07December2019

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Aim and Outcomes of Programme

THE AIM AND OUTCOMES OF DOCTORAL DEGREE PROGRAMME

The Aim of Doctoral Degree Programmme

  • The objectives of the Doctoral degree programme are to graduate scientists who are investigative, innovative, self-confident, able to develop new ideas and techniques through innovative and creative thinking, possess problem solving and decision making skills, are conscious of work ethics and protectors of the natural environment as well as able to contribute to science and technology in their own fields.

The Outcomes of Doctoral Degree Programme

  • To develop and deepen the recent and advanced information at the level of expertise based on the master degree proficiency,
  • To understand the interaction between various disciplines related to the field and achieve original results from new and complex ideas by analysis, synthesis and evaluation by using expert knowledge,
  • To approach systematically the new information in the field, and to achieve high level skill in the research methods,
  • To be able to develop a new scientific method that brings innovation to science or apply a known method to a different area, and to be able to understand, search, design, implement and contribute to an original topic,
  • To be able to critically analyze, evaluate and connect new and sophisticated ideas,
  • To be able to publish in national and international peer-reviewed journals those extend the borders of knowledge,
  • To be able to show leadership in solving unique and interdisciplinary problems,
  • To be able to develop new ideas and techniques by using thought processes such as innovative and creative thinking, problem solving as well as decision making,
  • To have an ability to critically examine, develop and if necessary manage the actions to change social relationships and norms that direct these relations
  • To be able to show competence in defending the original views, and communicate effectively in an expert community,
  • To be able to communicate and discuss the written, oral and visual communications in advanced level at least in one foreign language,
  • To contribute on becoming an information society by introducing technological advances in academic and professional context on various platforms,
  • To use strategically decision making processes in problem solving approaches and establish effective communication,
  • To be able to solve social, scientific and ethical issues faced in the area and during the professional activities,

THE AIM AND OUTCOMES OF MASTER'S DEGREE PROGRAMME

The Aim of Master's Degree Programme

  • The objectives of the Master’s degree programme are to graduate expert engineers who are, investigative, innovative, self-confident, able to solve problems requiring expert knowledge by using scientific research methods and develop them with new approaches and in turn apply them to industry, are conscious of work ethics and protectors of the natural environment, and are able to develop strategy, policy and application plans for future.

The Outcome of Master's Degree Programme

  • To develop their knowledge in their own field to an expert level based on skills acquired in undergraduate level,
  • To comprehend interdisciplinary properties of Metallurgical and Materials Engineering field,
  • To be able to use theoretical and practical knowledge acquired in graduate level,
  • To be able to use interdisciplinary knowledge in solving problems related with the field,
  • To be able to apply knowledge acquired in their field to interdisciplinary studies,
  • To be able to solve the problems requiring expert knowledge by using scientific research methods, develop them with new approaches and apply to industry,
  • To be able to execute scientific studies independently,
  • To be able to present current progress, studies and results in their field in national and international levels as written, oral and visual presentation,
  • To be able to communicate in verbal and written ways at least in one foreign language,
  • To be able to use data processing and communication technologies in advanced level,
  • To be able to develop strategy, policy and application plans for future,
  • To be able to undertake an effective leadership by taking responsibility and using initiative,

Course Programme

Fall Semester

Course Code Course Title ECTS Theory Application
MME 5003 Kırılma Mekaniği 8   3
MME 5007 Demir Dışı Metaller 8   3
MME 5009 İleri Refrakterler 7   3
MME 5011 Sol-Gel Processing 7   3
MME 5015  Plazma Metalurjisi 6   3
MME 5025 High Temperature Corrosion 8   3
MME 5027 Texture and Anisotropy 7   3
MME 5041 Structural Termodynamics Of Materials 8   3
MME 5049 Environmental Sensitive Cracking 7   3
MME 5051 Kaynağın Termomekanik İncelenmesi 7   3
MME 5053 Carbon Nanomaterials 7   3
MME 5055 Surface Engineering 7   3
MME 5057 Polymeric Nanocomposites 7   3
MME 6003 Biyomalzemelerde Yüzeysel Değişiklikler 7   3
MME 6005 İnce Filmlerin Mekanik Özellikleri 7   3

Spring Semester

Course Code Course Title ECTS Theory Application
MME 5002 Advanced Tribology 8   3
MME 5004 Metallerin Plastik Deformasyon Özellikleri 8   3
MME 5010 Yüksek Sıcaklık Çimentoları 7   3
MME 5014 Electronic Ceramics 8   3
MME 5026 Advanced Characterization and Modification Techniques 9   3
MME 5028 Nanotechnology 8   3
MME 5042 Surface Treatment Of Materials 7   3
MME 5046 Asal Çelikler 8   3
MME 5048 İleri Seramik Süreçleri 7   3
MME 5052 Polymeric Materials 7   3
MME 5054 Yapısal Nanokristalin Malzemeler 7   3
MME 5056 Nanocomposites 7   3
MME 6006 Failure Analysis 8   3

Please click here to view the courses that should be passed at orientation program

Academic Calendar and Course Schedule

Master's Degree

Master's Degree Orientation Program

Doctoral Degree

Doctoral Degree Orientation Program

Courses

Course Code Course Title ECTS Theory Application
MME 5003 Kırılma Mekaniği 8   3
MME 5007 Demir Dışı Metaller 8   3
MME 5009 İleri Refrakterler 7   3
MME 5011 Sol-Gel Processing 7   3
MME 5015  Plazma Metalurjisi 6   3
MME 5025 High Temperature Corrosion 8   3
MME 5027 Texture and Anisotropy 7   3
MME 5041 Structural Termodynamics Of Materials 8   3
MME 5049 Environmental Sensitive Cracking 7   3
MME 5051 Kaynağın Termomekanik İncelenmesi 7   3
MME 5053 Carbon Nanomaterials 7   3
MME 5055 Surface Engineering 7   3
MME 5057 Polymeric Nanocomposites 7   3
MME 6003 Biyomalzemelerde Yüzeysel Değişiklikler 7   3
MME 6005 İnce Filmlerin Mekanik Özellikleri 7   3
MME 5002 Advanced Tribology 8   3
MME 5004 Metallerin Plastik Deformasyon Özellikleri 8   3
MME 5010 Yüksek Sıcaklık Çimentoları 7   3
MME 5014 Electronic Ceramics 8   3
MME 5026 Advanced Characterization And Modification Techniques 9   3
MME 5028 Nanotechnology 8   3
MME 5042 Surface Treatment Of Materials 7   3
MME 5046 Asal Çelikler 8   3
MME 5048 İleri Seramik Süreçleri 7   3
MME 5052 Polymeric Materials 7   3
MME 5054 Yapısal Nanokristalin Malzemeler 7   3
MME 5056 Nanocomposites 7   3
MME 6006 Failure Analysis 8   3