:
· B.Sc.
3. Ceramic
1. Design and selection of engineering materials
2. Casting
4. Ceramic
5. Biomaterial
Materials Engineering
Subjects in B.Eng. courses have been categorized and the total number of credits which students should obtain in each category is as follow:
CREDITS | SUBJECTS |
20 31 31 33 19 6 3 | General Basic Principle Specialized (Obligatory) Specialized (Optional) Practical Work Project |
General, basic and principal subjects are common in all three tendensis and they are compulsory for all B.Eng. students. Specialized subjects, which differ for each decipline, consist of two parts; all subjects presented in the first part are compulsory and among the optional subjects presented in the second part, students can select those subjects they are more interested. However, the total credits they are required to obtain in the optional subjects are at least 19.
Practical works is compulsory for all students and also it is required to do a research project for them to be considered as graduate. The details of each subject category is as follow:
Credit | General Subjects |
2 2 2 2 2 2 3 3 1 1 | Islamic Studies I* Islamic Studies II* Education in Islam* Islamic Revolution & Its Roots* Islamic History* Islamic text (i. e. Arabic Study)* Persion Literature English (or another foreigh language) Physical Education I Physical Education II |
* These Subjects are not required for foreign students
Credit | Basic Subjects |
4 4 3 3 2 3 3 1 3 1 3 1 | Mathematical I Mathematical II Differential Equations Advanced Engineering Mathematics Calculus Numerical Analysis Physics I Physics I (Lab) Physics II Physics II (Lab) General Chemistry General Chemistry (Lab) |
31 (Total) |
|
Credit | Principal Subjects |
3 1 2 3 3 3 3 3 3 1 2 3 1 | Fundamental of Electrical Eng. Fundamental of Electrical Eng. (Lab) Statics Strenght of Materials Crystallography Transport Phenomena in materials Eng. Physical Chemistry for Materials Eng. Materials Thermodynamic I Physical properties of Materials I Physical properties of Materials I (Lab) Physical properties of Materials II Mechanical properties of Materials I Mechanical properties of Materials I (Lab) |
31 (Total) |
|
specialized Subjects For industrial Metallurgy
Credit | Compulsory Specialized Subjects for Industrial Metallurgy |
1 2 1 2 1 3 1 3 3 1 2 2 3 2 1 2 2 | Study of Scientific & Industrial Text Metals Casting I Metals Casting I (Lab) Principles of Solidification Solidification (Lab) Metals Deformation I Metals Deformation I (Lab) Mechanical properties of Materials II Metallurgy of Welding Metallurgy of Welding (Lab) Powder Metallurgy Methods of Materials Analysis Corrosion and Oxidation of Metals & Alloys Heat Treatment Heat Treatment (Lab) Extraction of Metals (Ferrous) Extraction of Metals (Non-Ferrous) |
33 (Total) |
|
Credit | Optional Specialized Subjects for Industrial Metallurgy |
3 2 1 2 3 2 2 2 1 3 2 3 3 3 2 1 1 2 2 2 2 2 2 | Metal Deformation II Mould Design Mould Design (Workshop) Refractories Metals Casting II Selection of Materials Advanced Materials Non-Destructive Tests Non-Destructive Investigation (Lab) Surface Metallurgy and Casting Economy and Industrial Management Design and Principles of Industrial Furnaces Solids State Physic Control of Metallurgical Process Materials Thermodynamic II Corrosion and Oxidation Lab Powder Metallurgy Lab Application of Computer for Materials Principles of Metallography Polymers Quality Control of Materials Non-Ferrous Alloys Methods of Measurments in Engineering & Lab |
50 (Total) |
|
specialized Subjects For Extractive Metallurgy
Credit | Compulsory Specialized Subjects for Extractive Metallurgy |
3 1 3 2 1 2 1 2 1 3 2 2 1 3 2 2 | Metals Casting I Metals Casting I (Lab) Metals Deformation I Ore Dressing Ore Dressing (Lab) Principle of Extractive Metallurgy I Hydrometallurgy I (Lab) Principal of Extractive Metallurgy II Pyrometallurgy (Lab) Materials Kinetics Analytical Chemiestry & Lab Heat Treatment Heat Treatment (Lab) Corrosion and Oxidation of Metals & Alloys Solidification Processes Refractories |
33 (Total) |
|
Credit | Optional Specialized Subjects for Extractive Metallurgy |
2 2 2 3 3 2 3 2 2 2 2 3 2 3 1 2 2 2 2 2 2 1 2 2 2 2 | Mineralogy Iron Making Steel Making Extractive of Non-Ferrous Metals I Extractive of Non-Ferrous Metals II Ferro-Alloys Surface Metallurgy and Coating Corrosion and Coating Lab Design and Principles of Industrial Furnaces Fuel and Energy Selection of Materials Processes Control in Materials Production Economy and Industrial Management Metallurgy of Welding Metallurgy of Welding (Lab) Powder Metallurgy Methods of Materials Analysis Materials Thermodynamic II New Methods of Production & Refining of Metals Application of Computer in Materials Eng. Methods of Measurements in Materials Eng. Methods of Measurements in Materials Eng. (Lab) Non-Ferrous Alloys Advanced Materials Specialized English Quality Control of Materials |
54 (Total) |
|
specialized Subjects For Ceramic
Credit | Compulsory Specialized Subjects for Ceramic |
2 3 2 1 2 2 1 3 1 2 1 2 1 2 1 1 2 1 2 | Ceramic Structures Materials Kinetics Methods of Materials Analysis Methods of Materials Analysis (Lab) Optical & Electrical Properties of Ceramics Refractories Refractories (Lab) Glass Theory Glass (Lab) White Wares Porcelain (Lab) Processes of Ceramics Production I Processes of Ceramics Production (Lab) Processes of Ceramics Production II Processes of Ceramics Production II (Lab) Study of Scientific and Industrial text Processes & Ceramic Production III Processes & Ceramic Production III (Lab) Thermal Properties of Ceramics |
32 (Total) |
|
M.Eng. degree involves lectures, laboratory classes, tutorials and seminars for two semesters followed by written examination in each taught subjects, successfull students then proceed to a dissertation research project supervised by a member of the accademic staff.
