Akademik Dersler - İçerik

At the end of this course, the student; 1. can explain the importance of mechanical properties of materials and their industrial applications for engineering design on Materials Science and Engineering field.
1.1. can explain the basic concepts/methods defined for i) physical, ii) mechanical, iii) thermo-mechanical and iv) thermal properties/behaviours and v) standard tests of materials.
1.2. can calculate mechanical properties of materials.
1.3. can analyse mechanical properties of materials.
1.4. can determine the satisfaction of mechanical performance of materials for the design and fields use.
2. can express the information about fundamental conceptions of fracture mechanics with his/her own sentences.
2.1. can explain definitions and differences of mechanical properties.
2.2. has an ability to calculate and interpret of mechanical properties using Griffith equation.
2.3. has knowledge about experimental techniques and their requirements, analytical methods and crack and stress analysis to determine the parameters of fracture mechanics.
2.4. can explain the fracture process and fracture types/profile.
3. can explain the strengthening and toughening mechanisms of materials.
3.1. can determine the factors controlling cracks and the parameters improving strength and toughness with the addition of reinforcements.
3.2. can evaluate the effects of coefficients of thermal expansion difference between matrix and reinforcement.
3.3. can make comments about stress-strain behaviour of materials including reinforcement.
3.4. can explain toughening mechanisms.
3.5. can explain strengthening mechanisms and dislocations.
4. can explain the thermo-mechanical properties, thermal stress/shock parameters and thermal properties/behaviours of materials.
4.1. can explain the thermo-mechanical properties of materials.
4.2. can calculate/interpret the thermal stress/shock parameters that can be used to determine fracture initiation and propagation at high temperatures.
4.3. can explain the formation of thermal stresses and thermal properties/behaviours on materials.