy

4 2 - - 2 - -

CE 303 Reinforced Concrete 6 3 1 - 3 1 -

CE 304 Water Recourses 4 2 1 - 2 1 -

CE 305 Engineering Analysis 4 2 - - 2 - -

CE 306 Traffic Engineering 4 1 1 1 1 1 1

CE 308 Computer Applications in Civil Engineering

2 - 1 1 - 1 1

GE 309 Numerical Methods 4 1 1 1 1 1 1

Total 40 17 6 5 17 6 5


FOURTH YEAR 1st Semester Hours/Week



CE401 Steel Design 4 2 2 - 2 2 -

CE402 Foundation Engineering 4 2 2 - 2 2 -

CE403 Transportation Engineering

6 2 - 1 2 - 1

CE404 Sanitary& environmental Engineering

6 2 1 1 2 1 1

CE405 Construction Methods & Quantity Surveying

4 2 1 - 2 1 -

CE406 Reinforced Concrete Design

4 2 2 - 2 2 -

CE410 Selected Topics in Hydraulic Structures

4 2 1 2 1

CE408 Engineering Project 4 1 - 2 1 - 2

CE409 Hydrology 4 2 1 - 2 1 -

Total 40 17 10 4 17 10 4



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The Syllabus

The following is the syllabus of the subjects in the department curriculum.

FIRST YEAR GE 101 Mathematics

intervals, Inequalities, Functions, Parametric Functions, Limits and Continuity, Derivatives, Application of Derivatives, Conical Sections, Integrations, Application of Definite Integrals, Techniques of Integration, the Calculus of Transcendental Functions, Plane Curves, Infinite Series, Determinates, Matrices.

CE 102 Engineering Mechanics

Introduction, Basic Concepts, Composition and Resolution of Forces, Principle of Moments and Couples, Resultants of Force Systems, Equilibrium and Free-Body Diagram, Frames in the Plane, Trusses in the Plane, Frames and Trusses in the Space, Friction, Centroid and Centers of Gravity, Second Moments of Area or Moment of Inertia, Polar Moment of Inertia, Products of Inertia, Absolute Motion, Force, Mass and Acceleration.

CE 103 Engineering Drawing

Introduction and Instruments, Lines and Lettering, Applied Geometry, Projection, Dimensions, Isometric, Sections, Structural Drawing (Plan, Foundation Plan, Lintels, Slabs Reinforcement Plan, Section through Building and Stairs).

CE 104 Engineering Geology

Rocks and Minerals, Structural Geology, Factors Affecting Earth Crust, Soil, Physical and Mechanical Properties of Soils and Rocks, Stresses in Rocks, Underground Water Geology and Geological Maps.

CE 105 Building Materials

Properties and building Materials, Clay Bricks, Properties of Clay Bricks, Manufacture of Clay Bricks, Other Types of Bricks (Refractory Bricks, Sand-Lime Bricks, Glass Bricks, Glazed Bricks and Concrete Bricks), Mortar and Binders, Gypsum Mortar (Properties and Types), Lime Mortar, Types of Cements, Stress and Strain, Measurement Devices of Stress/Strain, Wood (Types, Properties and Test of Wood), Tiles (Types and Properties) and Masonry Stone (Types and Properties).


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CE 108 Engineering Statistics Description and Classification of Data, Frequency Distribution

(Cumulative Frequency Distribution, Frequency Histogram, Frequency Polygon, Frequency Curve and Relative Frequency), Measurements of Central Tendency (Mathematical Mean, Mode, Geometric Mean and Harmonic Mean), Measures of Dispersion (Standard Deviation, Variance, Coefficient of Variance, Range and Mean Absolute Deviation), Theory of Probability,

Permutation and Combination, Statistical Probability Distributions (Poisson, Binomial and Normal), Sampling and Testing of Significant Chi-Square Distribution and Linear Correlation and regression.

GE 109 Computer Programming

Introduction to computers and historical review, Computer Components and Hardware, Operating systems review and windows evolution, Introduction to windows XP, Microsoft® Office (word , Excel , Power point), Introduction to programming Languages, Basic Language (Constants and Variables, Library Functions, Input and Output Statements, Conditional and Unconditional Branches, Loops, Arrays and Matrices, Subroutines and Applications).

GE 111 English Languages

Grammars, Pronunciation, Selected Paragraphs in Civil Engineering.

GE 113 Human Rights SECOND YEAR GE 201 Mathematics

Conical Sections, Parametric Equations, Polar Coordinates, Vectors and Analytical Geometry in Space, Functions of Two or more Variable and their Derivatives, Multiple Integral.

CE 201 Surveying

Introduction, Distance Measurements, Chain Surveying, Levels and Leveling, Areas and Volumes, Contours and Contouring, Theodolites, Traversing, Indirect Distance, Setting-Out Works, Theory of errors, Triangulation and Water Surface Areas.

