Course Details Language of Instruction Turkish Level of Course Unit Bachelor's Degree Department / Program Metallurgical and Materials Science Engineering Type of Program Formal Education Type of Course Unit Compulsory Course Delivery Method Face To Face Objectives of the Course Metallurgical and Materials Engineering education, the transformation of the structure in the material, the relationship between microstructure and physical properties of students to learn the theoretical information. Course Content 1 th. Week: Thermodynamics of phase transformations 2 th Week: Thermodynamics of phase transformations 3 th Week: Diffusion-surface treatment-atom diffusion-mobility-diffusion coefficient 4 th Week: Diffusion-surface treatments-atom diffusion-mobility-diffusion coefficient 5 th Week: Practice 6 th Week:Interfaces, grain boundaries 7 th Week: Grain growth 8 th Week: Midterm Exam 9 th Week: Annealling of cold work materials 10 th Week: Solid state interfaces 11 th Week: Precipitation hardening 12 th Week: Solidification 13 th Week: Constitutional supercooling 14 th Week: Phase transformations in carbon steel, presentation 15 th Week: Final Exam Course Methods and Techniques Prerequisites and co-requisities None Course Coordinator None Name of Lecturers Asist Prof. Ayşe Berksoy Yavuz Assistants None Work Placement(s) No Recommended or Required Reading Resources John D. Verhoven, ‘’Fundamental of Physical Metallurgy’’, John Wiley&Sons, New York, 1974 Course Notes John D. Verhoven ''Fundamentals of Physical Metallurgy'', John Wiley&Sons,New York, 1974. Documents John D. Verhoven ''Fundamentals of Physical Metallurgy'', John Wiley&Sons,New York, 1974. Course Category Mathematics and Basic Sciences %25 Engineering %25 Field %50

 
 
 
 
  
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