Email : uot [email protected] /dep ... · 1. Materials engineer has selected the appropriate engineering materials for special use (mechanical, electrical, electronic, chemical

Republic of IRAQ

Ministry of Higher Education &

Scientific Research

University of Technology

: Web sitematerials-dep/org.uotiq.wwwcom .yahoo@materials_otu :Email

1

Head of department speech

Material Engineering Department (Collage) is one of the

important engineering departments where the Iraqi industry is

needed. So it was found to require engineering elements where its

duties to solve many special problems of the materials which are:

1. Determine the construction and chemical structures of different engineering materials

(metals, ceramic, polymers and composite materials).

2. Studying the mechanicals properties of these materials, e.g. (tensile strength, compressive

strength, creep strength, etc.) and the physical properties (density, expansion coefficient,

thermal conductivity, electrical conductivity… etc.) and finding the different means like

casting or heat treatment or reinforcement by forming etc. to improve these properties.

3. Study the behavior of different materials against chemical corrosion by acids or pollution

waters or sea water... etc. or mechanical wear and erosion and finding the different means to

improve the engineering performance of these materials.

4. Selecting and design the appropriate engineering material for special application by using

best manufacturing technology to obtain a product with best performance and lowest cost

5. Rehabilitation and recycling the worn and damaged materials to protect environment and row

Materials sources.

From the above, the materials engineer is a comprehensive engineer. Ready to work and renders

engineering services in industirial, electrical, petrol, health, environment, transport facilities. To

prepare qualified material engineer, lecturers have been prepared in all specialists which have a

relation with engineering materials in undergraduates or postgraduates studies. The head of the

department and the teaching members try on department climb to accompany the development in its

specialist field.

We hope to our dear students and the graduated students the lucky, success and satisfy progress to

serve our country, IRAQ, and our people.

Assistant prof.

Dr. Ali. H. ATAIWI

Head of Department.

2

Materials Engineering Department Council

From right to left.

1. Lecturer Laith W. Ismaeel. (Undergraduate reporter)

2. Assit. Prof. Dr. Mohammed S. Hamzah (Administrative assistant of the Department)

3. Assit. Prof. Dr. Ali Hussein Ataiwi. (Head of Department)

4. Assit. Prof. Dr. Fadhil A. Chyad (Scientific assistant of the Department)

5. Assit. Prof. Dr Jwad Khadim Elawi (Lectures representative)

3

Scientific & Administrative assistants

Scientific assistant

Administrative assistant

4

Materials Engineering Department Foundation and Aims

The materials engineering department (equivalent to collage) founded in the University of

Technology on 1999/2000 and the first B.Sc. group was graduated on 2002/2003. The

evening studies founded in the department on 2000/2001.

Materials Engineering Department is the fourth department in the country, where the first

materials engineering department was founded in engineering collage / Babylon University

on 1993/1994 and followed by the materials engineering department in engineering collage /

Mustansirya University on 1998/1999 and in Engineering collage / Basrah University on

1999/2000.

Postgraduate studies have been founded in this department on 2002/2003 in the materials

engineering specialty.

It has reside in the curriculums of the department on 2002/2003 – 2004/2005 term where new

curriculums have been applied through the next years. The innovation of curriculums have

been depended on the European, Americans, Dutch and sedate universities guide, due to the

continuous need to develop the curriculums and to accompany the fast development in this

field.

The future planning of the department embodied in developing the undergraduate and

postgraduate studies as the followings:

1. Undergraduate: originate metallic engineering, ceramic engineering and polymers

engineering.

2. Postgraduate:

A. An origination of postgraduate (Master) in powder metallurgy, composite materials

and glass ceramic technology.

B. An origination of postgraduate (Doctorate) in different engineering material

specialists.

5


The essential aim of the department is to qualify the specialist engineering staff in

materials engineering (metals, polymers, ceramic, and composites) to the national

industry need for this staff.

1. Materials engineer has selected the appropriate engineering materials for special

use (mechanical, electrical, electronic, chemical. etc.) and design the

manufactured product by the mechanical, electrical or civil engineer etc. So the

curriculums units should be directed the graduated engineer in all engineering

materials and their mechanical , chemical and physical properties to decide which

material is the appropriate for special use he can find the alternatives.

2. Actually materials engineering is the only scientific branch in the department.

3. The department has been qualified engineers with Bachelor degree in the

specialist engineering materials to get the Master degree in engineering materials

and extraction, exactly some of the students have been graduated in these two

specialists.

4. The future planning including to develop the department as the followings :

a. Developing the present curriculums to be accompany the scientific

development. The developed curriculums were applied on 2006/2007 in a

new plan.

b. Developing and supplying the laboratory equipments for the following

laboratories:

1- Extruction and Chemical metallurgy lab .

2- Polymers and compositer materials Eng. lab.

3- Fluids and Heat transfer lab.

4- Corrosion lab.

5- Casting and welding metallurgy lab.

6- Metals engineering and heat treatments lab.

7- Strength of materials and manufacturing process lab .

8- Powders metallurgy lab .

9- Computer lab .

6


c. Working in seriously to find the followings Branches in the department:

1- Ceramic engineering and construction materials .

2- Polymers engineering Branch .

3- Metals engineering General materials engineering .

e. Dominated the relationship with the universities and the foreign and Arabic

research centers in the filed engineering materials and to exchange the experience

with them through the following:

1- The cooperative supervision of the thesis and dissertation.

2- The exchange of sending and receiving the lecturers to develop their skills.

3- Sending the first students in training courses to those universities and centers.

4- Exchange the experiences in the developing curriculums field.

7


The main duties of materials engineer are : 1- Identify the construction and chemical structure of different engineering materials ( metals , ceramic , polymers and composites ) . 2- Studying the mechanical properties of these materials ( i-e , tensile strength , compressive strength ,creep strength , fatigue strength etc .) and also physical properties , density ,expansion conductivity etc . ) and finding the different methods as casting or heat treatmens or forming strengthening etc . to enhance these properties to suitable for different applications. 3- Studying the behavior of different materials for chemical corrosion by acides or polluted waters or sea water …. Etc and also mechanical corrosion and finding the different methods to enhance the engineering performance for these materials . 4- Select and design the suitable engineering materials for some application by the best manufacturing Technology to have a beter performanced with low cost . 5- Rehbilitation and recycling the waste materials to maintain the environment and raw resources . From the above , materials engineer is a comprehensive engineer and ready to work and doing the engineering facilities for industry electricity , oil , heat , transportation environment fields ……….. etc .

Undergraduate Studies

8

From right to left

Lecturer Dr. Rana A. Majeed Assit. Prof. Dr. Saad B.H.Farid Assit. Lecturer Raghad I. Abbas Assit Lecturer Majid.H.Abdul majeed Lecturer Dr. Akram R. Jabeur Lecturer Jamal J. Dawood Assit. Lecturer. Sarmad I. Ibrahim Assit Lecturer .Raad.s.Ahmed Hafid Assit. Lecturer. Hashim Sh. Neama Assit. Lecturer. Ali . H. Jwad

Dr . Emad .S.Abdul Karrem Dr. Farhad .M.Othman Assit. Prof. Dr. Alaa.A.Attiya Assit. Lecturer Qahtan.A.Hamed Assit. Prof. Dr. Fadhil Attiya Chyad Lecturer Laith W.Ismaiel Assit. Prof. Dr. Ali.H.Ataiwi Assit. Lecturer Mohameed .K.Alwan Assit. Prof. Dr. Mohmeed.S.Hamzeh Assit. Prof. Dr. Jwad K.Alawi Assit. Prof. Dr . Sahib .M.Saleh Assit. Lecturer. Saad .M.Elea Assit. Prof. Dr . Alaa .H.Ali Assit. Prof. Dr. Waleed A.Hana Assit. Lecturer Sura S. Ahmed


9

Department registration

Internet

Library


10

A- Doctorate Staf Accurate

specialization General

Specialization

Scientific

title

Degree

granter

title Name

Metals eng. Materials

engineering

Professor Germany Chief of

University

Dr.Kahtan. K-Al-Khazriji

-Heat treatments

- Metallurgy Mechanical Engineering

Assist.

Professor

France Head of Department

Dr.Ali .H.Ataiwi

Advanced Ceramic Industrial

Technology

Assist.prof. England Ass.of the head

deportment

Dr. Fadhil A. Chyad

Powder metallurgy Mechanical Engineering

Assist.prof. Al-Rasheed

college

Ass.of the head

deportment Dr. Mohammed

.S.Hamzeh

Refectories and

Ceramics

Chemical

Engineering

Professor Germany Teaching staff Dr.Mohammed H. Olewi

Diffusion Metals science Assist.prof. France Teaching staff Dr.Sahib.M.Al-Safar

Composite material Materials science Assist.prof. Baghdad Teaching staff Dr.Sehama .E.Saleh

Design Mechanical Engineering

Assist prof. Al-Rushed

college

Teaching staff Dr.Jwad khadim Elawi

Powder Metallurgy Metal and

production engineering

Assist.prof. Univ. of

Technology

Department

Council Dr. Waleed A. Hanna

Forming/ production Mechanical Engineering

Lecturer Univ. of

Technology Teaching staff Dr.Ala.H.Ali

Materials Materials Eng. Assist.prof. Univ. of

Technology

Teaching staff Dr. Ala A. Attiya

Steam Turbines

Designs

Mechanical

Engineering

Lecturer Univ. of

Technology

Teaching Staff Dr. Laith K. Abbas

Industrial Units Chemical

Engineering

Lecturer Univ. of

Technology

Teaching staff Dr. Kadhim M. Shebeb

Coating Material

Science

Lecturer Univ. of

Technology

Teaching Staff Dr. Ala Ala Al.Deen

Manufacturing ,

Automation, Casting

Mechanical Engineering

Lecturer Baghdad Teaching staff Dr. Farhad M. Othman

Material Physical Physical

Science

Lecturer Baghdad Teaching staff Dr. Saad B. Hasoon

Heat transfer Chemical Eng. Lecturer Baghdad Teaching staff Dr. Ali H. Jwad

Superconductivity

materials

Applied

Physics

Lecturer Baghdad Teaching staff Dr.Akram R. Jabeur

Smart Materials Metals and

production

Lecturer Univ. of

Technology

Teaching staff Dr. Emad S. Abdul-

Kareem

Heat treatments Metal Eng. Lecturer Univ. of

Technology Teaching staff Dr. Abbas K. Hussein

Physical Chemistry Chemistry

Science

Lecturer Baghdad

Univ.

Teaching staff Dr. Rana A. Majeed

Heat treatments Material Science Lecturer Univ. of

Technology

Teaching staff Dr. Abd AlKhalaq F.

Hamood

Molecular and solid

state

Physics Lecturer Baghdad

Univ.

Teaching staff Dr Aseel B. Abd – Al -

Hussein

Chemical Metallurgy Chemical Eng. Lecturer Univ. of Technology

Teaching staff Dr. Mohammed Abdul-Hussein


11

Casting & Composite

Metal Eng. Lecturer Univ. of

Technology

Teaching staff Dr.Usama S. Mohammad

B- Masters staff

Name Title Degree

Graneter

Scientific

Title

General

Specialization

Accurate Specialization

Niveen J. Abdul-Qader Teaching

member Staff

Univ. of

Technology

Lecturer Applied Sciences Material Sciences

Laith W. Ismaeel Undergraduate

reporter

Univ. of

Technology

Lecturer Mechanical Eng. Power

Mohanad N. Jawad Teaching Staff Univ. of

Technology

Assist. Lecturer Materials Eng. Extraction

Eng.