Students are required to attend all classes and seminars held at the school. The minimum passing mark for every subject is 12, out of 20. The students are required to attain an average term mark of 14. If the students attain an average term mark less than 14 in two semester, they can not proceed their education in university.
The Total number of credit-hours required for a M.Eng. course is 32 out of which 24 credits related to the courses and the rest to the research project. A graduate student admitted with deficiencies in academic background may be required to take collateral courses in addition to the prescribed courses of programme. Credits earned in collateral courses do not count toward the minimum credit requirements for M.Eng. degree.
ADMISSION REQUIREMENTS
1. Possessing a bachelor , s degree in metallurgy, materials science, chemical engineering, physics, or mechanical engineering.
2. Succeeding in the nationwide M.Sc. Entrance Examination (MEE) adminstrated by the Ministry of Science, Research and Technology.
LANGUAGE REQUIREMENTS
Teaching and examinations at the department are in persian. Most sources of studies, however, are available in English. Thus, for success in a course of study, or doing research, good Persian and acceptable English level are essential Students need to cope with reading, note taking from lectures, books and journals and other materials. Further, they should be capable of speaking Persian and English in an accepted standard level during their seminars and tutorials.
DISSERTATION & EVALUATION
From the second term onwards, the students have to select an approved project proposal as their research subject.The dissertation, when completed, will be defended by the student before a commitee consists of one or two internal examiners and an invited external examiner. This committee is vested with the authority to evaluate the dissertation and to announce their assessment as excellent, good, acceptable or unsatisfactory. The grades and the related marks which students may obtain on their dissertations are as follows.
MARKS | GRADS |
17-20 14-17 12-14 below 12 | excellent good acceptable unsatisfactory |
SEMINARS
The department runs an active postgraduate seminars at which students are able to present original and review papers and develop their own ideas. In addition, there is a lecture series in which distinguished speakers address members of staff as well as students on a wide range of topical themes.
DESIGN AND SELECTION OF ENGINEERING MATERIALS
CREDIT | COMPULSORY SUBJECTS |
3 3 1 2 3 3 | Advanced Materials Thermodynamics Phase Transformations Statistics and Error Measurement Analysis Diffusion in Solids Dislocation Theory Methods of Materials Analysis + Lab |
CREDIT | OPTIONAL SUBJECTS |
2 2 2 3 2 2 2 2 2 2 2 2 2 2 3 | Powder Metallurgy Creep Special Topics in Materials Eng. (Complementory Subjects) Fracture Mechanics Theory of Elasticity Advanced Solidification Processing Finite Element Methods Electron Theory of Metals Advanced Surface Engineering Polymers NDT Methods Simulation in Materials Engineering Advanced Quality Control Composites Advanced Engineering Mathematics |
CREDIT | COMPULSORY SUBJECTS |
3 3 3 2 2 2 1 2 8 | Advanced Casting Advanced Solidification Processing Phase Transformation & Diffusion Design & Selection of Materials Advanced Thermodynamics Application of Computer in Casting Principles of Quality Control & Error Measurements Analysis Seminar Project |
CREDIT | OPTIONAL SUBJECTS |
3 2 2 2 2 3 | Advanced Metallography Powder Metallurgy Special Topics in Materials Eng. (complementory subjects) Composites Transport Phenomena in Metallurgy Engineering Design in Casting |
CREDIT | COMPULSORY SUBJECTS |
3 3 2 3 3 2 1 1 2 8 | Advanced Materials Thermodynamics Methods of Materials Analysis + Lab Advanced Materials Kinetics Theory of Pyrometallurgical Processes Theory of Hydrometallurgical Processes Advanced Trasport Phenomena in Metallurgy Statistics and Error Measurments Analysis Metallurgical Processes (Lab) Seminar Project |
CREDIT | OPTIONAL SUBJECTS |
3 2 2 2 2 2 2 2 2 | Advanced Engineering Mathematics Multi-Components Systems Extraction of Rare Metals Tech. and Eco. Investigation of Processes Special Topics in Materials Eng. Design & Control of Metallurgical Processes Principles of Process Simulation Advanced Solidification Processing Theory of Iron and Steel Making |
CREDIT | COMPULSORY SUBJECTS |
