ELEC-D8710 - Principles of materials science, Lecture, 11.1.2024-22.4.2024
This course space end date is set to 22.04.2024 Search Courses: ELEC-D8710
Topic outline
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Welcome to Principles of materials science course 2024.
Lecturers are: Professor Tomi Laurila and Dr. Vesa Vuorinen
Course Assistant: MSc Ishan Pande
Content: The principles of the properties and structures of materials. The primary and secondary bonds and microstructures. Physical and mechanical properties of materials and their response under different stress states. Entropy law, the free energy of a system and the activity of a component. Phase diagrams of pure elements and binary alloys. The principles of diffusion and Fick's laws.
Learning outcomes: After the course the student (i) understands the hierarchical structure of inorganic materials, (ii) how the macroscopic properties of materials can be derived on the basis of lower level properties. In addition, the student should (iii) understand, apply and utilize the thermodynamic concepts and stability diagrams for solving materials scientific problems. After completion of the course student also understands the origins of the typical properties of different material groups and consequently their different usages in electronic and medical applications.
Assessment Methods and Criteria: Intermediate exams (100%)
Intermediate exams:
- 1st intermediate exam Monday 26.2
- 2nd intermediate exam Monday 22.4
- No registration needed
- Exercise points included
Extra exam:
- Friday 24.5 Maarintie 8, 2006 AS2 at 9.00-12.00 o'clock
- Compulsory, binding registration via e-mail, not in SISU
- Covers the whole course, individual intermediate exams can't be retaken (if you don't have valid reason).
- Exercise points are not included
Study Material: Handouts. For self-studying and to complement the lectures: Askeland, D. et al ."The science and engineering of materials", Shackelford, J. "Introduction to materials science for engineers", Callister, "Introduction to materials science and engineering“, Laurila et.al “Interfacial Compatibility in Microelectronics” and Laurila et al. “Thermodynamics, Diffusion and Kirkendall Effect in Solids”