Payman S. Ahmed Ph.D. Student Univ. of Technology

Assist. Lecturer Materials Eng. Powder technology

Nahidh M. Ali Ph.D. Student Univ. of

Technology

Assist. Lecturer Mechanical Eng. Fluids dynamic

Eyad K. Hassan Ph.D. Student Baghdad

Univ.

Assist. Lecturer Mechanical Eng. Refractories

Ahmed M. Hassan Ph.D. Student Univ. of

Technology

Assist. Lecturer Metal Eng. Surface Eng.

Arwa Faraj Ph.D. Student Univ. of

Technology

Assist. Lecturer Production Eng. Repeating loads

failure

Mohammed I. Khargan Ph.D. Student Univ. of

Technology

Assist. Lecturer Mechanical Eng. Planes - Design

Hussein J. Hussein Ph.D. Student Univ. of

Technology

Assist. Lecturer Material Eng. Composites

materials

Raad S. Ahmed Teaching

member Staff

Univ. of

Technology

Assist. Lecturer Metal Eng. Casing / CAD

Khalid Kh. Abbas Heed of

registration

Univ. of

Technology

Assist. Lecturer Chemical Eng Industrial units

Ahmed A. Zayn Al-

Albdeen

Teaching

member Staff

Univ. of

Technology

Assist. Lecturer Metal Eng. Fatigue and heat

treatment

Sura S. Ahmed Teaching

member Staff

Baghdad

Univ.

Assist. Lecturer Physical Science Composite

materials

Jamal J. Dawood Teaching

member Staff

Rasheed

Collage

Assist. Lecturer General

Mechanical Eng.

Production casting

Hana A. Smech Teaching

member Staff

Univ. of

Technology

Assist. Lecturer Material Physics Metal Corrosion

Ragad I. Abbas Teaching

member staff

Baghdad

Univ.

Assist. Lecturer Applied Sciences Material Sciences

Mervet M. Hanoss Teaching

member Staff

Univ. of

Technology

Assist. Lecturer Material Physics Metallurgy

Meena F. Khudayer Teaching

member Staff

Univ. of

Technology

Assist. Lecturer Material Physics Thin Films

Hend B. Ali Teaching Staff Univ. of Technology

Assist. Lecturer Production and Metals

Industrial Eng.

Wijdan D. Addul-Jaleel Teaching Staff Univ. of

Technology

Assist. Lecturer Architectural Eng. Theory of modern

building

Hashim Sh. Neama Teaching Staff Baghdad

Univ.

Assist. Lecturer Nuclear Eng. Explosive Welding

Majid H. Abdul-Majeed Study Staff Univ. of

Technology

Assist. Lecturer Mechanical Eng. Power

Sarmad I. Ibrahim Teaching Staff Univ. of

Technology

Assist. Lecturer Materials Eng. Composite

materials

Aseel Mahmood Abdulla Scientific

promotion

Univ. of

Technology


materials


12

committee

Lamis A. Elia Teaching Staff Univ. of

Technology


materials

Ahmed H. Ali Teaching Staff Univ. of

Technology


materials

Saad M. Elea Head of lab. Univ. of

Technology


materials

Manar A. Najeem

Teaching Staff Univ. of

Technology


materials

Basmah H. Mohammed

Teaching Staff Univ. of

Technology


materials

Mohammad K. Alwan Teaching Staff Baghdad

Univ.

Assist. Lecturer Mechanical Eng. Designs

Qahtan A. Hamad Teaching Staff Univ. of

Technology


materials

Hussein A. Jaber Teaching Staff Univ. of

Technology

Assist. Lecturer Materials Eng. Advanced ceramic

Ammar Mousa Teaching Staff Baghdad Univ.

Assist. Lecturer

Ammar R. Hassan Teaching Staff Univ. of

Technology

Assist. Lecturer Materials Eng. Materials Eng.

Rabab A.Abdul-Raheem Teaching Staff Univ. of

Technology

Assist. Lecturer Materials Eng. Materials Eng.

Ruaa .Y.Hamodi Teaching Staff Univ. of

Technology

Assist. Lecturer Equpment Eng. Applied

Machamical


13

C. Engineers and Technicians

Name Title Degree Graneter Scientific

Title

Grand Special

Nasser Abdul-Hussein

(MSc student)

BSc. Univ. of Technology Assist.

Engineer

Materials Eng.

Ahmed A. Hashoosh

(MSc student)

BSc Univ. of Technology Assist.

Engineer

Materials Eng.

Ali K. Mahmood

(MSc student)

BSc Al-Rasheed Collage Chief

Engineer

Production and Metals Eng.

Abeer F. Abbas

(MSc student)

BSc Univ. of Technology Assist.

Engineer

Materials Eng.

Sanan S. Hamid (MSc student)

BSc Univ. of Technology Assist. Engineer

Materials Eng.

Hyder B. Ali

(MSc student)

BSc Al- Rafedeen

College

Assist.

Researcher

Processes research

Rawnaq S. Mahdi

BSc Univ. of Technology Engineer Building Eng.

May T. Basher

(MSc student)

BSc. Univ. of Technology Researcher Industrial management

Rawa Abdul-Raheem BSc. Univ. of Technology Assist.

Engineer

Materials Eng.

Sattar I. Mousa BSc. Univ. of Technology Engineer Materials Eng.

Dalia R. Abdulla BSc. Univ. of Technology Assist.

Engineer

Production Eng.

Saher H. Ahmed BSc. Univ. of Technology Engineer Mechanical and Equipments

Eng.

Waleed A. Jawad BSc. Baghdad Univ. Assist.

Engineer

Chemical Eng.

Mohammed M. Jabbar BSc. Univ. of Technology Assist.

Engineer

Production Eng.

Ali K. Ahmed BSc. College of

Electrical & Electronic

Techniques

Assist.

Engineer

Computer Techniques Eng.

Dalya M. Jomaa BSc. Univ. of Technology

Assist.

Engineer

Materials Eng.

Marwa A. Abbas BSc. Technical

College/Baghdad

Assist.

Engineer

Materials Eng.

Samar Q. Saadon BSc. Univ. of Technology

Ass. Engineer

Computer Eng.

Ali A. Hassan BSc. Baghdad Univ.

Assist.

Statics

Statics

Alaa .S.Ghadar BSc . Univ. of Technology

Senior.

Engineer

Materials Eng.

Noor .S. Mahdi BSc . Univ. of Technology

Assist.

Engineer

Materials Eng

Bashar .R.Younis BSc . Univ. of Technology Engineer Production and Metal

Alaa.J.Mohamed BSc . Atr College

Chief

Technsion

Designe

Zuhal .A.Hameed BSc . Univ. of Basrah

Chief

Engineer

Mechanical Eng

Zahraa.F.Chyad BSc . Univ. of Technology

Assist.

Engineer

Chemical Eng

Ishraq .A.Kadhim BSc . Univ. of Technology

Assist.

Engineer

Materials Eng.

Karam .H. Abid Diplom

inst Technical tech

Technisim Electricity

Awatef G.Kromy Diploma Univ. of Technology


14

D- Adminstrative staff

Name Administrative position Degree Title

Hussein M. Hamood (manager)

Senior Manager BSc Senior Manager

Ali H. Zahraw Library MSc Senior Manager

Ahmed R. Jassim Conclusion manager BSc. Assist. Manager

Hussain A. khudeer Conclusion BSc. Assist. Accountant

Eman K. Hassan Internet BSc. Assist. Manager

Rasha S. Mahdi Secretary of Scientific

Ass.

BSc. Assist. Accountant

Ansam Mahdi Smen Secretary of Scientific

Ass.

BSc. Assist. Accountant

Saja A. Akosh Counting. BSc. Cheef libraryes

Kawthar N. Mahdi Library Diploma Counting

Abd Al-Kareem Information Intermediate school Major literal

Imad K. Ibrahim Registration Dep. Intermediate school Clerk

Robak A. Ali Legalistic manager BSc. Assist. jurist

Serab F. Hana Secretary of Ass. Diploma Assist. Accountant

Jalal N. Hamza Conclusion unit Diploma Assist. Accountant

Sana G Elea Department secretary Secondary school Assist. Accountant

Ahmed A. Ahmed Stores Diploma Assist. Tech.

Shaymaa Q. Mohammad Department secretary Diploma Clerk

Alyaa H. Alwan Registration Diploma Clerk

Fatemah N. Shehab Secretary of Ass. Secondary school Clerk

Zena T. Yassen Registration Dep. Secondary school Clerk

Nebras J. Khudair Secretary of Scientific

Ass.

Intermediate school Major literal

Suher Khudair Registration Ass Secondary school Senior typist

Inaam J. Mohammed Management Bareu Intermediate school Primary worker

Sundus M. Hanoss Secretary Scientific Ass. Intermediate school Senior worker

Ibrahim H. Elwei ---------- Primary school Postmen

Mohaned A. Mohammed ----------- Primary school Worker

Ibtisam H. Younis ------------ ----------- Assist. worker

Mutasher A. Chafat ----------- ------------ Assist. worker

Omar S. Ibrahem Maintenance Industrial secondary

school

Assist. literal

Muzher J. Twiah Cleaner ----------- Assist. literal

Salyma F. Lafta Cleaner ----------- Assist. literal


15

Materials Strength Laboratory

Computer Laboratory

Corrosion Laboratory

Powders Laboratory

Casting Laboratory


16

Chemical Metallurgy Laboratory Engineering Drawing

Tensile Test Equipment Heat Transfer Laboratory


17

Present curriculums:

1) First Class

Code Substance

Week hours

1st term 2nd

term Units

Theory Exp Dis Theory exp Dis

Hmo 111 Mathematics I 3 - 1 3 - 1 6

Hmo 112 Engineering Mechanic 2 - 1 2 - 1 4

Hmo 113 Mechanical and Eng. Drawing - 6 - - 6 - 4

Hmo 114 Computer Science Fundamentals 2 2 - 2 2 - 4

Hmo 115 Metallic Materials Eng.

Fundamentals 2 1 - 2 1 - 5

Hmo 116 Non-Metallic Materials Eng.

Fundamental 2 1 - 2 1 - 5

Hmo 117 Factories - 6 - - 6 - 4

Hmo 118 Scientific English Lang. 2 - - 2 - - 4

Hmo 119 Human Rights 1 - - 1 - - 4

Total

14 16 2 14 16 2 38

2) Second Class

Code Substance Week hours

1st term 2nd

term Units


Hmo 121 Mathematics II 2 - 2 2 - 2 4

Hmo 122 Programming 2 2 - 1 2 - 4

Hmo 123 Metallurgy Eng. 2 2 - 2 2 - 6

Hmo 124 Manufacturing Methods I 2 1 - 2 1 - 5

Hmo 125 Heat transfer and Fluids 2 1 1 3 1 1 7

Hmo 126 Strength of Materials 2 1 1 2 1 1 5

Hmo 127 Polymers and Fibers

Engineering 2 1 - 2 1 - 5

Hmo 128 Chemical Metallurgy 2 2 1 2 2 1 5

Hmo 129 Freedom and Democracy 1 - - 1 - - 39

Total 17 9 5 17 9 5 41

Numbers of Hours

Numbers of Hours

Second Term First Term

32 32


18


31 31

3)3rd

class

Code Substance

Week hours

1st term 2nd

term Units


Hmo 311 Numerical and Eng.

