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Master of Science Program in Engineering in Material Technologies

   
 
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Master Thesis in Material Technologies Engineering
Qualification Awarded
Level of Qualification
Objectives
Specific Admission Requirements
Specific Arrangements for Recognition of Prior Learning
Qualification Requirements and Regulations
Profile of The Programme
Program Learning Outcomes
After successful completion of this program, the students will be able to;
Occupational Profiles of Graduates
Access to Further Studies
Examination Regulations, Assesment and Grading
Graduation Requirements
Mode of Study
Full - Time
ECTS Coordinator
Contact
Course & Program Outcomes Matrix
Course Unit Title
Advanced Programming Techniques
Advanced Analytic Methods
Advanced Concrete Technology
Advanced MATLAB Programming for Engineering Applications
Advanced Mobile Programming
Advanced Numerical Methods
Advanced Object Oriented Programming
Advanced Topics in Database Systems
Advisorship
Artificial Neural Networks
Basis of Material Science
Biodegradable Polymers and Industrial Applications
Biomaterials
Biomaterials Tissue Interaction
Building Materials and Concrete Testing
Cell culture and basic molecular biology techniques in biomaterials sicience
Cementing Materials
Chromatographic, Spectroscopic and Thermogravimetric Methods in Organic Material Analysis
Computer Networks
Concrete Pavements
Condensed Matter Physics
Data Communications
Data Warehouses
Durability of Concrete Structures
Elective 1
Elective 2
Elective 3
Elective 4
Elective 5
Elective 6
Elective 7
Electronic Commerce
Energy Storage Systems
Engineering Research and Development
Fibre and Yarn Mechanics
Functional Textile Materials
Genetic Algorithms and Engineering Applications
Geographic Information Systems and Remote Sensing
Geotextile Applications and Design
Highway Materials
Integrated Coastal Zone Management
Introduction to bioinformatics
Landscape Design Elements
Management Information Systems
Marble Processing Technologies
Material Analysis by XRD
Material Selection for Barrier-free Life
Materials Selection and Practices
Matlab and Applications
Mineralogy and Petrography
Nanomaterials and Characterization Techniques
Natural Building Materials
Photonic Materials and Applications
Physical Chemistry of Polymers
Polymer Composites and Industrial Applications
Polymer Technology and Polymer Materials Work
Polymeric Namomaterials
Production Management
Protective Surface Coating
Renewable Energy Sources and Applications
Repair and Reinforcement
Self Compacting Concrete
Semiconductors Physics
Seminar
Special Topics in Materials Technologies Engineering
Spectroscopy and Applications
Steel Structural Systems
Structural Steels and Steel Structural Elements
Sustainable Building Materials
Textile Composites and Design
Thermal and Mechanical Testing of Polymer Materials
Thesis
Total Quality Managemet
Transport Soil Stabilization
Use of Industrial and Domestic Waste as Structural Materials
Wireless Sensor Networks
Evaluation Questionnaires
 THE OVERALL EVALUATION OF THE COURSE V. Good Good Average Poor V. Poor No Idea
 1. Stating the content and objectives at the beginning of the course
 2. Supplementing the course with current issues
 3. The clarity of the exam questions and their appropriateness to the course
 4. The contribution of the course to your knowledge and skills
 5. Access to the course sources
 6. The relativeness of the course compared to the other courses in the department
 7. The selection of the sources according to the objectives of the course
 8. The contribution of the assignments to the course
 
 THE EVALUATION OF THE INSTRUCTOR Very Good Good Average Poor Very Poor No Idea
 1. The way the instructor handles the course
 2. The instructor's competence in answering the questions in the class
 3. The instructor's encouragement to take part in the class by allowing different ideas and comments
 4. The instructor's preparation for the class
 5. The efficient use of class time
 6. The instructor's in-class management
 7. The instructor's objective evaluation of the exams and assignments
 8. The instructor's punctual and regular attendance
 9. The instructor's rapport with the students
 10. The availability of the instructor’s time except for the class time and the sufficiency of the time s/he allocates to you
 