CE 203 Mechanics of Materials

Introduction, Stress and Strain, Hook’s Law, Riveted Connections, Thin Walled Pressure Vessels, Axially Loaded Members, Equations of Equilibrium and Compatibility, Thermal Strains, Transformation of Stresses and Strains, Principal Stresses, Torsion, Axial Force, Shear, and Bending Moment


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Diagrams, Bending Stresses, Composite Beams, Shearing Stresses in Beams, Shear Center and Shear Flow, Compound Stresses, Deflection of Beams, Direct Integration Method, Moment-Area Method, Buckling of Columns.

GE 204 Computer Programming Introduction to Visual Basic 6 and user interface, Basic components and their use, Forms, Variable declaration, types, effective time + exercises, Textbox, Labels, command button + exercises, Frame, checkbox, radio button, List Box + Combo Box, Scroll Bar + Picture Box, Introduction to Mat Lab and user interface, Variables and workspace, Operators, expressions and statements, Repeating with for, Decision, Complex numbers, More on input and output, Introduction to graphics.

CE 205 Fluid Mechanics

Fluid Properties and Flow Characteristics, Pressure Variations in Static Fluid, Hydrostatic Force on Plane Surfaces, Hydrostatic Pressure Forces on Curved Surfaces, Buoyancy, Accelerated Fluid Masses, Kinematics of Fluid Motion, Applications of Energy Equations, Momentum Equations, Flow of Real Fluid, Similitude and Dimensional Analysis, Fluid Flow in Pipes, Friction Losses, Minor Losses, Pipes in Series, Pipes in Parallel Network, Fluid Flow in Open Channels, Specific Energy and Transitions.

CE 206 Building Constructions

Types of Buildings, earthwork, Footing and Foundations, Piles and Piling, Concrete Works, Bricks and Blocks works, Masonry Works, Forms and Scaffoldings, Floors and Roofs, Arches, Lintels and Sills, Damp Proofing, Finishing of Walls and Ceilings, Doors and Windows, Means of Moving Between Levels, Fire Places and Chimneys and Joints in Buildings.

CE 207 Concrete Technology

Concrete Aggregate, Portland cement, Types of Cement, Concrete Mix design, Fresh Concrete, Strength of Concrete, Elasticity, Shrinkage and Creep and Durability of Concrete.

GE 206 Freedom & Democracy

THIRD YEAR

CE 301 Theory of Structures

Introduction, Stability and Determinancy of Structures, Types of Trusses, Analysis of Trusses, Axial Force, Shear, and Bending Moment Diagrams for Frames and Arches, Analysis of Arches, Influence Lines in Statically Determinate Structures, Deflections of Statically Determinate Structures, Unit


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Load Method, Least Work Method, Conjugate-Beam Method, Deflections of Statically Indeterminate Structures, Approximate Analysis of Statically Indeterminate Structures, Consistence Deformation Method, Least Work

Method, Moment Distribution Method, Slop Deflection Method, Stiffness Method.

CE 302 Soil Mechanics

Description and Classification, Soil Compaction, Stress Distribution, Principal and effective Stresses, Permeability, Seepage Stress-Strain Relationship, Undrained Pore water Pressure, Consolidation and Settlement, Shear Strength and Stress-Strain Relationship for Drained and Undrained Conditions.

CE 303 Reinforced Concrete

Properties of Concrete and Reinforcing Steel, Flexural Analysis and Design of Beams (Rectangular, T and L, Doubly Reinforced and General Shaped Sections), Approximate Analysis of Continuous Beams, Shear and Diagonal Tension in Beams and Shear Design, Torsional Design of Beams, Bond, Anchorage, Length of Development, Splices, Serviceability (Crack-Width and Deflection), One-Way Slabs, Two-Way Slabs, Columns (Short and long Columns).

CE 304 Water Resources Engineering

Introduction, Soil-Water Relation, Relation between Discharge, Depth, Time and Area, Irrigation Efficiencies, Hydraulic Design of Canal, Method of Irrigation, Salinity Problem, Flow of Water into and through the Soil, Drainage (Define, Benefits, etc), dynamic of Groundwater, Depth and Spacing of Drains, Hydraulic Design of Pipe Drains, Drainage Wells.

CE 305 Engineering Analysis Ordinary Differential Equations of the First Order, Ordinary Linear Differential Equations, System of Differential Equations, Fourier Series and Integral, Partial Differential equations.

CE 306 Traffic Engineering

Vehicle Speed, Vehicle Headway Distributions, Traffic Volume, Fundamental Relationships between Speed-Flow and Density, Capacity and Level of Service of Two-Line Highways, Intersections Design, Intersection Control, Car Parking, Road User Safety.

CE 307 Engineering Management and Economy Engineering Economy Introduction to Science of Economy, Economies for Organization, Costs, Incomes, Slope and Elasticity of Economical Function, Interest and


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Interest’s Rules, Depreciation, Alternatives, Economical Studies, Using of Statistical Methods in Engineering Economy. Engineering Management Definition, Management Duties during Construction of Project, Requirements of Successful Project Planning, Project Planning Methods (Bar-Chart, Net-Work Analysis and Grid Methods) Crash Program Updating the Plan, Resources Allocation.