Analysis 2 2 1 2 1 1 5

Hmo 312 Phases changes and

heat treatments 2 1 - 2 1 - 5

Hmo 313 Extraction Metallurgy 2 2 - 2 1 - 5

Hmo 314 Powder Metallurgy 2 1 - 2 2 - 5

Hmo 315 Engineering Corrosion 2 1 - 2 1 - 5

Hmo 316 Engineering Materials

test 2 1 - 2 1 - 5

Hmo 317 Engineering Materials

Selection 2 - - 2 - - 4

Hmo 318 Welding metallurgy 2 1 - 2 1 1 5

Hmo 314 Manufacturing

Methods II 2 1 1 2 1 1 5

Total Processes 18 8 3 18 8 3 44

Numbers of Hours


29 29

4) 4th class

Co

de

Subject

Weekly hours

Un

its 1st

term 2nd term

Theory Exp Dis Theory Exp Dis

411 Industrial Eng. and Quality Control. 2 - 1 2 - 1 4

412 Eng. of Composite Materials. 2 1 1 2 1 1 5

413 Eng. of Ceramics and Refractories. 3 1 - 3 1 - 7

414 Surface Eng. 2 1 - 2 1 - 5

415 Electromagnetic Materials. 2 - 2 2 - 2 4


19

416 Failure Analyses of Materials. 2 1 - 2 1 - 5

417 Project. 1 3 - 1 3 - 4

Total 14 7 3 14 7 3 34

a)First Class

No. of

Week

Subject

1st

2nd

Cartesian Coordination, Lines (slope and equations). Distance, formula,

intervals, in equations.

3rd Functions (domains, range, symmetry, even and odd functions, shifts)

4th

5th

Special functions (Compositions functions, function defined in pieces, sign up

functions, integer-valued functions, absolute value functions).

6th

7th

Trigonometric Functions: (types, trigonometric relations, identities, domain,

range, graphs)

8th

9th

Sections of a cone: (circle, parabola, ellipse, hyperbolic)

10th

Limits (Including L Hospitals Rule for Limits) continuous and discontinuous

functions and their theorems.

11th

12th

Derivative: rules of derivatives, higher order derivatives, chain rule implicit

differentiation, differentials derivatives of trigonometric functions, parametric

equations

13th

Newton – Raphson Methods to find the roots of nonlinear algebraic equations.

14th

15th

Application of derivatives: maximum and minimum and the mean value

theorem, critical and inflection points, curves, sketching with first and second

order derivatives, graphing rational functions, asymptotes.

16th Determinations and solving linear system of algebraic equations by Cramer's

rule.

Numbers of Hours


25 25

Mathematics (I)


20

17th

18th

19th

Integration, definite and indefinite integration, rules for definite integration,

integration formulas.

20th

21st

22nd

Transcendental functions, inverse function and their derivatives Lnx, e

x, log

x a

x,

indeterminate forms and L Hopitals rule, the inverse trigonometric functions

and their derivatives, related integrals, hyperbolic functions.

23rd

24th

25th

Techniques of integration, methods of integration, integrals tables, improper

integrals.

26th

27th

Application of definite integrals, Area, Volumes, Surface area, and length of the

carve.

28th

Polar coordinates (definition and Cartesian versus polar coordinates, graphs of

polar equation.

29th

30th

Complex number: Cartesian complex number, complex plane, Arithmetical

operations and properties, complex conjugate numbers, polar form of complex

number, Exponential form of complex number DeMoivere's theorem,

Inequalities.

No. of

Week

Subject

1st

2nd

3rd

4th

5th

6th

7th

8th

9th

Static

Force, moments and couples

- Forces and types of forces (in 2D and 3D)

- Moments

- Couples

10th

11th

12th

13th

Resultants in two and three dimension

Engineering Mechanic


21

14th

15ht

16th

17th

Equilibrium in two and three dimension

18th

19th

20th

Centroide

21st

22nd

23rd

24th

25th

26th

27th

28th

29th

30th

Moments of inertia

Dynamics

- Kinematics

- Linear motion (Displacement, velocity and acceleration

relationship)

- Projectiles

- Kinetics

- Forces, mass and acceleration

No. of

Week

Subject

1st Using (T) square, triangles, French curves & engineering pencils.

2nd Drawing continues, hidden, center lines.

3rd Arrangement of engineering drawing paper and information table.

4th

Drawing a perpendicular line which divides a line, drawing a pentagon in a

circle.

5th

Drawing a polygon, drawing a polygon inside a circle, Drawing a polygon

outside a circle.

6th Drawing an arc contacts two crossed lines, drawing an arc contacts another

arc & a line.

7th Elliptic drawing.

8th Isometric Drawing

Mechanical and Engineering

Drawing


22




12th Projection theory.

13th Multi projection system.

14th Finding lost projection.




18th Sectioning operations.



21st Sectioning operations.

22nd Dimensioning

23rd Assembly / screw& nuts.

24th Assembly / weld.

25th Assembly / Pins.

26th Clearances

27th Clearances

28th Disassembly

29th Disassembly

30th Disassembly

No. of

Week

Subject

1st Computer compositions, Compute Generation.

2nd

3th

Operation System

1- Types of operation system, Desktop, My computer.

2- File creating, file management (cut, copy, paste, delete).

Computer Science

Fundamentals


23

4th 3- Start Menu.

5th

6th

7th

8th

9th

Microsoft Excel

1- Introduction to the program.

2- Mathematical function.

3- Engineering function.

4- Charts.

5- Equation solving.

10th

11th

12th

13th

14th

15th

16th

17th

18th

19th

Autocad

1- Introduction to the program.

2- Coordinators.

3- Screen zone.

4- Draw orders.

5- Draw orders.

6- Modify orders.

7- Modify orders.

8- Line type.

9- Dimenation orders.

10- Engineering Drawing Application.

21st

22nd

23rd

24th

25th

26th

27th

28th

29th

30th

Programming introduction and Basic Larg . programing

1- Alugram

2- Flow chart

3- Basic concept

4- Program orders (Edit, Run, Option, Search).

5- Input & output

6- Constant & Variables

7- Mathematical Operation.

8- If then & if then Else statement.

9- Read – Data – Loops.

10- Arrays.

11- Engineering applications.

No.of

Week

Subject

1st Engineering Materials

Principles of Metallic

Materials Engineering


24

2nd Introduction

Classification

Basic properties

3rd

4th

5th

Atomic Structure of materials

*Structure of atom

* Quantum numbers.

* Periodic table

*Atomic bonds

6th

7th

8th

Metallic crystal structure

*Crystalline & non-crystalline materials

*Unit cell

*Crystal system

*Crystallographic directions & planes

9th

10th

11th

Ferrous Metals and alloys

*Pig iron (types, properties & uses of each type).

*Pure iron (types, properties & uses of each type).

*Wrought iron (types, properties & uses of each type).

*Steel (types, properties & uses of each type).

*Cast iron (types, properties & uses of each type).

12th

13th

14th

15th

16th

17th

18th

19th

20th

Non – ferrous metal & alloys

*Light metals (Al, Mg, Ti) and their alloys, Types, properties & uses of

each alloy.

* Heavy Metals (Cu, Ni) and their alloys, Types, properties & uses of

each alloy.

* White Metals (Pb, Sn, Zn) and their alloys, Types, properties & uses of

each alloy.

*Precios Metals (Au, Ag, Pt) and their alloys, Types, properties & uses of

each alloy.

* Rare Metals (Be, Zr, Hf, Ta) and their alloys, Types, properties & uses

of each alloy.

*Refectories metals (W, Mo, Co) and their alloys, Types, properties and

their uses of each type.

*Radioactive Metals (U, Ra, Rh) and their alloys, Types, properties &

uses of each alloy.

*Other Metals (V, B) properties & uses.

21st

22nd

Electrical properties of materials

*Electrical conductivity

*Types of carries

* Conductors, semiconductors & Insulators.

*Properties & uses of semiconductors.

23rd

24th

Magnetic properties of materials

*permeability

*Important magnetic properties

*Metallic magnetic materials

25th

26th

Thermal properties of materials

*Heat capacity


25

*Thermal conductivity

*Thermal expansion

27th

28th

Optical properties of material

*Emission

*Absorption

*Reflection & Refraction

*Transmission

29th

30th

Specifications and designation of metals

No.of

Week

Subject

1st

2nd

3rd

Polymer

Introduction

Classification

Structure – property relationships

Applications

4th

5th

6th

Ceramics

Introduction

Classification


Applications

7th

8th

9th

Composite

Introduction

Classification


Applications

10th

11th

12th

Glass

Introduction

Classification


Applications

13th

14th

15th

Wood

Introduction

Classification


Applications

Principles of Non Metallic

Materials Engineering


26

16th

17th

18th

19th

20th

21st

Paper

Introduction

Classification


Applications

22nd

23rd

24th

Cement and Concrete

Introduction

Classification


Applications

25th

26th

27th

Rocks and Stone

Introduction

Classification


Applications

28th

29th

30th

Oils and Greases

Introduction

Classification


Applications

No.of

Week

Subject

1st

2nd

1- the nature of right and the quiddiltes human right .

a- the advantages of natural low.

b- the natural right .

Human Rights


27

3rd

4th

5th

6th

7th

8th

9th

10th

11th

2- the principle and importance of human rights:

a- the human rights in Islamic legislation in Quran,Suna, The relation

between rights and duties in Islamic legislation.

b- The principles of human rights in international law.

1-the sources, natural law, religion , custum.

2-Adjoining rights for natural human being.

3- The exchange responsibilities as a law entity .

c-religion freedom the content of civil right :

life and freedom right,personal freedom right ,owing right ,contracer

right, expression right, religion freedom right ,coinscience freedom,the

socityes foundation right, family formation right, law equal right ,

citizen right guarntee.

12th

13th

14th

15th

16th

3- the right of special social groups example:

the parent right, relatives and sons right, women rights, nabour right.

17th

18th

19th

20th

21st

22nd

4-the human right ,time and place.

a- the right of messeuger

b- the right of messeuger and diplomatic represitative.

c-The right of transportation and residence.

d-The human right in war time (citizen + solider)

23rd

24th

25th

26th

27th

28th

29th

30th

5-People and groups right

The human community continuity

a-The coparative right to maintain

b- The continuously of human cominty

c- Order with kindness and disorder with abominable .

d- Cooprative and reformation .

e- Discarding the separation due to race , religion , spcies , colour ,

political belief or sectarian .

B. Second Class

Mathematics II


28

No. of

Week

Subject

1st

2nd

3rd

4th

5th

Vectors

1-1 Introduction

1-2 Vector in plane and space

1-3 Dot product of two vectors

1-4 Cross product of two vectors

1-5 Equation of lines

1-6 Equation of planes

1-7 Angle between two plans.