 LEVEL OF THE CONTRIBUTION OF COURSE OUTCOMES TO PROGRAMME COMPETENCIES 5 4 3 2 1 X
Graduates who successfully complete this program;
 1. have high level information and skills supported by the course books that include the most recent information, application equipment and other scientific sources related to education technologies, teaching profession, general information and basic sciences; use these informations and skills in daily life and in jobs,
 2. examine and evaluate concepts about education technology and teaching profession, ideas and data with scientific methods; diagnose, analyze and discuss complicated problems and subjects; develop suggestions based on scientific discoveries and evidences,
 3. inform the audiences who are not expert and do not have information about education technology and teaching profession; express related ideas about these problems and solutions with written and oral,
 4. have learning to learn, self control, critical thinking, creative thinking skills and perform independent studies related to study field,
 5. get responsibilities and try to produce solutions when faced with unexpected and complicated cases in applications of education technologies and teaching professions,
 6. know students’ interests, wishes and needs; know social, cultural and economic properties of families and environment; plan, apply and manage learning and teaching process suitable for these properties; get students active participation in learning process,
 7. know information about education technologies and teaching professions and comprehend adequately; have information about foreign language in level of communicating with professional colleagues,
 8. have information about computer software and hardware in level of teaching computer and information and communication technologies courses and supporting other teachers; use information and communication technologies,
 9. consider social, scientific and ethic values in levels of gathering data, analyzing, interpreting, announcing when doing teaching professions or working in private sector, being researcher or source of data,
 10. continuously try to develop with doing self assessment; be on new information and ideas ; play affective role in developing of themselves and their intuition; know and behave according to the laws about their job, main values and principles, know the rights about job security and social security; have conscious about protecting social values and environment,
 11. evaluate students’ improvement and learning, get students to evaluate themselves and other students; use the results of evaluation for better instruction; share the results with student, family, managers and teachers.

 WORKLOAD DETERMINATION - ECTS
 1. Your percentage of attendance
 2. Did you do any preparations for this course? (except some activites like quiz, homework, labs,mid-term exams, final exams)

    

a. If yes, preparation time per week (hour)

 3. Did you do any assignments as a part of this course?

    

a. If yes, number of the assignments done

b. Average time spent in preparing the assignment (hour)

 4. Did you prepare any presentations or seminars as a part of this course?

    

a. If yes, number of the presentation/seminar done

b. Average time spent in preparing each presentation/seminar (hour)

 5. Did you take a midterm exam in this course?

    

a. If yes,number of the mid-term exams you done

b. The average time you spent on preparing for each mid-term exam (hour)

 6. Did you make any projects as a part of this course?

    

a. If yes, number of the projects done

b. The average time you spent on doing each project (hour)

 7. Did you attend any laboratory work as a part of this course?

    

a.If yes, number of the laboratory works you attended

b.The average time you spent on each work (hour)

 8. Did you attend any field surveys as a part of this course?

    

a. If yes, number of field surveys you attended

b. If yes, the average time you spent on each survey (hour)

 9. Did you take the final exam of this course?

    

a. If yes, the average time you spent on the final exam (hour)

 

 


  Required
 Course Code Course Title Type of Course N.C.* ECTS
  - Elective 6 Required 3 6
  - Elective 5 Required 3 6
  - Elective 7 Required 3 6
  01MTM1600 Special Topics in Materials Technologies Engineering Required 0 6
  01MTM1500 Seminar Required 0 6
  01MTM1700 Thesis Required 0 24
  01MTM1400 Advisorship Required 1 2
  01MTM1600 Special Topics in Materials Technologies Engineering Required 8 6
  01MTM1600 Special Topics in Materials Technologies Engineering Required 0 6
  01MTM1600 Special Topics in Materials Technologies Engineering Required 0 6
  - Elective 1 Required 3 6
  - Elective 2 Required 3 6
  - Elective 3 Required 3 6
  - Thesis Required 0 24
  - Elective 4 Required 3 6