CE 308 Computer Applications in Civil Engineering Introduction, Analysis of 2D Frames, Analysis of 2D Trusses, Analysis of

Space Frames, Analysis of Space Trusses, Design of R.C. Frames (According to ACI Code),Design of Steel Frames (According to AISC), Analysis & Design of Structures subjected Lateral & Environmental Loadings(Wind & Earthquake Loadings)

CE 309 Numerical Methods Approximations and Errors, Solution of Nonlinear Equations (Roots of

Equations), System of Linear equations, Curve Fitting (Interpolation and Least Squares Regression), Numerical Integration, Numerical Solution of Ordinary Differential Equations, The Finite-Difference Method for Boundary-Value Problems, Numerical Solution of Partial Differential Equations.

FOURTH YEAR CE 401 Steel Design

Introduction, Tension Member, Compression Member, Design of Trusses, Flexural Members, Plate Girders and Box Girders, Members Under Biaxial Bending, Connections (Riveted, Bolted and welded)

CE 402 Foundation Design

Site Investigation, Lateral Earth Pressure, slope Stability, Bearing capacity of Soil, Settlement, Foundation Design, Piles.

CE 403 Transportation Engineering

Functional Classification of Highways, Location, Surveys, Earthwork Quantities, Design Control and Criteria, Elements of Geometric Design, Cross-Section Elements, Intersections, Interchanges, Traffic Signals, Highway Paving Materials, Flexible Pavement Design, Rigid Pavement.


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CE 404 Sanitary and Environmental Engineering

Water Treatment (Sedimentation, Coagulational Flocculation, Filtration and Disinfection), Special Treatment, Pipes, Distribution Systems, Runoff Discharge, Sewer Pipes, Sewer System, Waste Water Characteristics, Waste Water Treatment, River Pollution. CE 405 Constructional Methods and Quantity Surveying

Construction Process, Project Realization, Construction Process Parties, Project management, Role of Engineer and Contract, Planning Techniques(Networks, Line of Balance), Resource Allocation, Types of Equipments, Plant Management, Earthworks, Concrete Industry, Precast Construction, Approximate Estimation, Detailed estimation, Pricing, Technical Specifications, Term Project, Concrete Forms, Contract Documents.

CE 406 Reinforced Concrete Design

Two-Way Slabs, Direct Design Method, Equivalent Frame Method, Flat Slabs and flat Plates, Deflection of Two-way Slabs, Yield Line theory, prestressed concrete, Design of stairs. CE 409 Hydrology

Hydraulic Cycle, Weather and Hydrology, Precipitation, Evaporation, Groundwater, Wells, Discharge Determination, Flood Waves.

CE 410 Selected Topics

Hydraulic Structures, Rectangular Reinforces Concrete tanks, Circular Reinforces Concrete tanks, Beam on Elastic Foundation, Bridges, Barrages.


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Postgraduate Curriculum

These Courses are in M.Sc. and Ph.D. Studies .

M.Sc. Courses; Structural Engineering

Units Hours Subject Code

1st S

emes

ter

3 3 Advanced Structural Analysis CE501

3 3 Bridges Design CE502

3 3 Dynamics of Structures CE503

3 3 Prestressed Concrete CE504

1 1 English Language GE 505

13 13 Total

3 3 Finite Element Method CE 506

2nd S

emes

ter

3 3 Stability of Structures CE 507

3 3 Theory of Plates and Shells CE 508

3 3 Plastic Analysis CE 509


13 13 Total

CE 501Advanced Structural Analysis (M.Sc.) Introduction, Definitions and concepts, Matrix algebra, Idealization of structures, constraints, and loads, Formulation of stiffness matrix, Truss element in two dimensions, Truss element in three dimensions, Beam element in two dimensions, Beam element in three dimensions, Grillage, Curved beams, Comparison between the direct stiffness method and the flexibility method, Fixed end forces, Effect of temperature, lack of fit, and settlement, Principle of symmetry and anti-symmetry, Equations solvers, Special topics in matrix analysis: condensation, sub-structuring, and instability, Large deformation analysis of frames, Nonlinear analysis of frames: geometric nonlinearity, elastic buckling analysis, material nonlinearity, Energy methods in matrix structural analysis, Strain energy – displacement approach, Strain energy – force approach, Total potential energy and principle of minimum potential energy, Non-prismatic elements, Introduction to the finite element method.


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CE 502 Bridges Design (M.Sc. and Ph. D. Course) Application of loading of the various codes, design of slab bridges and slab on beams bridges, design of composite bridges, design of elastomeric pads, analysis of cable-stayed bridges.

