Course detail
Introduction to the Materials Physics
FSI-WUF Acad. year: 2023/2024 Summer semester
The purpose of the course „Introduction to physics of materials“ is to give to students necessary theoretical basis for solution problems in materials engineering. The main issues of the course are fundamental physicallaws governing the properties and manufacturing processes of the materials. Beside the metallic materials, it covers also basics of ceramics and polymers, their properties and processing. In this way, it creates cross-disciplinary bonds between various types of material.
Language of instruction
Czech
Number of ECTS credits
5
Supervisor
Entry knowledge
The course continue knowledges from atomic composition field, chemical thermodynamic, electrochemistry, crystalline composition of metals, equilibrium and disequilibrium phase transformations focused on metal systems, deformation and fracture behaviour of materials and knowledge of structure and properties of basic groups of metalic and nonmetalic materials
Rules for evaluation and completion of the course
Students have to take part in all practices, to give over all protocols of laboratory practices, which have to meet commensurate scientific and graphic level. Students have to elaborate final semestral thesis which will be included in the exam classification. Knowledges of given topics are to be chcked at the exam mainly by written form. List of topics will be notified to students at the beginning of the course. At the verbal part of the exam students will answer questions for other knowledges verification. Final classification includes: protocols evaluation, final thesis evaluation and results of the written and verbal parts of the exam.
Participation in practices is mandatory, must be properly excused absence. Attendance in practices will be checked, non-participation have to be duly excused. Basic credit conditions is continuous giving over protocols. Knowledges of lectured topics will be checked by short tests. In the case of sick leave in practice given topic will be supplied by individual submission.
Aims
The aim of this course is to notify students of inner structure of real crystalic and amorphous materials (metals, ceramics, polymers) and of the influence of defects interactions on their application properties and manufacturing processes.The task os this course is to give knowledges about relationship among phase composition, transformations, mechanical and other properties of the material.
This course allows students to obtain knowledges about inner structure of materials and about thermodynamics and kinetics of processes during material's manufacturing and use. Students get knowledges about relations between microstructure and properties of materials.
The study programmes with the given course
Programme B-ZSI-P: Fundamentals of Mechanical Engineering, Bachelor's
specialization MTI: Materials Engineering, compulsory
Type of course unit
Lecture
39 hours, optionally
Teacher / Lecturer
Syllabus
1. Elements and their properties. Types of interatomic bonds
2. Inner arrangement of metallic and non-metallic materials
3. Electron theory of metals and its application – electrical conductivity, magnetism, cohesion.
4. Imperfections of inner structure of materials, their exhibitions and importance
5. Thermodynamics of chemical elements, pure materials, solutions and intermediary phases
6. Kinetics of phase transformations
7. Crystallization of metals and alloys
8. Diffusion and no diffusion transformations in metal systems
9. Thermal, electrical and magnetic properties of matters
Laboratory exercise
26 hours, compulsory
Teacher / Lecturer
Syllabus
1. Structure of atoms
2. Crystal structures – basic structures, Miller indices of directions and planes, multiple structures
3. Thermodynamics of pure materials
4. Thermodynamics of solutions
5. Enthalpy diagrams for common equilibrium phase diagrams
6. Enthalpy diagrams for Fe – C system
7. Formation of proeutectoid ferrite
8. Construction of kinetic diagrams
9. Quantitative methods of classification material structure and their utilization in thermodynamics
10. Determination of Gibb’s energy of austenite grain growth
11. Diffusion I – solving of the basic problems
12. Diffusivity of carbon during cementation // Carbon diffusivity during cementation
13. Advanced plastics