Course Objectives: |
To build knowledge on the connections between microscopic material structure (atomic or crystal structure, nano-sized defects, etc.) and macroscopic mechanical or electrical properties for engineering materials consisting of metals, ceramics, organics and composites. It is also aimed to emphasize the importance of material selection in targeted material design for a wide range of applications. Furthermore, it is aimed to enable students to trace macroscopic material properties to their underlying microscopic origins through the knowledge of structure-property relationships, thus improving their understanding of the material-property relationship. |
Course Content: |
Definition and Classification of Engineering Materials, Structure of the Material, Atomic Structure, Bond Types and Properties, Crystal Structure and Properties, Allotropy, Crystal Structure Defects, Crystal Structure Defects, Diffusion, Phase Diagrams, Fe-C System, Phase Transformations, Thermal Treatments Applied to Metals, Electrical, Thermal, Magnetic and Optical Properties, Electronic Materials, Metals, Ceramics, Polymers and Composite Materials, Corrosion and Corrosion Protection in Metallic Materials |
Week |
Subject |
Related Preparation |
1) |
Introduction to Materials Science, Identification and Classification of Materials, Advanced Materials, Material Design and Selection, Examinations on Example |
Related chapter in the reference book |
2) |
Structure of the Material, Atomic Structure, Bonds and Their Effects on the Properties of Materials |
Related chapter in the reference book |
3) |
Crystal Systems and Their Properties, Point Coordinates in Lattice Structure, Definition of Crystallographic Directions and Planes, Polymorphism, Allotropy, Anisotropy, Single-Crystalline and Polycrystalline Materials |
Related chapter in the reference book |
4) |
Crystal Structure Defects; Dislocations, Importance of Crystal Structure Defects, Studies on Examples |
Related chapter in the reference book |
5) |
Diffusion; Diffusion Mechanisms, Factors Affecting Diffusion, Activation Energy, 1. Fick's Law, II. Fick's Law, Sample Applications |
Related chapter in the reference book |
6) |
Mechanical Properties; Elastic Deformation, Stress and Strain Curve, Mechanical Behavior of Metals, Ceramics and Polymers, Hardness, Impact Test, Creep, Fatigue Test |
Related chapter in the reference book |
7) |
Strengthening Mechanisms; Deformation Mechanisms in Metals; Dislocations, Slip Systems, Twinning, Strengthening Mechanisms in Metals; Solid Solution Strengthening, Strain Strengthening, Grain Size Reduction, Recrystallization. |
Related chapter in the reference book |
8) |
Midterm exam |
|
9) |
Phase Diagrams; Binary Phase Diagrams, Relationship Between Material Properties and Phase Diagram, Gibb's Phase Rule, Solidification, Binary Eutectic Systems, Examinations on Examples |
Related chapter in the reference book |
10) |
Eutectoid Phase Transformation; Fe-C and Fe-Cementite Phase Diagrams and Phase Properties, Controlling the Eutectoid Reaction, Isothermal Heat Treatments, Continuous Cooling Transformation Diagrams, Examples |
Related chapter in the reference book |
11) |
Heat treatments of ferrous and non-ferrous metals; Hardening, spheroidizing, normalizing, quenching and tempering, martensite structure |
Related chapter in the reference book |
12) |
Surface Hardening Processes; Carburizing, Boriding, Nitriding, Induction Hardening, Coarse Grain Annealing, Aging Process, Recrystallization Process, Examination on Sample |
Related chapter in the reference book |
13) |
Electrical properties and Electronic Materials; Electrical Conductivity, Semiconductivity and Semiconductor Devices, Electrical Conductivity in Ceramics and Polymers, Dielectric Properties |
Related chapter in the reference book |
14) |
Metals, Ceramics and Polymers and Composite Materials and Applications, Studies on Examples |
Related chapter in the reference book |
15) |
Corrosion and Corrosion Protection in Metals |
Related chapter in the reference book |
|
Program Outcomes |
Level of Contribution |
1) |
Ability to utilize advanced theoretical and applied knowledge in the field. |
2 |
2) |
Using the advanced knowledge and skills acquired in the field, being able to interpret and evaluate data, identify problems, analyze them, and develop solution proposals based on research and evidence. |
2 |
3) |
Being able to organize and implement projects and activities for the social environment in which one lives with a sense of social responsibility. |
2 |
4) |
Being able to follow information in one foreign language at least at the European Language Portfolio B1 General Level and communicate with colleagues in the field. |
1 |
5) |
Ability to use information and communication technologies together with at least European Computer Driving License Advanced Level computer software, as required by the field. |
1 |
6) |
Being able to evaluate advanced knowledge and skills in the field critically. |
2 |
7) |
Identifying learning needs and being able to direct learning. |
3 |
8) |
Developing a positive attitude towards lifelong learning. |
2 |
9) |
Acting in accordance with social, scientific, cultural, and ethical values in the stages of collecting, interpreting, applying, and announcing the results related to the field. |
2 |
10) |
Having sufficient awareness about the universality of social rights, social justice, quality culture, preservation of cultural values, as well as environmental protection, occupational health, and safety. |
2 |
11) |
Being able to conduct an advanced study independently in the field. |
2 |
12) |
To take responsibility individually and as a team member to solve complex problems encountered in the field of application, which are unforeseen. |
2 |
13) |
Being able to plan and manage activities for the development of those under their responsibility within the framework of a project. |
2 |
14) |
Possess advanced level theoretical and practical knowledge supported by textbooks with updated information, practice equipments and other resources. |
2 |
15) |
Being able to inform relevant individuals and institutions about the field; expressing their thoughts and solution proposals for problems both in written and verbal form. |
2 |
16) |
Being able to share your thoughts and solutions regarding subjects related to the field with both experts and non-experts, supported by quantitative and qualitative data. |
1 |