1-8 Distance between a point and a plane

6th

7th

8th

9th

Partial Derivatives

2-1 Function of several variables

2-2 Chain rule

2-3 Total differential

2-4 Gradient and directional derivative

2-5 Tangent plane and normal line

2-6 Maxim and minim of function of two independent variables

2-7 Maximum and minim of function of several indendent variables

(Lagrange multipliers)

10th

11th

12th

13th

14th

15th

Ordinary Differential Equation

3-1 Introduction

3-2 Direct integration

3-3 First order, Linear and nonlinear differential equation

3-3-1 Variable separable

3-3-2 Linear

3-3-2 Nonlinear

3-3-4 Exact differential equation

3-4 First order, higher degree differential equation

3-5 Second order homogeneous equation with constant coefficient

3-6 Linear second order nonhomogeneous equation with constant

coefficient

3-6-1 Solution by method of undetermined coefficients

3-6-2 Solution by variation of parameters

3-7 Linear higher order

3-8 Applications of ordinary differential equation.

16th

17th

18th

19th

Multiple Integrals

4-1 Line integral and work

4-2 Double integrals

4-2-1 Double integrals bounded by two or more functions

4-2-2 Sketch, reverse the order of integration, and evaluation


29

4-2-3 Polar coordinates

4-3 Physical application of double integrals

4-4 Triple integrals (volume)

4-4-1 Cartesian coordinates

4-4-2 Cylindrical coordinates

4-4-3 Spherical coordinates

4-5 Physical application of triple integrals

20th

21st

22nd

23rd

24th

Infinite series

5-1 Sequences

5-2 Infinite series

5-3 Types of Infinite series

5-4 Methods of testing the convergence

5-5 Power series for function

5-6 Absolute convergence

5-7 Alternating series

5-8 Integration and differentiation by infinite series

25th

26th

27th

28th

29th

30th

Function of complex variable

6-1 Complex variable function

6-2 Elementary functions of (Z)

6-2-1 Root function

6-2-2 Exponential function

6-2-3 Logarithmic function

6-2-4 Trigonometric and hyperbolic functions

6-3 Carves and region of complex variable

6-4Analytic function

6-5 Conjugate harmonic functions

6-6 Integration in the complex plane

6-6-1 Line integral

6-6-2 Integral of integer power

6-6-3 Cauchy's theorem

6-6-4 Cauchy's integral formula

No. of

Week

Subject

1st *Visual Basic

Programming


30

*Starting with visual basic

*Explain projects window

-Menu bar

-Tool bar

-Form

2nd -Control tool box

-Project explorer

-Properties window

-Form layout window

3rd *Design project form using control box

*Code page

*Input box

*Message box

4th *Numerical and string constant

*data Types

Boolean – String – Double – Sigle- Long – Integer – Byte

*Variables

5th *Assignment Statement

*Declaration on variable statement

*Arithmetic and logic operation

*Arithmetic relation

6th *Comment statement

*Print

7th *Tan – Ln – Log – Exp –Cos – Sin – Val – Abs

8th *Tab – spc – mid – left – Right

9th *Go to

*Conditional and make Decision statement:

-If condition then command

10th

11th

If condition then

Commands

End if

12th

13th

If condition then

Commands

Else

Commands

End if

14th

15th

*Case statement

16th

* Examination

17th

18th

*Loop statement

-For ……. Next


31

19th

20th

-Do while ……..Loop

21st *Nested loop statement

22nd

23rd

*One dimenational array

24th

25th

Two dimenational array

26th

27th

*Sequential files

28th

29th

*Random files

30th *Examination

No. of

Week

Subject

1st

2nd

Diagrams, phases and equilibrium

3rd Types of equilibrium diagrams

4th Phase rule

5th

6th

Phase diagrams of completely soluble metals in liquid and solid state

7th

8th

Phase diagrams of completely soluble metals in liquid state and insoluble in

solid state.

9th

10th

Phase diagrams of completely soluble metals in liquid state and have limited

solubility in solid state.

11th

12th

Phase diagrams of intermetallic compounds.

13th

14th

Pure iron and carbon steel (Phase diagrams).

15th Types of carbon steel. Its properties and applications

16th

17th

Cast iron its types (white, gray, malleable ductile).

Engineering Metallurgy


32

18th Properties and application of cast iron.

19th Alloy steel.

20th Effect of alloying element, on the carbon steel and phase diagram.

21st

22nd

Types of alloy steel

23rd Properties and applications of alloy steel.

24th Aluminum and its alloys (Properties and applications).

25th Copper and its alloys (Properties and applications).

26th Nickel and its alloys (Properties and applications).

27th Diffusion in solid state.

28th Fik's 1st

law and applications.

29th Fik's 2nd

law and applications.

30th Diffusion coefficient (self, grain boundaries, surface, Kirkendalle method).

No. of

Week

Subject

1st

2nd

3rd

4th

-Metal cutting and machining tools.

-Tool types, its structure and specifications.

-Tool life and its efficiency.

-Tool geometry.

-Cutting fluids.

-Chip formation.

5th Measuring tools.

6th

7th

8th

9th

-Normal machining process.

-Shaping , turning, milling, grinding, drilling, bending and twisting.

10th

11th

-Non – conventional machining.

-Electro chemical machining (ECM).

-Laser cutting and machining.

Manufacturing process (1)


33

12th

13th

14th

15th

16th

-Normal welding process.

-Arc welding, brazing and soldering, Gas welding, electrical Resistance

welding, Forge welding, cold welding and termite welding.

17th

18th

19th

20th

21 th

22nd

-Modern welding process.

-Diffusion welding, frication welding, butt welding, Explosive welding,

ultrasonic welding, electron beam welding and laser beam welding.

23rd -Sand casting

-sand specification, sand testing.

- Green and dry sand

- Riser and runner system.

-Sand casting defects.

24th

25th

26th

27th

28th

29th

30th

-Manufacturing process

- Plastic Manufacturing process.

-Rubber Manufacturing process.

-Ceramic and glass Manufacturing process.

-Wood and paper Manufacturing process.

-Oil and grease Manufacturing process.

No. of

Week

Subject

1st Thermodynamics

Introduction

1-1 Basic concepts, Definitions, and units.

1-2 Basic substances properties

1-3 Basic laws of perfect gas

1-4 Heat, work and energy relations

1-5 Specific quintiles

Heat transfer and

Fluids


34

2nd

3rd

First law of thermodynamics

2-1 First law of thermodynamics

2-2 Energy forms of thermodynamics

2-3 Steady flow energy equation of open system

2-4 Non- flow energy equation of closed system.

4th

5th

Basic thermodynamics process

3-1 Isochoric process

3-2 Isobaric process

3-3 Isothermal process

3-4 Adiabatic (isentropic) process

3-5 Polytrophic process

6th

7th

Second law of thermodynamics

4-1 Definition

4-2 Heat engine principle

4-3 Thermodynamics reversibility

4-4 Carnot cycle

8th

9th

Fluid

Fluid properties and definitions

1-1 Compressibility

1-2 Viscosity

1-3 Flow patterns

1-3-1 Laminar flow

1-3-2 Turbulent flow

10th Boundary layer

11th

12th

Energy relationships and the Bernoulli equation

13th Reynolds number and flow patterns in pipes and tubes.

14th

Heat transfer

Introduction

15th

16th

17th

18th

19th

20th

21st

Methods of heat transfer (steady – state)

2-1 Conduction one dimenation

2-2 The plane wall

2-3 Radial system – cylinders and spheres

2-4 The overall heat transfer coefficient

2-5 Critical thickness of insulation

2-6 Heat transfer with heat generation

2-7 Conduction – Convection system

2-8 Fins and efficiency.

2-9 Thermal contact resistance


35

22nd

23rd

24th

Unsteady – state conduction

3-1 Introduction

3-2 Lumped heat – capacity system

3-3 Transient heat flow in semi - infinite solid.

25th

26th

27th

28th

Principle of convection

4-1 Convection heat transfer

4-2 Laminar boundary layer heat transfer

4-3 Turbulent boundary layer heat transfer.

4-4 Free convection

29th

30th

By radiation heat transfer

5-1 Introduction

5-2 Physical mechanism

5-3 Radiation properties and radiation law

5-4 Solar radiation

No. of

Week

Subject

1 th Simple Stress and strain

2 th Thermal stresse and strain

3 th Elastic constants

4 th The main stresse and strain.

5 th Strain energy and impact loading

6 th Shear force and bending moment of beam.

7 th Bending stresses in beams.

8 th Shearing stresses in beams

9 th Deflection of beam

10 th Torsion of circular shafts

11 th Deflection of cantilevers

12 th Buckling of struts.

13 th Riveted joints

14 th

15 th

16 th

Welded joints

Strength of Materials


36

17 th Unidirectional fatigue stresses

18 th

19 th

The principle of accumulative fractions to know the age

20 th Fracture mechanics for cracks growth

21 th Static methods for fatigue analysis

22 th Fatigue test methods

23 th Fatigue slow frequency

24 th Stresses concentration

25 th

26 th

Creep, Fatigue and tear stresses

27 th Notch fatigue and Notch wear

28 th Impact

29 th

Wear,Corrosion,The other importance failure types

30 th Deformation

No. of

Week

Subject

1 th ...... 5 th

Molecular structure for polymer, introduction, organic & inorganic

polymer, the properties of chain polymer, copolymer.

6 th .....10 th

Morphology, crystal structure, comparison between crystalline &

amorphous polymer, morphology of polymer material, effect of

deformation on morphology, crystallization (Tg, DTG).

11th

12th

13th

14th

Mechanical & thermal properties, deformation (stress – strain), Elastic

modulei of glassy polymer, viscoelastic polymer (creep & stress

relaxation), Impact performance, friction, heat transition (Tg, DTG),

thermal conductivity for polymer.

15th

16th

17th

18th

Electrical & optical properties, behavior in steady (d.c.) electric field,

behavior in alternating (a.c.) electric field, optical properties, dielectric

constant, dissipation factor and loss factor, also transparency.

Eng. Of polymers and

Fibers


37

19th

20th

21 th

22nd

Chemical properties, solubility, permeability, chemical attack, thermal

stability (Tg, DTG burning rate), biological attack.

23rd

24th

25th

26th

Industrial Technique of polymers and their applications Eng.

Thermoplastic (processing & fabrication), thermostat polymer, elstomer

polymer, cellular polymer, (processing & application), adhesives,

surface coating, fiber, composite and their applications.

27th

28th

29th

30th

Case study, take formal polymer then study the above property &

processing on it with dependence on internet. High temperature

elastomer (Silicon rubber). High temperature resin (Phenolic,

polyester). Fibers (glass fiber, Cellulose).

No. of

Week

Subject

1st

2nd

3rd

4th

Energy balance for metallurgical solution with & without chemical

reaction.

5th

6th

7th

8th

The thermo-chemical relation for metallurgical solution system, clasus,

clasus- claypron, equilibrium constant, types of metallurgical solution,

application.

9th

10th

11th

12th

Chemical kinetic for metallurgical solution system, catalysts,

temperature, concentration, and other effect, application.

13th

14th

15th

16th

Electrochemical relation for metallurgical solution system, e.m.f.

measurement, equilibrium constant, phases, and thermal application.

