Course detail
Structure and Properties of Materials
FSI-3SV Acad. year: 2022/2023 Winter semester
Phase transformations during the heat treatment of metals and alloys. Fundamental knowledge of structural materials (ferrous alloys and non-ferrous metals, ceramics, polymers, and composites) – their chemical composition and technological treatment in relation to their crystallographic, sub-structural, structural, and mechanical properties; degradation processes resulting from the application of these materials. Principles of selecting materials for engineering constructions.
Language of instruction
Czech
Number of ECTS credits
5
Supervisor
Learning outcomes of the course unit
Technologists will be provided with the knowledge of the relations between the structure, sub-structure, and treatment properties of structural materials. Designers will learn about how to make full use of structural materials. For all materials (of both current and enhanced properties) the principles are defined for their technically and economically suitable application.
Prerequisites
1. Structure of atom, fundamentals of crystallography
2. Basic concepts in physical chemistry (entropy, free energy, free enthalpy, phases, phase equilibria, chemical equilibria)
3. Structure of real crystals (crystal lattice defects and their properties)
4. Thermodynamics of solids
5. Diffusion, diffusion processes
6. Phases in metallic and ceramic systems. Equilibrium diagrams
7. Phase transformations
8. Deformation and fracture properties, testing of mechanical properties of structural materials
Planned learning activities and teaching methods
The course is taught through lectures explaining the basic principles and theory of the discipline. Teaching is suplemented by practical laboratory work.
Assesment methods and criteria linked to learning outcomes
Examination. The examination consists of written and oral part. In the written part, students answer four questions related to topics dealt with in the course of the semester. In the oral part, students answer questions resulting from the written part as well as examiner's additional questions.
Aims
The objective is to provide knowledge on the composition, structure, and treatment of materials in relation to their properties that are relevant for treatment technologies and design applications. It enables understanding the essence of the above processes and their mutual causal relations.
Specification of controlled education, way of implementation and compensation for absences
Awarding the course. Participation in practices is mandatory, must be properly excused absence. Unit credit is conditional on having participated in all exercises and worked out the reports from exercises in keeping with the teacher's instructions. Absence from exercises must be accounted for. Students who have missed an exercise will be given an extra assignment. They will prove in the form of a written report that they have mastered the given topic.
The study programmes with the given course
Programme B-PDS-P: Industrial Design, Bachelor's, compulsory
Programme B-VTE-P: Production Technology, Bachelor's, compulsory
Programme B-ENE-P: Energy, Bachelor's, compulsory
Programme B-MET-P: Mechatronics, Bachelor's, elective
Programme B-STR-P: Engineering, Bachelor's
specialization KSB: Quality, Reliability and Safety, compulsory
Programme B-ZSI-P: Fundamentals of Mechanical Engineering, Bachelor's
specialization MTI: Materials Engineering, compulsory
Programme B-STR-P: Engineering, Bachelor's
specialization SSZ: Machine and Equipment Construction, compulsory
Programme B-ZSI-P: Fundamentals of Mechanical Engineering, Bachelor's
specialization STI: Fundamentals of Mechanical Engineering, compulsory
Type of course unit
Lecture
26 hours, optionally
Teacher / Lecturer
Syllabus
1. Fundamentals of the metallurgy of iron and steel
2. Accompanying and additive elements in alloys of iron and carbon
3. Phase transformation in the heat treatment of ferrous alloys
4. Heat treatment procedures
5. Low-carbon structural steels for welded structures, case-hardening steel, deep drawing steel, structural steels for heat treatment,
6. Steels resistant to corrosion, heat, creep,
7. Tool steels and alloys
8. Cast irons
9. Non-ferrous metals and alloys I – Al, Mg, Ti
10. Structural metals and alloys II – Cu, Ni, Co
11. Structural ceramic materials
12. Structural polymers
13. Composite materials
14. Principles of selecting structural materials
Laboratory exercise
26 hours, compulsory
Teacher / Lecturer
Ing. Pavel Doležal, Ph.D.
Ing. Petr Havlík, Ph.D.
Ing. Martin Heczko
Ing. Simona Hutařová, Ph.D.
Ing. Jakub Judas
Ing. Dina Kičmerová, Ph.D.
Ing. Eva Molliková, Ph.D.,Paed IGIP
Ing. Karel Němec, Ph.D.
Ing. Pavel Papež
Ing. Zina Pavloušková, Ph.D.
prof. Ing. Tomáš Podrábský, CSc.
Ing. Jakub Poloprudský, Ph.D.
Ing. Lukáš Řehořek, Ph.D.
Ing. Roman Štěpánek, Ph.D.
prof. Ing. Stanislav Věchet, CSc.
Ing. Josef Zapletal, Ph.D.
Ing. Martin Zelený, Ph.D.
Syllabus
1.Introductory exercises. Organizational matters, training, work safety
2. Standard marking the steels and cast irons,
3. Structure and properties of iron alloys.
4. Austenitizace, diagrams. of the IRA, ARA
5. Basic types of thermal processing
6. Chemical-thermal treatment.
7. Low-carbon steel.
8. Stainless steel and heat-resistant.
9. Tool steel.
10. Graphitic cast iron.
11. Non-ferrous metals I-solders and Al alloys
12. Non-ferrous metals II-Cu alloys
13. Polymers.