  Elective
 Course Code Course Title Type of Course N.C.* ECTS
  XXXX Biomaterials Elective 3 6
  XXXX Protective Surface Coating Elective 3 6
  01MTM1239 Cementing Materials Elective 3 6
  01MTM1216 Functional Textile Materials Elective 3 6
  01MTM1218 Textile Composites and Design Elective 3 6
  01MTM1219 Geotextile Applications and Design Elective 3 6
  01MTM1217 Fibre and Yarn Mechanics Elective 3 6
  01MTM1214 Biodegradable Polymers and Industrial Applications Elective 3 6
  01MTM1212 Thermal and Mechanical Testing of Polymer Materials Elective 3 6
  01MTM1211 Polymer Composites and Industrial Applications Elective 3 6
  01MTM1215 Polymeric Namomaterials Elective 3 6
  01MTM1220 Data Communications Elective 3 6
  01MTM1237 Geographic Information Systems and Remote Sensing Elective 3 6
  01MTM1238 Natural Building Materials Elective 3 6
  01MTM1231 Mineralogy and Petrography Elective 3 6
  01MTM1235 Marble Processing Technologies Elective 3 6
  01MTM1236 Marble Processing Technologies Elective 3 6
  01MTM1229 Engineering Research and Development Elective 3 6
  01MTM1234 Integrated Coastal Zone Management Elective 3 6
  01MTM1232 Advanced Analytic Methods Elective 3 6
  01MTM1233 Advanced Numerical Methods Elective 3 6
  01MTM1240 Durability of Concrete Structures Elective 3 6
  01MTM1222 Highway Materials Elective 3 6
  01MTM1241 Building Materials and Concrete Testing Elective 3 6
  01MTM1227 Advanced Concrete Technology Elective 3 6
  01MTM1226 Steel Structural Systems Elective 3 6
  01MTM1228 Structural Steels and Steel Structural Elements Elective 3 6
  01MTM1223 Concrete Pavements Elective 3 6
  01MTM1224 Transport Soil Stabilization Elective 3 6
  01MTM1225 Use of Industrial and Domestic Waste as Structural Materials Elective 3 6
  01MTM1206 Nanomaterials and Characterization Techniques Elective 3 6
  01MTM1205 Semiconductors Physics Elective 3 6
  01MTM1204 Spectroscopy and Applications Elective 3 6
  01MTM1203 Matlab and Applications Elective 3 6
  01MTM1209 Renewable Energy Sources and Applications Elective 3 6
  01MTM1208 Photonic Materials and Applications Elective 3 6
  01MTM1210 Energy Storage Systems Elective 3 6
  01MTM1230 Repair and Reinforcement Elective 3 6
  01MTM1221 Self Compacting Concrete Elective 3 6
  01MTM1201 Basis of Material Science Elective 3 6
  01MTM1202 Materials Selection and Practices Elective 3 6
  01MTM1213 Polymer Technology and Polymer Materials Work Elective 3 6
  01MTM1242 Genetic Algorithms and Engineering Applications Elective 3 6
  01MTM1246 Sustainable Building Materials Elective 3 6
  01MTM1247 Advanced Topics in Database Systems Elective 3 6
  01MTM1248 Data Warehouses Elective 3 6
  01MTM1249 Advanced MATLAB Programming for Engineering Applications Elective 3 6
  01MTM1250 Advanced Object Oriented Programming Elective 3 6
  01MTM1251 Wireless Sensor Networks Elective 3 6
  01MTM1252 Material Selection for Barrier-free Life Elective 3 6
  01MTM1243 Introduction to bioinformatics Elective 3 6
  01MTM1244 Cell culture and basic molecular biology techniques in biomaterials sicience Elective 3 6
  01MTM1245 Biomaterials Tissue Interaction Elective 3 6
  01MTM 1255 Physical Chemistry of Polymers Elective 3 6
  01MTM 1254 Advanced Mobile Programming Elective 3 6


 

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