2 2 2 2 2 3 1 2 8 | Ceramic processing before firing Ceramic Forming Advanced Methods of Characterization & Analysis Non-Oxide Engineering Ceramics Oxide Engineering Ceramics Semi-Conductor Materials (Theory, Properties & Technology) Statistics & Error Measurement Analysis Seminar Project |
CREDIT | OPTIONAL SUBJECTS |
2 2 2 2 3 2 | Principles of Crystal Growth Advance Theories of Glass Adhesives & Binders Ceramic Stains Properties of Advanced Ceramic Materials Special Topics in Materials Eng. (Complementory Subjects) |
CREDIT | COMPLEMENTORY SUBJECTS* |
2 4 3 3 3 3 3 3 3 3 | Anatomy Physiology Principles of Engineering Materials (Metals, Polymers and Ceramics) Organic Chemistry Statistic and Mechanics of Materials Dynamic, Robotic and Vibration Hospital Practical Work Elementaries of Medical Engineering Biochemistry Principles of Science and Technology of Polymers |
* A number of these subjects will be given to those students who did not passed similar subjects during their undergraduate studies. The allocation of any particular complementory subject to a student is decided by the Biomaterials Educational Group.
CREDIT | COMPULSORY SUBJECTS |
3 3 3 3 | Biomaterials General Biomechanics Biochemistry Biocompatibility |
CREDIT | COMPULSORY SUBJECTS |
2 2 2 3 3 2 3 3 3 3 3 3 3 | Application of Polymer in Medicine Application of Ceramic in Medicine Application of Metals in Medicine Physical and Mechanical Properties of Biomaterials+Lab. Advanced Metallography and Surface Analysis+Lab. Bio-Physics Bio-Instrumentation Selective Subjects in Design Electronic Advanced Biomechanics Selective Subjects in Medical Engineering Biomechanics of Bone and Bone Damages Ultrasonics in Medicine Artificial Bodies |
The PhD programme consists of two distinct stages. The first one is a course-work stage that begins with the student <>, s enrollment in the courses upon gaining admission to the programme, and the second stage is doing a research project as partial fulfilment of PhD degree. This can be started after completing the course-work stage and passing the related comprehensive exams.
REGULATIONS
The first stage of PhD studies should be completed within a time period not exceeding 4 semesters (i.e. 2 years). The length of PhD studies is usually 4 years which may under special circumstances be extended for one more year, pending to the agreement of university academic council. PhD studies is also based on credit-hour units, and the total number of credits in the first stage of PhD study is 16. The candidates carry a loadwork of 6 to 10 credit-hours each term, unless the remaining credit-hours for the last term is less than 6.
The minimum passing mark for a PhD subject is 14, out of 20, and students are allowed to repeat those subjects in which they obtained less. Students who have passed the formal PhD subjects may participate in the comprehensive exam held under the supervision of postgraduate committee of the university. The comprehensive exam consists of written and oral sections and a minimum mark of 14 out of 20 is regarded as the pass mark, below which the student may repeat the exam for only one more time. The second stage of the PhD programme can be started by the students who pass the comprehensive exam. At the beginning of this stage, academic staff or students submit research proposals for the research work of PhD students to the postgraduate board of the department. Once a proposal meets the approval of the board a student may begin his or her research work under the supervision of a supervisor to whom he or she periodically report the progress of his or her work.
LANGUAGE REQUIREMENTS
Teaching and examinations at the department are in persian. Most sources of studies, however, are available in
English. Thus, for success in a course of study, or doing research, good Persian and acceptable English level are essential Students need to cope with reading, note taking from lectures, books and journals and other materials. Further, they should be capable of speaking Persian and English in an accepted standard level during their ceminars and tutorials.
PhD THESIS EVALUATION
After completion, PhD thesis is presented and defended before a committee set out by postgraduate board of the
department. The assessment of the committee for the defended thesis may be, excellent, fair or acceptable if they found it satisfactory and unacceptable or equivalent to M.Eng. if unsatisfactory.