Course detail
Chapters of Materials Engineering
FSI-0MEAcad. year: 2023/2024
The course "Lectures of materials engineering" should provide necessary additional knowledge to students studying the master programme“Materials engineering”. Itis intended for absolvents of bachelor programmes of general types, which do not cover this topic.It is focused onthe set of basic knowledge, which includes the metallic and non-metallic materials, their production and their thermal processing. Students gain a knowledge of engineering materials,its degradation processes and modern experimental methods for testing of materials. Attendance of the course is a prerequisite for a creative work in the field of materials engineering.
Language of instruction
Number of ECTS credits
Mode of study
Guarantor
Entry knowledge
Rules for evaluation and completion of the course
Participation in practices is mandatory, must be properly excused absence. Attendance in the practices will be checked.Absences have to be properlyexcused.Students have to submit their laboratory reportscontinuously. A knowledge of discussedtopics will be checked inshort tests. In the case of sick leave in practice given topic will be substitutedby individual work.
Aims
The course"Lectures of materials engineering” allowsto extend student’sknowledge of construction materials, methods of their preparation and thermal processing. Students become familiar with the production as well as operating degradation processes of materials. Another output isa knowledge of the experimental techniques forobservation and evaluation of the structures and the mechanical properties of materials.
Study aids
Prerequisites and corequisites
Basic literature
Hanke, L.D.: Handbook of analytical methods for materials, Materials evaluation andEngineering, Inc. 2001 (EN)
Recommended reading
Classification of course in study plans
- Programme N-MTI-P Master's 1 year of study, winter semester, elective
Type of course unit
Lecture
Teacher / Lecturer
Syllabus
1. The selected group of folded and cast iron alloys
2. The selected group of non-ferrous metal alloys
3. The structure and properties of non-metallic materials
4. Technology of conditioning of non-metallic materials
5. Controlled atmospheres for heat and chemical-heat treatment
6. Vacuum and low pressure technologies for heat and chemical-heat treatment
7. Degradation of materials, explanation of the concept, manufacturing degradation.
8. Degradation of materials, service degradation.
9. The light microscopy and preparation of samples
10. Electron microscopy, chemical and X-ray phase analysis and dilatometry
11.Microstructural parameters. Evaluation of surface layers and welds
12.Highcycle and lowcycle fatigue of metal materials
13.Brittle failure of materials.
Laboratory exercise
Teacher / Lecturer
Syllabus
1. The structure and properties of the selected design and tool steel
2. The structure and properties of the selected types of non-ferrous metal alloys
3. Chemical thermodynamics
4. Technology and the use of glass, ceramics and polymers, and the link between their properties
5. Quenching media and its control
6. Control oftemperature and atmospheres
7. Examples of manufacturing degradation, including defects.
8. Examples of service degradation.
9. Samples preparation and evaluation of structures with a light microscope
10.The local chemical microanalysisby SEM(EDS and WDS)
11.Evaluation of microstructural parameters
12.Fatigue of materials and its testing
13.Impact test, fracture toughness test