CE 503 Dynamics of structures (M.Sc.) Definition of the dynamic problem, Characteristics and modeling a dynamic problem, Formulation of the equation of motion (SDOF) system, Equation of motion for SDOF systems, Free Vibration Analysis of SDOF systems, Response of SDOF systems to harmonic Loading, Response of SDOF systems to Periodic Loading, Response of SDOF systems to Impulsive Loading, Analysis Based on Shock Spectrum, Response of SODF systems to general loading, the Duhamel Integral, Multi-DOF systems, Definition and formulation of the equation of motion, Multi-DOF systems, Derivation of property matrices (lumped and consistent mass matrices, The orthogonality condition, Free vibration analysis & characteristics of MDOF systems natural frequencies & mode shapes, Response of MDOF systems to the case of specifies initial conditions (the model superposition method), Response of MDOF systems to impulsive loading, Earthquake response analysis, Response spectrum analysis of single and MDOF systems subjected to earthquake loading.

CE 504 Prestressed Concrete (M.Sc.)

Introduction to prestressed concrete and partially prestressed concrete, Losses of prestress according to ACI code, Losses of prestress according to AASHTO and PCI, Flexural design for prestressed and partially prestressed concrete according to ACI code, Flexural design for prestressed and partially prestressed according to compatibility method, Shear design for prestressed and partially prestressed concrete. GE 505 English Language (M.Sc. and Ph. D. Course) Introduction to English language, Differences between British English and American English, Literal and Colloquial Language, Grammatical Background, Common Mistakes in the Language Tools and Usage, Common Mistakes in Spelling, Grammar and Style, Rules of Formal and Informal Conversation, Differences between Written and Spoken Language, the Language of Civil Engineering in English, How to Write Thesis.


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CE 506 Finite Element Method (F.E.) (M.Sc. Course) Principle of minimum potential energy, The “Rayleigh-Ritz” method, Concepts of the F.E., Constitutive relations for plane stress/strain formulation aspects, Modeling of plane stress/strain problem using the constant strain triangle CST, Rectangular four nodded element for plane stress/strain problems, Q-6 element for plane stress/strain, Convergence and compatibility of F.E., the path test, Isoperimetric formulation- Natural coordinates and numerical integration (one & two dimensional), Formulation of 3 nodded bar element in axial deformation, Formulation of the Q4 Isoparametric element. CE 507 Stability of Structural (M.SC. and Ph. D. Course) Eigen value Problem, Large Deformations Analysis (Elastic), Inelastic Buckling of Columns, Effect of Residual Thermal Stresses, Energy Approach, Finite Difference Method for, Buckling Analysis, Matrix Method for Buckling Analysis(a-Geometric Stiffness Matrix for Beam Element b- Applications), Buckling of Frames(a- The Use of Stability Functions b- Frames of Non-prismatic Members c-The use of stiffness matrix), Buckling of plates. CE 508 Theory Plates and Shells (M.Sc.) Analysis of stress and deformation of plates subjected to transverse loads, application to circular, rectangular and other shapes. Navier and Levy solutions with various boundary conditions. CE 509 Plastic Analyses (M.Sc. Course) Plastic failure (Introduction, bending of symmetrical section, failure loads of statically determinate structures, failure loads of statically indeterminate structures, Derivation of failure loads by inspection, theorem of plastic collapse, introduction diagram, number of plastic hinges, Methods of plastic analysis (Introduction, graphical procedures of potential frames, multi-bay frames, method of combined mechanisms, distributed loads), Plastic moments under axial load and shear force (sections with one axis of symmetry, effect of axial load on plastic moment, plastic moments under shear force and axial load), Minimum weight design (introduction, simple examples of minimum weight design, theorem of minimum weight design), Plastic analysis of slabs.


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M.Sc. Courses; Soil Mechanics and Foundation Engineering

Units Hours Subject Code 1st

Sem

este

r 3 3 Advanced Soil Mechanics CE 510

3 3 Finite Element in Geotechnical Applications

CE 511

3 3 Seepage CE 512

2 2 Site Investigation CE 513

3 3 Advanced Numerical Methods CE 514


15 15 Total

3 3 Earth Dams CE 515

2n

d S

emes

ter 2 2

Advanced Soil Mechanics Laboratory

CE 516

3 3 Soil Improvement and Stabilization CE 517

3 3 Advanced Foundation Engineering CE 518

3 3 Soil Dynamics CE 519


15 15 Total

CE 510 Advanced Soil Mechanics Introduction, Stresses Tensor and Invariants, Stresses within soil mass, Stress-strain relations (Elastic model; Cam clay Model), Soil Strength (Critical state soil mechanics), Soil consolidation. CE 511 Finite Elements in Geotechnical Applications Introduction to finite element method, Methods of solution, Work and energy, Element types, Geometry of elements, Derivation of stiffness matrix, Higher order elements, Special descretisation by the finite element method, Programming finite element computations, Solved problems: case studies (Plane strain analysis using four node quadrilaterals, Plane strain bearing capacity analysis–visco plastic method using the von–mises criterion, Plane strain of an elastic plastic (Von–mises) solid using eight node quadrilateral elements; visco plastic strain method; mesh free, Steady state flow)


