Course detail

Metallic Materials

FCH-BC_KOVAcad. year: 2019/2020

1. Metal bond.
2. Basic types of crystal lattice.
3. Miller´s indicies, groups of equivalent planes.
4. Categorization of metals according their properties, purity. Polymorphism of metals.
5. Defects o lattices.
6. Solid solutions (Hume-Rothery rules).
7. Gibbs energy. Nucleation, energy balance. TTT diagrams.
8. Binary diagrams.
9. Diffusion (Fick´s laws).
10. Heat treatment of metals.
11. Corrosion of metals.
12. Non-ferrous metals.
13. Lecture from experts in the field of metal materials.

Language of instruction

Czech

Number of ECTS credits

4

Mode of study

Not applicable.

Learning outcomes of the course unit

Úspěšný absolvent předmětu dokáže zejména:

1) Na základě chemického složení materiálu popsat fázovou strukturu, určit chemickou povahu přítomných fází v zadané slitině,
2) Vysvětlit rozdíly ve struktuře hlavních typů ocelí a z jejich normového označení určit základní užitné vlastnosti (svařitelnost, kalitelnost, mez pevnosti, korozivzdornost),
3) Popsat specifika mosazí, bronzí, duralů a jiných slitin neželeznýh kovů,
4) Popsat základní postupy při výzkumu kovových materiálů (metalografie, mikroskopie s analýzou, korozní zkoušky, mechanické vlastnosti).

Prerequisites

General and inorganic chemistry I, II.
Structure of materials

Co-requisites

Not applicable.

Planned learning activities and teaching methods

The course uses teaching methods in form of Lecture - 2 teaching hours per week. The e-learning system (LMS Moodle) is available to teachers and students.

Assesment methods and criteria linked to learning outcomes

The examination is carried out in oral form.

Course curriculum

1. An introduction – pros and contras of metallic materials, topics of recent research, fundamental materials´ characteristics.
2. Metal bond – deduction by method MO-LCAO, properties. Arrangement of atoms in crystal lattice.
3. Real structures – defects, their formation and their meaning for chemical, corrosion and mechanical properties of materials.
4. Alloys – solid solutions, intermetallic compounds, Hume – Rothery rules for solid solutions (based on chemical nature of mixed metals). Properties of intermetallic compounds.
5. Equilibrium binary phase diagrams, derivation of composition of alloys.
6. Kinetics and thermodynamics of phase transformations. Diffusion, its mechanisms and quantitative description (during coating formation).
7. Electrochemical properties of metals, corrosion, high-temperature corrosion. Chemistry of corrosion products.
8. Corrosion protection – chemical technology of surface treatments and pretreatments.
9. Means of research of metallic materials, corrosion mechanisms and surface treatments.
10. Basic steel grades. Their composition and information contained in their standardized designation.
11. Nonferrous metals and their alloys: Copper, brasses, bronzes. Aluminum, duralumins.
12. Nonferrous metals and their alloys: Magnesium, zinc, titanium, chromium, nickel, Summary of other metals and their use.
13. Lecture from experts in the field metal materials - metals, surface treatments, technological processes, heat treatment, metal bonding, etc.

Work placements

Not applicable.

Aims

Target audience is presented by students aimed on materials´ chemistry. Goal of the lecture is to introduce real metallic structures in the context of previously taught chemical disciplines. The secondary goal is then the knowledge of most important properties of materials, their practical use and systematic categorization of both ferrous and nonferrous alloys.

Specification of controlled education, way of implementation and compensation for absences

Subject is taught as lectures with voluntary attendance. According recent plan of study program there is no form of compulsory tasks in this subject.

Recommended optional programme components

Not applicable.

Prerequisites and corequisites

Not applicable.

Basic literature

L. Ptáček a kol.: Nauka o Materiálu I,II. CERM, Brno 2003. (CS)
WASSERBAUER, J.; TKACZ, J.; BŘEZINA, M. Praktikum z kovových materiálů. Praktikum z kovových materiálů. Vysoké učení technické v Brně, Fakulta chemická, 2017. s. 1-136. ISBN: 978-80-214-5463- 7. (CS)
W.D. Callister, Jr.: Materials Science and Engineering: An Introduction. 5th ed., John Wiley & Sons, Inc. 2000. (CS)

Recommended reading

M. Hluchý, O. Modráček, R. Paňák: Strojírenská technologie 1, 2.díl Metalografie a tepelné zpracování. Sciantia, s.r.o., Praha 1999. (CS)
P. Kratochvíl, P. Lukáč, B. Sprušil: Úvod do fyziky kovů I. SNTL, Praha 1984. (CS)
Z. Jonšta: Nauka o kovech II. VŠB-TU, Ostrava 2000. (CS)

Elearning

Classification of course in study plans

  • Programme BPCP_CHTM Bachelor's 3 year of study, summer semester, compulsory-optional

  • Programme BPCP_CHCHT Bachelor's

    branch BPCO_CHM , 3 year of study, summer semester, compulsory-optional

  • Programme BKCP_CHCHT Bachelor's

    branch BKCO_CHM , 3 year of study, summer semester, compulsory-optional

  • Programme BKCP_CHTM Bachelor's 3 year of study, summer semester, compulsory-optional

Type of course unit

 

Lecture

26 hod., optionally

Teacher / Lecturer

Elearning