Chemical Metallurgy


38

17th

18th

19th

20th

21 th

22nd

Mass transfer for metallurgical solution system, one or several phases

by different types, diffusion, adsorption, desoraption in heterogamous

phases, application.

23rd

24th

25th

26th

Case study for formal alloys then study the above application on it with

dependence on Internet.

27th

28th

29th

30th

Fuel – combustion calculation , types of Fuel, calculation of

combustion.


39

No. of

Week

Subject

1st

2nd

1.freedom expression ,human with general freedoms .

Natural freedom, citizen freedom , personal freedom .

3rd

2- life and compulsory .

4th

3- political freedom , National freedom .

5th

4-rights towards country , the difference between freedom and

sovereignty

6th

7th

Concept of democracy

the historical extent of democracy, the civilization country and

democracy in Greek period .

Aflaton and virtuous , Arsto and constitusional

The foundation of democracy in recent period

8th

9th

10th

3- Democracy government

a. Weakness strong point in the democracy government ..

b. The democracy problem

c. The democracy limits .

11th

12th

13th

14th

4- The democracy and sufficiency :

a-Types and methods of pressure groups essence .

b-pressure group and democracy.

15th

16th

17th

18th

5- Democracy consititiuents

a- civil freedom .

b- political freedom .

Freedom and Democracy


40

19th

20th

21st

22 rd

23rd

24th

25th

26th

27th

28th

29th

30th

c-electral college precent .

d-electros authority.

e-the special different theories in electors the relection nature.

f- The direct judgment authority electors .

g- The advantage and disadvantage of direct legistration . k- The minor representation in democrta government .

3rd Class

No. ofWeek SSuubbjjeecctt

1st

Engineering Analysis

Solution of simultaneous linear differential equations by Cramer’s rule.

2nd

Application of differential equations in mechanical systems. 3rd

4th Factorial and Gamma functions.

5th

The Laplace transformation. Solution of linear differential equations with

constant coefficients. Solution of simultaneous linear differential equations. 6th

7th

8th

The algebra of matrices. Determinants (review). 9th

10th Characteristic value problems.

11th

Fourier series and integral. 12th

13th Integration in the complex plane.

14th

Conformal mapping.

Numerical and Eng.

Analysis


41

15th

16th

Bessel functions and Legendre polynomials.

17th

18th

19th

Partial differential equations and boundary value problem.

20th

Numerical Analysis

SSoolluuttiioonn ooff ssiimmuullttaanneeoouuss lliinneeaarr aallggeebbrraaiicc eeqquuaattiioonnss bbyy GGaauussss -- eelliimmiinnaattiioonn

mmeetthhoodd..

21st

Solution of nonlinear system of equations by Newton - Raphson method.

22nd

23rd

Differences and interpolation polynomials.

24th

25th

26th

27th

Numerical differentiation and integration.

28th

Finite difference and solution of ordinary differential equations.

29th

Numerical solution of partial differential equation.

30th Curve fitting.

No. of

Week

Subject

1st First ) Heat treatments of metals and iron alloys

1) Heat treatments of carbon steel

a) Annealing treatments include complete annealing, anneal and cutting,

stress release, hematite granulation,

2nd b) Hardening treatment includes (continuous cooling hardening,

discontinuous cooling hardening, constant transform of austenite temperature,

continuous transfer of austenite heat treatment below zero temperature)

3rd a) Double heat treatment include revision (hardening and annealing)

b) Special heat treatment includes (annealing in constant temperature

martepper, ostamlper)

4th c) Steel surface hardening including carbonization, nitridization,

carbontride, Ionic nitridization steel surface hardening by local heating

(hardening by flam and electrical induction)

Heat treatments


42

5th 2) Heat treatments of iron

a) Heat treatments of grey iron including (stress release, cementite

granulation, cutting and annealing, hardening and revision

6th 3) Heat treatments of white cast including forgein production

C) heat treatments of spherical cast or ductile including (fully annealing,

hardening and revision)

7th 4) Heat treatments of alloying steel

a) Heat treatments of alloying steel type

b) Heat treatment of alloying fast cutting tools steel

8th Secondly) Heat treatments for metals and non ferrous alloys

1) Heat treatments of aluminum alloys

9th 2) Heat treatments of cupper and its alloys

10th 3) Heat treatments of magnesium and alloys

11th 4) Heat treatments of Zinc and its alloys

12th 5) Heat treatments of Tin and its alloys

6) Heat treatments of Nickel and its alloys

13th 7) Heat treatments of Titanium and its alloys

8) Heat treatment of another metals and alloys

14th

15th

9) The relationship of heat treatments and mechanical design

16th 10) Some Scientific applications of heat treatments

1) Heat treatments of hot rolled steel

17th Heat treatments of cold drawing rolled steel

18th 3) Heat treatments of wires

19th 4) Heat treatments of steel castings

20th 5) Heat treatments of forgings

21st 6) Heat treatments of springs

22nd 7) Heat treatments of gears

23rd 8) Heat treatments of cutting tools

24th 9) Heat treatments of measuring equipment

25th 10) Heat treatments of

26th 11) Heat treatments of metal casting molds

27th Fifth Heat treatments of nonmetallic materials

28th

29th

30th

Heat treatments of sinterend carbides resintering, softening and annealing,

hardening, copreciptation hardening, surface hardening, carbonization,

nitridization, cenidation

Extraction metallurgy


43

No. of

Week

Subject

1st Minerals an ores: ores of metals

2nd Chemical and physical properties of metals

3rd Mineral ores evaluation

4th Ores constriction : The Fundamental which control the different methods to

select the minerals ores which included

5th Ore crushing, sieving

6th Girding, classification

7th Gravity weight constriction foaming floating separation

8th Condensation filtration

9th Magnetic and electromagnetic separation

10th 3) Metal extraction methods (heat method)

11th Calcinations, roasting

12th Reduction melting

13th Separating melting

14th Water methods for metals extraction

15th 4) Solvents: soluble method, soluble equipment

16th Separation the metals for holding liquids

17th Metals purification

18th Electrical purification

20th Another methods for metals purification

21st 5) Metals extraction from carbides

22nd Cupper, Nickel

23rd Lead, Zinc… etc

24th Metals extraction from oxides, Iron, sponge iron

25th

26th

Aluminum , tin -etc-

27th 7) Metals extraction from chlorides uranium

28th Thorium -etc-

29th

30th

8) The extraction of expensive metals and gold, silver, plutonium group

Engineering Materials

test


44

No. of

Week

Subject

1st General Introduction, test methods, test advantages, im

2nd .. 5th

Optical test: introduction, nature and properties and light, magnification power,

sample test, fatiage test, roughness test, coating thickmess measurement, the

test of active optical and polarized light materials, materials refective index

measurement, powders practicle size measurement, optical fiber test, the test of

stress and photo elasticity, the measurement of slits widy by

6th… 9th

Pressure and leakage test, introduction, the fundamental of test process,

hydrostatic test, bubble test helluim leak test liquids leakages test, the test by

oil and whitness, precaution should by available

10th …

11th

Transmitted liquids test, introduction, the fundemantel of test process, liquids

types, antisepices, the main law of transmitted liquids test, colored liquids test,

emitted transmitted liquid test, colored liquids test, emitted transmitted liquid

tests

12th…

15th

X ray test: introduction, rays generation, special types, ray properties, rays

absorbtion, material crystallization test, methods of test, density and thickness

test, impreteetion test, frames test and rayes of material characterization,

weldings test, the offering engineering factors in photography, the effect of

important factors in photography, explaining of rayes photograph

16th Xray test: Introduction, rays generation, rays spectrum, the test of minerals

17th…

19th

The measurement of metals thickness by photography, welding test, immersing

pipes test the airport runaway test, clu and corrosion in narrow pipes, layer

analysis and the charactertics of elements and their compound, another test,

precaution

20th….

22nd

Magnetic methods test: Introduction maganetic field generation, magnetic

permentivity test, the limits of magnetic particils use, dry method, we method,

optical method, the factors effecting on result

23rd…

25th

Supersonic waves test: Introduction, the generation of supersonic waves,

imperfective test, thickness test, air void test, pulse sending test, reflected pulse

test, hardness test and passions ratio resonance method, frequency method,

sonic photography method, supersonic wavevs deflections measurement

26th…

27th

IR test: Introduction: ray generation, freeze test, thermal drawing test, heat

finger test, compouned characterization and its test

28th

29th

Electrical Test: Introduction, material classification, resistance test, Insulator

breakdown test, static electrical field method, vortex currents test

30th Another test of material: Laser test, microwaves test, Reader waves test,

No. of

Week

Subject

Engineering Materials

Selection


45

1st Types of engineering material and their properties

2nd The fundamental requirement to take the deision for engineering material

selection

4th

5th

Determining the service and analysis the fauilre reasons

6th Selection and its relation with standard charactriazations and quality control

7th Selection the Materials for strength

8th Selection the materials for strength

9th

10th

Selection the materials to resopmd properties

11th

12th

Selection the materials to respond thougjh properties

13th

14th

Selection the material to respond fatige properties

15th

16th

Selection the materials to respond creep property

17th Selection the materials to respond by temperature resistance property

18th Selection the materials to respond hardness and yield property

19th Selection the materials to respond conversion resistance

20th Selection the material to respond wear resistance

21st The relation between materials and materials fabrication process (Introduction)

22nd The appropriate materials for casting process in all type

23rd

24th

The appropriate materials for powders

25th The fabrication process for the material appropriate (Metlas, ceramics,

polymers..etc)

26th The appropriate materials for joining process

27th Studying cases to select the material (plance and ship structure)

28th Studying cases to select cumbstion engines materieal, power stations, nuclear

reactors

29th Studying cases to select to rockets bodies material, tools and molds

30th Studying cases to select the metals and nonmetals filters materials


46

No. of

Week

Subject

1 st

2 st

Powder Metallurgy fundamentals

3 st / 5 st

Powders production methods .

6 st Powders compaction introduction

7 st / 8 st Powders compaction processes .

9 st The discussion of compaction methods

10 st SS introduction .

11 st The effecting of sintering conduction on the properties of product .

12 st The effecting of sintering conduction on the properties of product .

13 st Powders of multi elements .

14 st The experiment applicational sintering process hot pressing .

15 st Sintered carbides , introduction .

16 st The raw materials for sintered carbides production .

17 st Production of Tungsten hydrides and cobalt oxide .

18 st Production of Tungsten oxide and black carbon .

19 st The main properties of metal powders .

20 st The metals powders production .

21 st The production of metal carbides , thermal , the methods , compact bodies

properties

22 st The methods of manufacturing carbides , product , pressing methods , compact

bodies properties .

23 st The essential of sinting process of carbides , carbides powders sintering ,

titanium carbides , cobalt .

24 st Carbide phases particles .

25 st Effect of atmosphere weather during sinting process , effect sintering conditions

on properties of sintered carbides .

26 st The methods of carbides sintering .

27 st The main properties of sintered carbides .

28 st Heat treatment .

29 st -30 st Treatment of powder metallurgy production .

Powder Metallurgy


47

No. of

Week

Subject

1st The Heat Treatment properties of Ferrous Alloys .

Heat Treatment of Steel .