22

CE 512 Seepage One dimensional flow, Two dimensional flow, Heaving and roofing, Mathematical Analysis, Capillarity, Non homogeneous flow, Stream lines and equipotent lines, Unconfined flow, Two–Dimensional Flow on a Horizontal Impervious Boundary, Free Surface Subject To Infiltration or Evaporation, Seepage through an Earth Dam on an Impervious Base, Conformal mapping, Dewatering, Radial Flow in Unconfined Aquifers. CE 513 Site Investigations Objectives and phases of site investigation, methods of subsurface exploration, methods of auguring, role of geology, methods of soil sampling and sample disturbance, in situ testing (SPT, CPT and field vane shear test), geophysical methods, geotechnical report, field instrumentations. CE 514 Advanced Numerical Methods Numerical integration, numerical analysis of beams and columns, finite difference methods and stability of numerical methods. CE 515 Earth Dams Design provisions to control pore water pressure, Natural and importance of failure, foundation piping, filter design, seepage control in earth dams, embankment construction and stability analysis. CE 516 Advanced Soil Mechanics Laboratory The measurements of soil properties in the triaxial test, Rowe cell, Drained and undrained triaxial test, effect of compaction on soil behavior. CE 517 Soil Improvements and Stabilization Soil compaction, Field compaction and control, Mechanical stabilization, chemical stabilization with cement, lime, asphalt…etc, soil replacement, preloading, soil reinforcement, stone columns, grouting, sand drains. CE 518 Advanced Foundation Engineering Factors affecting foundation design, advanced theories and state of art of including, deformation, lateral pressure, bearing capacity analysis and design, deep foundations.


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CE 519 Soil Dynamics Vibration of simple oscillators, wave propagation in elastic media, Dynamic behavior of soils, dynamic tests, blast effects analysis of dynamically loaded foundations, dynamic similitude, earthquake resistance design of slopes and foundation.

M.Sc. Courses; Transportation Engineering


1st

Sem

este

r 3 3 Asphalt Pavement Materials (I) CE 520

3 3 Artificial Neural Networks (ANN) and Stochastic Modeling

CE 521

3 3 Advanced Traffic Engineering CE 522

3 3 Railway Engineering CE 523


13 13 Total

3 3 Geometric Design of Highway CE 524

2n

d S

emes

ter 3 3 Highway Drainage CE 525

3 3 Transportation Planning CE 526

3 3 Asphalt Pavement Materials (II) CE 527


13 13 Total

CE 520 Asphalt Pavement Materials. Asphalt cements chemical composition, Viscoelasiticity and Rheological models, Temperature and Aging Behavior, Performance Graded Asphalt Binder, Testing and Requirements, Mix Design Practice and Materials Selection, Superpave Mix Design (Selection of Materials and Modifiers, Selection of Design Aggregate Structure, Selection of Design Asphalt Binder Content, Evaluation of Moisture Sensitivity). CE521 Artificial Neural Networks (ANN) and Stochastic Modeling General definition, Types of Networks, Hebbnet, Adeline, Modal line, Back Probabagation, Stochastic Variables, Jump Component, Trend


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Component, Penodic Component, Stochastic Component, Single Silt Models, Multisite Models, Autoregressive models, ARIMA Models. CE 522 Advanced Traffic Engineering Fundamental relationships between speed, volume and density, Application of Poisson distribution and negative exponential distribution to the traffic stream, Queuing theory, Gap and lag acceptance, Design of traffic signal system, Level of service for two lane highway.

CE 523 Advanced Railway Engineering Railway track elements (rail types; sleepers; rail fixers and fastening; gauge; ballast cushion design; Rail joints. Railway location (gradient; slopes; speed).Rail loading (track stresses; tractive resistance; train resistance; curve and profile resistance; shacking and acceleration resistance.Hauling capacity calculations (geometric design; vertical and horizontal alignment design; right of way; design calculations). Derivation of expressions for superelevation (cant; widening of gauge). Design of turnout and switches (design of points and crossings; design calculation for turnout; design calculation for cross over; design calculation for diamond crossing). Computer application on railway track geometric design. Track defaults and maintenance (rail conning; adzing; design for rail creep; design for temperature expansion).

CE 524 Geometric Design of Highway Introduction, Terminology, Traffic and Planning, Highway Classification System, Design Control and Criteria, Elements of Geometric Design, Geometric Cross Section Elements, At Grade Intersection, Interchanges, Structure Standards and Clearances. CE 525 Drainage of Highway and Airports Introduction, Theory of inflow-outflow in pavements Subsurface drainage, Design of subsurface filters, thickness of filters, Material of filters, Surface drainage design, Storm water Networks design, design of Culverts, Design of Aqueducts, Design of siphon structure. CE 526 Transportation Planning Basic elements of transportation planning, Urban planning, Trip generation, Trip distribution, Original-destination Matrix, Alternatives evaluation, Economic studies.


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CE 527 Asphalt Pavement Materials (II) Superpave Distress Mode Performance Testing: (Permanent Deformation, Fatigue Cracking, Low Temperature Cracking), Presentation of a Technical Paper.

