516-0937/02 – Structure and Mechanical Properties of Solids (SaMVPL)
Gurantor department | Institute of Physics | Credits | 10 |
Subject guarantor | prof. Dr. RNDr. Jiří Luňáček | Subject version guarantor | prof. Dr. RNDr. Jiří Luňáček |
Study level | postgraduate | Requirement | Choice-compulsory |
Year | | Semester | winter + summer |
| | Study language | Czech |
Year of introduction | 2003/2004 | Year of cancellation | 2015/2016 |
Intended for the faculties | HGF | Intended for study types | Doctoral |
Subject aims expressed by acquired skills and competences
Characterize basic concepts of the structural crystallography
Characterize and categorize point and line defects in crystal lattice
Arrange and discuss phenomena and methods of the structural analysis
Discuss and interpret elastic and plastic deformation of crystals
Analyze and discuss specially deformation of the single crystals, polycrystalline metals and alloys
Teaching methods
Lectures
Individual consultations
Summary
The first section deals with structural properties of the ideals and real
crystals. The theoretical characterizations and fundamental experimental
methods are showed. The second part is focused particularly at the plastic
deformation of pure metals and alloys. The hardening and softening mechanisms
depending on various physical parameters are studied.
Compulsory literature:
Recommended literature:
1. REED-HILL, R.E.: Physical Metallurgy Principles. University series in basic engineering. 1964, p. 630.
Way of continuous check of knowledge in the course of semester
E-learning
Other requirements
The basic physic courses must be finished.
Prerequisities
Subject has no prerequisities.
Co-requisities
Subject has no co-requisities.
Subject syllabus:
1. Basics of structural crystalography
1.1. Periodical structures
1.2. Graitings and bond
2. Defects in crystals
2.1. Ideal and real crystal
2.2. Points defects, concentration, observation methods
2.3. Dislocations in important structures
2.4. Experimental methods
3. Structural analysis
3.1. X-ray analysis and Bragg equation
3.2. Theory of difraction
3.3. Atomic and structural factors
3.4. Neutron and electron difraction, using in practise
4. Deformation of single crystals of pure metals
4.1. Elastic and plastic deformation
4.2. Geometry of deformation
4.3. Hardening curve
4.4. Influence of orietnation, temperature, velocity
5. Alloys deformation
5.1. Interaction between dislocation and admixtures
5.2. Glide stress in high temperature range (Portevin -LeChatelier effect, etc.)
5.3. Precipitation hardening
6. Polycrystal deformation
6.1. Deformation proofs
6.2. Recovery and recrystalisation
6.3. Superplasticity
6.4. Twinnigs
Conditions for subject completion
Occurrence in study plans
Occurrence in special blocks
Assessment of instruction
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