2nd Heat Treatment of Stainless Steel .

3th

4 th

Heat Treatment of Special Alloys .

5th Heat Treatment of Cast Iron .

6th Heat Treatment of non – Ferrous Alloys .

7th Heat Treatment of Al - Alloys .

8th Heat Treatment of Cu - Alloys .

9th

Heat Treatment of Mg - Alloys .

10th Heat Treatment of Zn - Alloys .

11th

Heat Treatment of Sn - Alloys .

12th Relationshipes Between Heat Treatment Fusion Welding and Casting .

13th

Welding Metallurgy .

14th Carbon Steels .

15th

Low – Medium and High . C – Steels .

16th Low – Medium and High C – Steels .

17th Alloys Steels .

18th Low and Medium

19th Cast Iron .

20th White , Tirey , Nodular and Ylalleable .

21st Brasses .

22nd Bronzes .

23rd

Al - Alloys .

24th Mg - Alloys .

25th Mi - Alloys .

Welding Metallurgy


48

26th Ti Alloys .

27th Other Non – Ferrous Alloys .

28th Precipitation Harder – able Alloys .

29th- 30th

Quality Control of Welding processes .

Forth Class D –

No. of

Week

Subject

1st Industrial engineering definition principals & concepts , production engineering ,

elements of production , steps of production system , the modern system of

manufacturing , types of indus1tries . 2nd

3rd

4th Industrial costs : direct & indirect costs , Break – even – point analysis

The general direction line method

Exponential introduction method 5th

6th

7th Forecasting : types of forecasting , statistical methods for forecasting , an

application of some forecasting methods : moving average & exponential

smoothing 8th

9th

10th Project location selection, machines & workshops layout types , factors affecting

the layout . 11th

12th

13th O.R. : linear programming , the graphical method , the simplex .

14th

15th

Some of production planning methods : Gant chart , PERT method .

16th

17th Quality management & quality control: the meaning of control & quality, quality

elements, quality economics, the quality spiral , the quality circle , quality

assurance & the subsystems , quality tools , the quality role & advantages ,

control charts .

18th

19th

Industrial Engineering and

quality control


49

20st

21nd Maintenance & replacement : maintenance types & activities , economics of

maintenance 22rd

23th

24th Reliability : the role & concept of reliability , reliability elements , factors

affecting reliability , the reliability systems .

25h

27th The productivity : its types , methods to increasing productivity

28th

29 th -30th

Total quality environmental (TQEM): the new concept of green products , green

design , and green manufacturing , waste manufacturing, waste treatment

techniques

No. of

Week

SSuubbjjeecctt

1st Introduction ,Artificial composites Reinforcement Composites , Reinforcement

2nd

3rd

Mechansim , composites Reinforced with large particles , dispersion

Reinforcement , Metals Reinforced by dispersion , Rule of mixture ,Vper and

lower limit

4th

5th

6th

Principals of fibres Reinforcement , The effect of fibre length , the effect of

direction and concentration of fibre , Composites with continous and parallel

fibers , Composites loaded with fibres direction , transvernce loaded ,

Composites with chopped and parallel fibres .

7th

8th

9th

10th

11th

12th

Composites with chopped and parallel fibres in random direction ,the stress-

strain relationshipe , Volume Fraction , Fibres adhesion with matrix , Fibre

phases , Random , Polycrystalline ,Single crystal .

13th

14th

Matrix phase , polymer matrix composite materials ,Theromplastic , non-

thermoplastic elastomers , polymer matrix processing hand lay up over

reinforcement materials mechanical spread on reinforcement materials laminate

forming , resin for forming .

Composite Materials

Engineering


50

15th

16th

Metal matrix composite ,metal matrix composite forming processes , solid state

method ( powders ) , liquid state method (melt) , Ceramic matrix composite

solid state method , hot press , Vapor deposition , Cold forming .

17th

18th

19th

Structural Composites

Laminate Composites , Stresses in laminate composite applications , sandwich

Banels .

20st

Directional eutectic solidications mechanical behavior .

Aplications , Concrete , Cement , Concrete segregation , Concrete mix design ,

Asphalt concrete , concrete properties , pressing strength , machinability ,

moisture temperature , shrinkage , the reinforcement and street of concrete .

- Wood as composite materials sold and soft wood .

21nd

22rd

23th

24th

25 th

26 th

27th

28th

29 th

30th

No. of

Week

Subject

1st Electronic materials: Introduction

Electrical conductivity

Electron mobility

Electrical resistively of metals

2nd Resistively of solid solution

Influence of temperature

Influence of crystal defects and

Impurities

3rd Influence of electromagnetic radiation

4th Superconductivity

Critical temperature

Critical magnetic field

Messiness effect

5th Super conductivity theory

Electronic and Magnetic

Materials


51

Penetration depth

High temperature superconductors

6th Application of superconducting

7th Semiconductors

Crystal properties and growth of semiconductors

8th Energy bands and charge carriers in semiconductors

Effective mass

9th Classification of semiconductors

Intrinsic semiconductors

10th Extrinsic semiconductors

Drift of carriers in electric and magnetic fields

11th Excess carriers in semiconductors

Optical a absorption

Photoconductivity

12th Influence the temperature variation of conductivity and carrier concentration

13th Diffusion of carriers

The hall effect

14th Semiconductor devices

P-n Junctions

15th Forward and reverse . biased Junction

16th Semiconductors application

Detectors

Switching devices

17th Semiconductors in computers

Semiconductors lasers

Electrical properties of polymers

18th Magnetic materials

Classification of magnetic materials

Diamagnetism materials

Paramagnetism materials

19th Ferromagnetism materials

Antiferromagnetism

20th Characteristics that affect magnetic materials

Temperature

Crystal defects

Crystal orientation

21st Magnetic susceptibility

Permeability

Retentivity

Remanence

22d Hystersis

Curie temperature

23rd Magnetic domains

Super paramagnetism

Soft magnetic materials


52

Commercial iron

24th Silicon – iron (Fe – 4% Si)

(Fe- Ni) alloys

25th Ni-Zn-ferrite

Mn- Zn ferrite

Ferrites and garnets

26th Hard magnetic materials

Al-Ni-Co (alnico) alloys

27th High carbon steel (martenisitc)

Tungsten steel (5%W)

Chromium steel (4%Cr)

Cobalt steel (36%Co)

28th Ceramic magnetic materials

Barium ferrite (Ba0. 6 Fe2 O3)

Cobalt rare – earths (Co5) (Sm, Pr )

29th Processing ferrites

30th High frequency applications (( soft ferrites))

Magnetic shielding

No. of

Week

Subject

1st The role of failure prevention analysis in mechanical design.

2nd Modes of mechanical failure.

3rd Elastic and plastic deformation

Heating types, lagging 4th

5th Critical resolved shearing stress for slip and twining.

6th Diffusion creep

7th Fracture.

8th Dislocation theory.

Failure Analysis Materials


53

9th Relationship between stress and strain.

10th Combined stress theories of failure and their use in design.

11th Failure theory comparison in biaxil state of stress.

12th Mohr

,s failure theory .

13th Summary of failure theory evalution

14th Combined stress failure theories as design tools.

15th

16th High – cycle fatigue.

17th Multiaxial fatigue stresses.

18th Concepts of cumulative damage life prediction and fracture control

19th

20th Fracture mechanics approach to crack propagation

21st Use of statistics in fatigue analysis.

22nd Fatigue testing procedures and statistical Interpretation of data

23rd Low – cycle fatigue.

24th

Stress – concentrations

25h

26th

Creep, stress rupture and fatigue

27th Fretting, fretting fatigue and fretting wear.

28th Shock and impact

29th Wear, corrosion and other important failure modes

30th Buckling and Instability.

No. of

Week

Subject

I th

2 th

Coating.

Electroplating theory of electroplating. Electrolyses , metals , substrates , plating

properties , design considerations

3 th

4 th

Other metallic plantings :

Immersion plating, electroless (autocatalic) plating.

Surfaces Engineering


54

5 th

6 th

Conversion coatings :

Oxide coatings, phosphate coatings, chromate coatings

7 th

8 th

Thin film coatings :

PVD , CVD .

9 th Thermal spraying coatings :

Plasma – spraying , flame spraying

10 th

11 th

Organic coatings

12 th Laser surface – alloying clading (mechanical plating )

13 th Sol – Gel coatings .

14 th Enameling.

15 th The main requirements of coatings and their selection (materials and processes )

16 th Specifications , metallurgical tests , chemical tests .

17 th Protection of coating Layers

18 th Hard – Surfacing .

Introduction : metal- to –metal wear , impact wear , Abrasion tests , Impact tests

19 th Main types of hard surfacing alloys :

a. WC – group .

b. Cr – carbide types .

c. Semi – austenitic alloys .

d. 12-14% Mn – steels .

e. Stainless steels .

Heat treatable hard surfacing alloys .

20 th

21 th

Physical surface

Hardening Processes :

Induction hardening .

Flame hardening .

Laser hardening , Electron beam hardening , shot – peening .

22 th

23 th

Chemical surface

Hardening Processes :

Carburizing , Nitriding , carbonitriding , cyaniding, Aluminizing , Chromizing ,

Siliconizing , Boriding

24 th Evaluating Hardness and abrasion .

25 th

26 th

Selecting the best hard surfacing mater .

27 th Welding Methods for hard surfacing

28 th Microscopy and Spectroscopy of surfaces .

29 th

30 th

Examinations


55

No. of

Week

Subject

1st Introduction

2nd

3rd

Ceramic structures.

Crystal structures.

Silicate structures.

Silicate tetrahedral structures.

Sio2 Silicate structures.

Double tetrahedral structures.

Chain structures.

Polymer phisum in ceramic materials.

4th

5th

6th

7th

8th

9th

10th Ceramic phase diagram

11th Properties of ceramic materials.

Mechanical.

Electrical.

Magnetic.

Thermal.