M.Sc. Courses; Construction Management


1st S

emes

ter

3 3 Design and Construction Management (I) CE528

3 3 Work Study CE529

3 3 Total Quality Management CE530

3 3 Accounting and Cost Management in Construction Projects

CE531

2 2 Advanced Statistics CE532


15 15 Total

3 3 Design and Construction Management (II) CE 533

2n

d S

emes

ter

3 3 Computer Implementation CE 534

3 3 Optimization and Quantitative Analysis

CE 535

3 3 Operation Research CE 536


13 13 Total

CE 528 Designs and Construction Management (I) Introduction to construction industry, parties involved (their policies and goals), challenges facing construction industry, different approaches of construction (direct execution, CM and others), phases of project construction (preliminary studies and feasibility, planning phase, design phase, construction phase and use and operation phase), other topics (system approach, safety management, risk management).


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CE 529Work Study Work study according to B.S. (method study, work measurement and others), time lapse photography, productivity, activity sampling technique, operation analysis following statistical approaches, decision making techniques (decision tree, brain storming and others). CE 530 Total Quality Management Introduction to quality, theories of quality management, ISO and its requirements to quality management (ISO 9001 and ISO 9004), quality management in construction industry, total quality management, statistical quality control, term project.

CE 531 Accounting and Cost Management in Construction Projects Introduction to accounting and its types, types of costs, importance of cost in construction projects, accounting system, cost control, fixed and variable cost, standard and variable cost, cash flow, cash flow forecasting in construction projects, term project. CE 532 Advanced Statistics Review of elementary of statistics, testing hypotheses (Z-test, t-test, x2-test and F-test), analysis of variance, regression and correlation, step-wise regression, engineering applications. CE 533 Construction Management Types of construct, contract in civil law, general conditions of construct, sources of finance in constructs, Iraqi construction industry, modern types of construct. CE 534 Computer Implementation Expert Systems (ES) (the basic concepts, process of developing ES, the main advantages of using ES, the main application areas of ES, limitations of ES, Decision Models (the basic concepts, categories of decision-making, decision trees, modeling process, decision making under risks, decision making under uncertainty and certainty, Project Information Systems (types of project information, use of information systems, the main advantages of using information system, modeling process), Computer software.


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CE 535 Optimization and Quantitative Analysis Definition, Objective Function, constraints, Problem formulation, linear programming, Graphical Method, Simplex Method, Transportation Problem, Assignment problem, Queuing theory and Non-linear optimization. CE 536 Operation Research

M.Sc. Courses; Building Materials


1st S

emes

ter

3 3 Composite Materials (I) CE 537

3 3 Advanced Concrete Technology (I) CE 538

3 3 Shrinkage of Concrete CE 539

3 3 Ceramic Technology CE 540


13 13 Total

3 3 Composite Materials (II) CE 542

2nd

Sem

este

r

3 3 Advanced Concrete Technology (II)

CE 543

3 3 Deformation of Concrete CE 544

3 3 Refractory CE 545


13 13 Total

CE 537 Composite Materials (I) Composite material (Properties and Applications), Theories in Campsite materials, Design of slabs, Types of Fibers (Natural and Artificial), High performance concrete.

CE 538 Advanced Concrete Technology (I) Portland cement (Manufacture of Portland Cement, Chemical Composition of Portland Cement, Hydration and Type of Cement, Chemical and Physical Properties of Portland Cement), Aggregate (Chemical and Physical Properties of Portland Cement), Alkali-Silica Reactivity, Selected Topics of Research.


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CE 539 Concrete Deformations and Shrinkage Introduction to movement in concrete, Elasticity (Linear and nonlinear elastic and non elastic material, Theories of Composite hard and soft models, Modulus of elasticity, Static and dynamic modulus of elasticity: measurement of modulus of elasticity; factors affecting modulus of elasticity), Shrinkage in Concrete (Types of shrinkage, forms of water in concrete, influence of various factors on shrinkage, prediction of shrinkage and measurement of shrinkage), Creep and creep recovery, creep in (sealed, dried, saturated, subjected to temperature rise) concrete, Theories of Creep, Factors affecting creep, Measurements of creep, Prediction of creep, Thermal measurement in concrete (Temperature rise and distribution, Mechanism of thermal cracking, Measures to be taken to control thermal cracking. CE 540 Advanced Ceramic Technology Raw Materials for Advanced Ceramic Industry (Pure Alumina, Zircon and Zirconia, Silicon Carbide, Silicon Nitride), The Process & Stages of Advanced Ceramic Industry (Powders Preparation, Moulding, Hot Pressing, Jet Moulding, Flame Spraying, Fused Mould, Compressing by Hammering), Stages of Firing of Ceramic Materials & Killns, Properties of Ceramic Materials (Soften Degree, Soften Under load, Permanent Linear Change, Resistance for Thermal Shock, Resistance for Corrosion by Slag), Refractory Blocks Reinforced by Steel Fibers (High-weight Refractory Blocks, Low-weight Refractory Blocks), Corundum Products (By using kaoline as a bonding agent, By using alumina as a bonding agent). CE 542 Composite Materials (II) Ferocement (Properties and Applications), design of Ferocement, Caternary, Channels, Domes, Folded plate, Cathodic protection, Polymers (Properties and Applications). CE 543 Advanced Concrete Technology (II) Mix Design (ACI Method, British method), Fresh Concrete (Properties), Hardened Concrete, Shrinkage and Creep, Concrete in Hot Weather, Sulphate Attack, Selected Topics of Researches, Admixtures. CE 544 Selected Topics of Advanced Concrete Technology (II) Mix Design (ACI Method, British Method), Sulphate and Chloride Attaches, High Performance Concrete, Light Weight Concrete (Mix Design of Light Weight Concrete), Shrinkage and Creep of Hardened Concrete, Selected Topics of researches.