Physical

12th

13th Classification

5-1 Glasses

5-2 Refractories

5-3 Clay products

14th Glasses

Introduction

Properties

Heat treating glasses

Glass – Ceramic

* Types of glass

Soda lime glass

Lead glass

Boro – silicate glass

High silica glass

Fiber

15th

16th

17th

18th Refactories and insulating Materials

Introduction

Properties

* Types of refractories

Acid refractories

Basic refractories

19th

20th

21st

22nd

Eng. of Ceramics and

Refractories


56

Neutral refractories

* Some important refactories

Silica refractories

Magnesite refractories

High alumina refractories

Fire clay refractories

23rd

Clay and clay product

Introduction

Porperties

Compositions

* Types

Residual clays

Trans ported clays

Porosity and permeability Examples of ceramic materials in Iraq

24th

25th

26th

27th

28th

29th

30th


57

Evening Morning Year

None 42 1999/2000 90 31 2000/2001 100 47 2001/2002 156 59 2002/2003

90 60 2003/2004 62 92 2004/2005

None 73 2005/2006 40 52 2006/2007

None 61 2007/2008

None 46 2008/2009

None 66 2009/2010


58

A- Morning

No. of students Year

28 2002/2003 27 2003/2004 38 2004/2005 45 2005/2006 43 2006/2007

88 2007/2008

64 2008/2009

B- Evening

No. of students Year

33 2003/2004 87 2004/2005 113 2005/2006 69 2006/2007

59 2007/2008

19 2008/2009


59

Morning

1- Mazin M. Rasheed

2- Naseer A. Nasser

3- Sarmad A. Ibrahim

Evening Morning

Ahmed A. Hashosh Mayada S. Abed

Dhiaa N. Abdul Ameer Basma H. Mohammed

Rawa M. Mizeel Payman S. Ahmed

Evening Morning

Rawa H. Abdul Raheem Manar A. Najim

Murtaza Q. Edan Rabab A. Abdul Azeez

Abeer F. Abbas Mohammed A. Naser

Morning& Evening

Hussien A. Jabbar


60

Reem Alaa Mohammed

Sinan Salman Hamdi

Evening Morning

Usama F. Tarish Soalaf M. Darkham

Zainab A. Mahdi Isra A. Jamal

Kusay S. Basher Hiba A. Modlool

Evening Morning

Mustafa S. Kadim Alaa A. Mohamed

Ban A. Fadhil Fatima J. Mohamed

Fras H. Radi Rana H. Ibrahim

Evening Morning

Hassan Talib Mahdi Muhammad m. muhammad

Yassir Samer Sulman Shaemaa j. ahmaed

Murtudha Basim Mohammed Aliaa h. abdulsalam

57

Postgraduate Studies

First Term

Material Name Theoretical Experimental Units

Numerical and Eng.

Analysis 2 1 2

Advance Metallic Eng.

materials 3 1 3

Freezing of metal and

alloys 2 1 2

Mechanical Behavior

of materials (selective) 2 1 2

Electromagnetic

materials 2 1 2

English language 2 - -

Total 13 5 11

Second Term

Material Name Theoretical Experimental Units

Advanced Non-

metallic Eng. materials 3 - 3

Phases transformations

and heat treatment 3 1 3

Corrosion Eng. 3 1 3

Surface Eng. 3 - 3

Computer Application 2 1 2

English language 2 - -

Total 14 2 14

Units Total

First term = 11 units

Second term = 14 units

58


Total = 25 units

First Term

Material Name Hours Units

Advanced ferrous and non ferrous

alloys 2 3

Advanced Ceramic 2 3

Advanced Corrosion Eng. 2 2

Powder technology process 2 2

English language 2 1

Selected materials 2 2

Total 12 13

Second Term

Material Name Hours Units

Advanced polymer technology 2 3

Advanced composite materials 2 3

Advanced characterization

technology 2 2

Advanced mathematics 2 2

English language 2 1

Selected material 2 2

Total 12 13

Units Total

59


First term = 13 units

Second term = 13 units

Total = 26 units

A-Lecturers and Supervisors

Fine

Speufication

General specification Title Name of lecturer

Eng Material Material engineering Prof. Dr.Kahtan K-Al-Khazriji

Refractories and

ceramics

Chemical Engineering Prof. Dr. Mohammed H. Olewi

Metallurgy Eng Mechanical engineering Ass.Prof Dr.Ali .H.Ataiwi

Advanced

ceramic

Industry Technology Ass.Prof Dr. Fadhil A. Chyad

Composite

material

Materials Science Ass.Prof Dr.Sehama .E.Saleh

Design Mechanical engineering Ass.Prof Dr. Jwad K. Elawi

Extrusion

metallurgy Production and metal

Eng.

Ass.Prof Dr.Walead .A.Hana

Powder

metallurgy

Mechanical engineering Ass.Prof Dr. Mohammed S. Hamzaeh

Steam turbines Mechanical engineering Lecture Dr.Lieath .K.abbas

B- Desertions Supervisors

Fine

Speufication

General specification Title Name of lecturer

Meterials Eng Material engineering Prof. Dr.Kahtan K-Al-Khazriji

Metallurgy Eng Mechanical engineering Ass.Prof Dr.Ali .H.Ataiwi

Refractories and

ceramics

Chemical Engineering Prof. Dr. Mohammed H. Olewi

Advanced

ceramic

Industry Technology Ass.Prof Dr. Fadhil A. Chyad

Composite

material

Materials Science Ass.Prof Dr.Sehama .E.Saleh

Design Mechanical engineering Ass.Prof Dr. Jwad K. Elawi

60


Powder

metallurgy

Mechanical engineering Ass.Prof Dr. Mohammed S. Hamzaeh

Powder

metallurgy Production and metal

engineering

Ass.Prof Dr.Walead .A.Hana

Master Students for 2002/2003

Specification Name of Student

Materials eng Husam.G.Habeeb

Materials eng Hussein .J. Hussein

Materials eng Arshed Sabah Materials eng Aseel Mahmoud

Materials eng Manal Hameed Extraction Mohamed. A.Abbas

Materials eng Muna.Y.Slaua Materials eng Ruba.J.Butrus


Specification Name of Student Materials eng Aseel Mahmoud (Postponed)

Materials eng Manal Hammed (Postponed)

Materials eng Bayda .H. Waheed

Materials eng Ahmed Hussein Materials eng Sarmad Emad Materials eng Lames .A.Khlaf Materials eng Hamza Mustafa

Extraction Muhaned Najah Materials eng Murtadha Abbas


Specification Name of Student Materials eng Beman.S.Ahmed Materials eng Basma.H.Mohamed

Materials eng Mayada .Sh.Abid



61


Materials eng Saad Mechael

Materials eng Basma.H.Mohamed (Postponed )

Materials eng Tahseen SHafi

Materials eng Manar Abdul Jabar


Specification Name of Student Materials eng kahtan .A.Hamed Materials eng Rabab .A.Abdul-Azeez Materials eng Hussein .A.Juber Materials eng Amar.R.Hassen

Master Students for 2007 /2008

Specification Name of Student Materials eng Nasser Abdul - Hussain

Materials eng Ammar R. Hassan

Materials eng Rabab H. Shuker

Materials eng Soolaff M. Darkhan


Specification Name of Student Materials eng Assel S. Mahmoud Materials eng Haidar A. Salal

Materials eng Rasha A. Hussien

Materials eng Zena N. Abdul Hameed

Materials eng Noor S. Ghafil


62


Specification Name of Student Materials eng Ahmed a. hashoosh Materials eng Senan s. hamdi

Materials eng Fatma j.muhammad

Materials eng Aliaa h. abdulsalam

Materials eng Oday a. muhatlaf

Materials eng Ali a. muhsen

Materials eng Hasnaa n. abdulameer

Doctorate Students for 2008/2009

Specification Name of Student Materials en Beman S. Ahmed

Doctorate Students for 2009/2010

Name of Student

Husain a. jaber Nawal d. muhammad

Lamis khalaf

Marwan n. ali

Ahmed fathel

Mayada Shnan Abid

Doctor at Students in Other departments University


Metallurgy engineering . Ahmed Ameed Zein Albiden Baghdad University. Wigdan .D.Abdul Jalal

Machines and equipments department. Nahudh Hamood Ali Baghdad University. Hussien .J.Hussien

63


Research title Supervision Name of Student

Study the effect of carbon black on the

physical and mechanical properties of

rubbers Dr. Jwad K. Elawi

Dr. Mohannad S. Hamza Nasser A. Nasser

Effect of some additives on the

properties of Al-Si alloys of eutectic

composition

Dr. Kahtan K. Alkazraji Dr. Waleed A. Hanna

Rabab H. Shaker

Preparation composite materials based

Al-Si reinforced by fly ash and studing

ther mechanical properties Dr. Suhama E. Saleh

Dr. Sahib M. Alsafar ٍ Solaf M. Darghan

Fabrication and characterization of

polymer – ceramic composite

biomaterial used healing of hard tissue.

Dr.Kahtan K-Al-Khazriji Dr.Waleed.A.Hana Rabab A.Abdul - Raheem

Preparation and Characterization of

Cintinually Formed Functionally

Graded

Dr. Ali . H. Ataiwi

Dr. Alaa .A.Attya Noor Sherief Khafal

Sintering Behavior of Prepared Nano-

Sized Ceramic Powders

Dr. Fadhil .A. Chyad

Dr. Saad .B.Fareed Aseel Sh.Mahmod

Ceramic Filled Polymer Matrix

Composite used for Biomedical

Application

Dr. Waleed A.Hana

Dr. Abbas .K.Hussen Haydar Al.Salal

Corrosion Behavior of Biomaterials

(SS316L) in Human Body

Environment

Dr.Quhtan Al-Khazrajy

Dr. Rana .A.Majeed Zena No .Abdulhameed

64


Characterization of Superplasticity NiTi

Shap Memory Alloys

Dr. Sahib .M.AlSafar

Dr. Emad .S.Abdul Kareem Rasha.A.Hussien

Ferrous material (a. Precipitation Hardening Steel, b. Maraging Steels, c.

Ausforming Steel), Non- ferrous material)a. High Tensile Brasses, b. Aluminum

Bronzes),c. Bearing Alloys (a-Copper Base b - White Bearing metal steel base)

c -Super plastic Alloys, Metals at High Temperature (a. Super Alloys, b.

Refractory metal, , Special Cutting Tools(a -Cermits b - Stellites c-Ceramics

Tools ).

Introduction, Complex variables, Linear algebra, Partial differential equation,

Fourier integral, Special function, Numerical solution of system of equation (a.

Advance Eng. Metallic

materials

Numerical and Eng.

Analysis

65


linear equation, b. nonlinear equations), Numerical solution of ordinary

differential equation single step formula, Numerical integration, Approximation

& the solution of partial deferential equation using finite difference method,

Introduction to finite element method.

Elastic & Plastic behavior, Stress-Strain relation for elastic behavior, State of

stress in two dimension, State of stress in three dimension, Strengthening

mechanism, Plastic deformation, Stress concentrations, Deformation of metal in

crystal, Crystal defects, Dislocation theory & properties, Cold work recovery of

work hardening, Creep, Fatigue & fatigue elevated temperature, Plastic flow &

fracture, Ductile Vs brittle behavior, brittle fracture & impact test.

Introduction, Forms of composites (Particle – Reinforced Composites, Large –

Particle Composites, Concrete, Portland Cement Concrete, Reinforced

Concrete), Dispersion – Strengthened Composites, Fiber – reinforced

composites (The Law of mixtures, Influence of fiber length, Influence of fiber

orientation & concentration, Continuous & Aligned fiber composites,

Discontinuous & Aligned fiber composite, Discontinuous & Randomly

Oriented fiber composites), The Fiber phase (Glass fibers, Carbonaceous fibers,

Polymer fibers, Inorganic fibers, Whiskers, Metal filaments), The Matrix phase

Mechanical Behavior of

materials

Composite Technology

66


(Thermosetting Polymer, Thermoplastic Polymer, Metal Matrix Materials,

Ceramics Matrix Materials), Fiberglass – Reinforced composites, Miscellaneous

Fiber – Reinforced Plastic Matrix composites, Metal Matrix – Fiber composites,

Hybrid composites, Carbon – Carbon composites, Processing of fiber –

reinforced composites pultrusion (Prepare Production Processes, Filament

Winding), Filament Winding (Laminar Composites, Sandwich Panels, Stresses

in Laminates, Applications of Laminates), Directionally Solidified eutectics

mechanical behavior.