29

CE 545 Refractory Silicate Bricks, Types & Uses, Dolomotic Bricks, Types & Uses, Magnisum Bricks, Types & Uses, Fire Clay Bricks, Types & Uses, High-Alumina Bricks, Types & Uses, Refractories for Cement Kilns, Modulus Effects on Cement Properties (Hydraulic Module, Silica Module, Alumina Module, Lime Saturation Factor), Effects of Raw Materials on Killns, Anti-Acid Refractory Materials (Anti-Acid Tiles, Anti-Acid Bricks), Anti-Acid Cement (Silica – Cement, Silicate Cement).

Ph.D. Courses; Structural Engineering


1st

Sem

este

r

3 3 Advanced Finite Element Method CE 601

3 3 Advanced Earthquake Engineering (I &II)

CE 602

3 3 Advanced Foundation Design CE 603

3 3 Advanced Computational Methods CE 604


13 13 Total

3 3 Advanced Structural Dynamics CE 605

2n

d S

emes

ter

3 3 Stability of Structures CE 507

3 3 Advanced Plates and Shells CE 607

3 3 Optimization CE 608


13 13 Total

CE 601 Advanced Finite Element Method (F.E.)

Principle of minimum potential energy, The “Rayleigh-Ritz” method, Concepts of the F.E., Constitutive relations for plane stress/strain formulation aspects, Modeling of cases of axisymmetric solids of revolution subjected to axisymmetric loading, Formulation of the Q8 serendipity` element, Formulation of the Q9 Lagrangian element , Formulation of the three dimensional brick element, Secondary stress problems, Inclined support and


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penalty approach, Rigid links and Master-Slave transformation, Constitutive relations for thin and thick plates in bending (Kirchhoff and Mindlin theories). C2, C1 & C° displacement fields and elements, Isoparametric formulation for thin & thick plates in bending, Effects of shear deformations on beam behavior, the combined stiffness matrix with shear deformations, The equivalent work method in nodal force formulation 9methods of load application), The smoothening technique, Flat shell element (introduction).

CE 602 Advanced Earthquake Engineering Engineering Seismology (Earthquake phenomena, Earthquake Source and size definition, Seismic Hazard Analysis), Structural Dynamics (Un-damped Free Vibrations, Damped Free Vibrations, Critical Damping, Over damping, Under damping, Single Degree Of Freedom System (SDOF), Multiple Degree Of Freedom System (SDOF)), Response Spectra (Ground Motion, Dynamic Response of Structures, Normalized Response Spectra, Near-Source Ground Motion, Construction of response Spectrum), Seismic Design of Building Structures (Static Lateral Force Procedure for Building, Dynamic Lateral Force Procedure for Building), Seismic Design of Non-Building Structures (General Requirement, System Similar to Building Structure, Rigid System, Ground supported Tanks, Other Non-Building Structure), Earthquake Codes (Basic Principles and Parameters, Uniform Building Code 1997 (UBC 1997), International Building Codes 2000 (IBC 2000), Iraqi seismic Code for Requirement for Buildings 1997, Design of Structures for Earthquake Resistance (EURO Code 8), Comparison of Seismic Forces obtained by Different Codes, Strategy of Developing the National Earthquake Codes). CE 603 Advanced Foundation Design Introduction, Machine foundation, principles and design criteria, vertical vibration of machine foundations (single and two degrees of freedom analysis), two dimensional idealization for machine foundations, three dimensional idealization for machine foundations, computer applications, beams on elastics foundations, raft on elastic foundations, computer applications, pile foundations under dynamic loads. CE 604 Advanced Computational Methods Fourier analysis in one and two dimensional, Interpolation, Hermitin interpolation, Cubic spline, sum of squares of errors, Numerical integration (Gauss-quadratic, Simpsons method), Finite difference in one & two dimensions, solution of nonlinear partial differential equations (Quasi


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linearization, Reyleigh-Ritz method, Finite element method), Linear programming (graphical method), Solution of initial time problems. CE 605 Advanced Structural Dynamics Multi-degree of freedom, Response of Multi- Degree of freedom systems, Earthquake response analysis / horizontal, vertical & Rotational base excitations, nonlinear dynamic analysis; materials & geometric nonlinearities, Partial differential equations of motion, Solution of differential equation & motion free vibration response of, Model superposition & orthogonality conditions, Closed form analysis for beams with different boundary conditions to general type of loading, Impact formula for driving pile with different boundary conditions, Wave propagation analysis, Effect of Junctions on the axial & flexural behavior of structures subjected to wave propagation effects, Closed form analysis and formulation of different beams and plane frames, Formulation of the dynamic stiffness matrix for:, Frequency domain analysis and introduction to the stochastic analysis. CE 607 Advanced Plates and Shells Finite strain, deflection of thin beams, large deflection of thin beams (Extensible beam, inextensible beam), deep beam theory (Timoshienko theory), deflection of thin rectangular plates, large deflection of thin rectangular plates (extensible plates, inextensible plates), deflection of thin rectangular plates (Reinssler-Mindlin), deflection of thin circular plates, large deflection of thin circular plates (extensible plates, inextensible plates), deflection of thick circular plates.

CE 608 Optimization Definition, Objective Function, constraints, Problem formulation, linear programming, Graphical Method, Simplex Method, Transportation Problem, Assignment problem, Queuing theory and Non-linear optimization.


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Ph.D. Courses; Transportation Engineering


Sem

este

r

3 3 Advanced Asphalt Pavement Materials (I)

CE 609


CE 521

3 3 Advanced Traffic Engineering CE 522

3 3 Advanced Railway Engineering CE 523


13 13 Total

3 3 Advanced Geometric Design of Highway

CE 613

2nd

Sem

este

r 3 3 Advanced Highway Drainage CE 525

3 3 Advanced Transportation Planning CE 526

3 3 Advanced Asphalt Pavement Materials (II)

CE 616


13 13 Total

CE 609 and CE 616 Advanced Asphaltic Pavement Materials

Asphalt concrete row materials, Types, Properties, and Testing method, Local specification requirements, Mix Design Methods, Marshall Hveem and superpave, Job Mix Formula preparation. Asphalt Concrete Rhology, Maxwell Model, Kelvin Method and Bnrger Model. Test for Performance Prediction of Asphalt concrete, Rutting Prediction, Fatigue Prediction, Low Temperature Cracking and Moisture Damage evaluation.

CE 613 Advanced Geometric Design

Introduction and Terminology, Highway Classification System (AASHTO System, Local System), Design Control and Critical, Design Elements (Sight Distance, Stopping, Decision and Passing, Vertical Alignment, Horizontal Alignment), Cross Section Elements (AASHTO and Local Requirements), Intersection (Signalized and Priority), Roundabout, Interchange (cloverleaf, Diamond and Trumpet).


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Ph. D. Courses; Construction Materials


Sem

este

r

3 3 Advanced Composite Materials (I) CE 617

3 3 Selected Topics of Advanced Concrete Technology (I)

CE 618

3 3 Advanced Ceramic Technology CE 619


CE 521


13 13 Total

3 3 Advanced Composite Materials (II) CE 621

2nd

Sem

este

r

3 3 Selected Topics of Advanced Concrete Technology (II)

CE 622

3 3 Durability of Concrete in Tunnel dams

CE 623

3 3 Operation Research CE 624


13 13 Total

CE 617 Composite Materials (I) Composite material (Properties and Applications), Theories in Campsite materials, Design of slabs, Types of Fibers (Natural and Artificial), High performance concrete. CE 618 Selected Topics of Advanced Concrete Technology (I) Mechanical Strength of Cement gel, Heat of Hydration Cement, Volume of Products of Hydration, Structure of Hydrated Cement, Selected Topics of researches. CE 621 Composite Materials (II) Ferocement (Properties and Applications), design of Ferocement, Caternary, Channels, Domes, Folded plate, Cathodic protection, Polymers (Properties and Applications).


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CE 622 Selected Topics of Advanced Concrete Technology (II) Mix Design (ACI Method, British Method), Sulphate and Chloride Attaches, High Performance Concrete, Light Weight Concrete (Mix Design of Light Weight Concrete), Shrinkage and Creep of Hardened Concrete, Selected Topics of researches. CE 623 Durability of Concrete in Tunnel of Dams Introduction, Definitions (durability, performance and weathering; and relationship among them), The basic causal factor of deterioration of concrete, the construction disasters with point of view to dam failure, How to quantify the durability problems, How to measure the degree of durability, Tunnels in dams, acidic groundwater and its effect on concrete of tunnel in dam, the influence of H2S gas on plain and reinforced concrete of tunnels in dams; and the remedies for this problem, the tests of durability of concrete, durability of concrete construction, durability requirements of concrete in codes: Iraqi, BS8110, and ASI-318-2008, the specification of durability of concrete exposed to groundwater; DIN 4030, methods to repair concrete in tunnels of dams exposed to chemical attacks.

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