Advance phase transformation (Nucleation Theories, Homogenous Nucleation,

Heterogeneous Nucleation, Vapor / Solid Interface, Liquid / Solid Interface,

Interphase / interface on solid, Massive transformation, Martensite

transformation, Spinodal decomposition, Fe-C System, Austenite / Pearlite,

Austenite / Bainite, Austenite / Martensite), Advance heat treatment

(Mechanism of diffusion, Surface heat treatment, Hardenbillity, Solution

treatment), Heat treatment of (Cast iron, Carbon steel, Alloy steel, Tool steel,

Cu – Alloys, Al – Alloys, Mg – Alloys, Ti – Alloys).

General Rew (Structure of metals, structure of alloys, Classification of alloys),

Thermal equilibrium diagrams (a. Coordinates of phase Diagram, experimental

methods, rules for determination of phases & constituents the rule of P.D in

selection of engineering alloys, Importance of P.D in selection of heat

treatments, b. Types of P.D, c. Inter relation of basic types of phase diagram),

Heat Treatment and phase

transformation

Solidfication

67


Transformation to the solid state ( a. the allotropy, b. the eutectoid reaction, c.

the peritectoid reaction, d. the order-disorder-transformation), Complex phase

diagram, Ternary phase diagram, Phase diagrams & Properties ( Mechanical &

physical ).

Introduction to computers, Hardware & computer component, Operating system

(MS-DOS & WINDOWS), Software & programming language, Programming

language ( Fortran ), Numerical differentiation & integration, Ordinary

differential equations, Partial differential equation, Finite difference & finite

element solution of engineering problems, Computer simulation of heat transfer

& diffusion equations, Computer simulation of solidification & casting of

metals, Computer simulation of mechanical properties of materials, Computer

simulation of thermal stresses, Computer simulation of fatigue failure,

Computer simulation of creep failure, Computer simulation of microstructure &

material properties.

Applied Computer

68


1-Modern alloy development (commercial steels, cast iron, superalloys, Ti

alloys, and Al alloys.) 2-Smart and shape memory metallic alloys.

3-Thin films and coatings of metallic alloys (pack cementation, thermal

evaporation, spattering,thermal spraying, chemical methods)

4-Strengthening of non –ferrous alloys by heat treatments.

5-Strengthening of steels by heat treatments.

6-Magnetostriction and magneto electric materials.

7-Supercoductors.

Advanced Ferrous &

Non ferrous Alloys

Advanced Ceramics

69


1-General introduction

2-Processing of ceramics

3-Phase diagrams of ceramics.

4-Glass ceramics.

5-Ceramic fibers technique.

6-Ceramic conductors.

7-Piezoelecrtric ceramic.

8-Elecrooptic ceramic.

9-Nano ceramic.

1-General introduction.

2-Dynamic and thermodynamic aspects of corrosion.

3-Hot corrosion and oxidation.

4-Effect of noise on corrosion rate.

5-Effect of atmosphere composition and climatic conditions on corrosion of

metals.

6-Modern electrochemical methods of measuring corrosion rate (ultrasonic rays,

magnetic tests).

7-Deterioration of polymers (chemical, radiation, microbiological).

8-Engineering applications of anodic and cathodic protection.

Advanced Corrosion

Engineering

70


9-Modern technology for corrosion resistance materials.

1-Production of metallic and ceramic powders.

2-Classification of powders.

3-Granulation of powders.

4-Compaction technique.

5-Consolidation of powders.

6-Powder system and applications.


2-Types and conditions of polymerization.

3-Polymer fabrication techniques.

4-Rubber technology.

5-Synthesis fiber technology.

6-Structural concept of petrochemical products.

7-Low and high density polyethylene technology.

Processes of Powder

Technology

Advanced Polymers Technology

71


8-Applications

.


2-Types of reinforcement techniques.

3-design guidelines of composite materials.

4-Composite testing and analytical methods.

5-Reinforcement coating.

6-Applications.

1-Physical and Mechanical properties.

2-Thermal analysis.

3-Dielectric properties.

4-X-ray diffraction and X-ray fluorescence.

5-Microscopic analysis.

6-Infrared spectroscopy.

7- Overview on International Standards on characterization.

1-Random numbers and Monte Carlo methods.

Advanced Composite Materials

Advanced Characterizations

Technology

Advanced Mathmatics

72


2-Numerical integration of ordinary differential equation

3-Partial differential equations.

4-Regression technique.

5-Correlation and covariance.

6-Fourier analysis.

1-Biomaterials; properties and applications.

2-Materials for sports.

3-Fracture and toughness.

4-Mechanical behavior of materials.

5-Dielectric materials.

Selected Materials

55

72

]72[Department

Activities

1 – Regestration section :- a – Open special e - mail for this section ([email protected]). b – Publish all the graduated students on department site . c– Create a checking unit has been established for checking the new acceptance student documents . d– Create a special program to enter all the special data for student . 2 – The activites of Scintific affairs and cultural relations Section :- a - Followup all the activites of Scintific affairs and cultural fields in the department such luctuers and symosiums by staff . b- Generalized all the officials letters from the ministry and other minstries for all staff . c – encourage the staff to do scintific researches to follow the scientific development through registered the special researches in the section as published , under published and under . d – Follow up the pathfinding through contract with the ministry of high education and scientific research , Now there is only one research which about 60% is finished . e – Select the best graduated project for the fourth year through the contribution with the progects comuntle . 3 – The activities of library a– Record all the books and refrences in special files ( forign , curure , Arabic jernuls , dsertations and thesis ) . b – Classifie all the books and refrences according to interational classification which is used in all the central libraries in the Iraqi universities . c – All the above refrences is intered in computer system on department site . d– 250 Iraqi dinars as a penalty for each delay day of the borwers due to the head department . e – A contribution with materials branch in Applied sciences department to supply the higher education students by the needed refrences . f – All fourth year students projects has been received and avrauged is computer through the contribution with the scientific deputy.

55

73

]72[Department

Activities

g – Two wood tables has been added to the library bcsides the making more space for staf and students . h – Increasing the refrences numbers in the library by buying a group of books from private libraries and bood fairs in our university and other universites . 4 – Sport activities of materials engineering department The sport activities of the department is supervised by Assist . Osam Najdet / sport education and Mr . Tawfiq Mohammed / BS.C sport education with Dr . Ferhad Mohammed who is the responsible of sport activity of the department . These activities on 2009 are : a – Aping pong desk with special requirments placed in the staff section . b – The department is supplied by chest game , played in the spare times . c– Foor ball team is contribute in the departments foot ball leaque . d– Students of the department partticapote in all the university activities specially the sport activity according the annual arric which by sport education department in the university which include , foot bull , basket ball , ping pong , tennis and chest through the first term and vally ball ball in second term afier the mid year holding . e – Continous attendance of the staff in the fitness hall in the sport bulliding of the university which has all the modern equipments for gracefullness body reinforcement in limtted time .

55

74

]72[Department

Activities

55

75

]72[Department

Activities

5 – Coopration in Workshop Many of lecturers of the department have been cooperative in a workshop happened in sharm Al sheikh (Egypt) under ( Modern style From 15-18 Feb . 2010 The team vist some of the Eqyptian university and met the Dean deputy of Engineering college / Ain Shams university and also met the Dean of Engineering college of Cario university and they seek the mechanism of scientific cooperative between the our materials department and the mensioned university and the convenant ability on a protocol to develop the principles of scientific research and exchanging the experiences and training through the lecturers and engineering staff . 6 – Sirging a cooperative protocol between materials engineering department / university of technology and Institue of lazer for high studies / Baghdad university starting from strengthening concept of scientific coopration bonds between Iraqi universities and the science is from the main wall to build the New Iraq . A protocol has been signed between our department and the institute of lazer for higher studies on March 2010 by Dr .Ali H. Atiawi / head of the department and Dr .Hussien A.Jawal . The dean of the institute . the protocol includes the followings items :

A- High studies 1 – Both staffs present lectures and supervision cooperative supervison on doctorate thesis . 2 – Exchang both sides in discussion of Master and doctorate thesis. 3 – Covering some of the high studies curiculm for the both sides . 4 – Acceptance of our graduates to study the master study in the institute . 5 – Acceptance student in both side can his research ( materials and equipment ) in the labrosaries of the both . B – Reserches , symposiums and conferences 1 – Arrange the exchange scientific vists between them to develop the circul and the scientific labrotries and acadmic staff through by high eduction . 2 – Cooperative help through conferences , symposinms , discussion lecture and cooperative training session . 3 – The ability of doing researches between both side , and the scientific evaluation for master and doctorate thesis . 4 - Acquaint on books and researches in both sides libriaries . 5 – Scientif cooperative to maintain the technologies and modern on entations in scientific specilition . C – Forming cooperative comities from both sides to do mechanisms for carried out the a bove items .

55

76

]72[Department

Activities

7 – Scientif lecture With the attendance of the head of the department and some lecturers of our department and other departments and centers . a scientif lecture has been held by Asst.Prof.Dr.Saad B. Farred under the address 4 linear and non linear programming by Excel . the main good of the lecture is to show how can use the Excel program in the special analysis operations by linear and non linear and it importance in the research and scientific applications for staff and undergraduate and postgraduate students . 8 – Dr .Ali H.Atiawi and Dr.Sahib M .Al Safar have been got by have been honoring by thanking and evaluation from the minster of high education and scientific research through their efforts to develop the scientific way specially the renewing and reopen the high studies for all subjects in Iraqi universities . 9 – The cooperative with USM – Malisya Dr. Ali H . Atiawi has been visited USM – Malisya on 8 / June / 2010 and met prof. Ahmed Fawzi the dean of materials engineering and mines school , they discuss for signing protcol . A protocol with this school including the coopartive in the field of sending staff and high studies students and scientific mission . Malyisian side has wellcome of the cooperative .

Esraa haidar noor alaa sara abdulgabar tara atheel aya ali

Sara luay omar muhammad marwa sadoon fatma sabah aya sabah

Sara abdulmaseeh esraa yaser shahad nimaa zahraa muhamad wjdan jasem

Marwa subhy hind alaa lara gany husain abduljabar nada zyart ali

77

qasem afnan noor abdulkareem hiba mahmood saja amer marlen dawod

Mustafa saleh maysaa muhamad ruaa khalil aya faysal safa taleb

Shahad muhamad saif husain lyna adel noor ebrahem ruaa sahib

Gaith zaid ahmed hafiz shahad nazar ali nazem quson muhamad

78

Osama abdulgany muhanad faisal lamis sallom marwa munther baraa abdulhady

Shahad husain shahad sadiq lara adil teba jamal rawaa fuad

Zahraa muhamad muhamad kareem yamama husain shahad zuhair husam munther

Taiser akram ola ali maryam ali shahad adnan ali abdulfattah

79

Naaim kazem alaa muhsin sara basim worood emad duaa mahmood

Arkan saad nora abdulrazzaq hams talaat haitham ali weaam jamal

Mustafa dergam zubayda lutfy

80

University of Technology Materials Engineering Department

2009-2010

Web site: www.uotiq.org/dep-materials Email: [email protected]

Documents

Email : uot [email protected] /dep ... · 1. Materials engineer has selected the appropriate engineering materials for special use (mechanical, electrical, electronic, chemical