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Mechanical Properties of Non-metallic Materials - NFPL051

Title:	Mechanické vlastnosti nekovových materiálů
Guaranteed by:	Department of Physics of Materials (32-KFM)
Faculty:	Faculty of Mathematics and Physics
Actual:	from 2022
Semester:	winter
E-Credits:	3
Hours per week, examination:	winter s.:2/0, Ex [HT]
Capacity:	unlimited
Min. number of students:	unlimited
4EU+:	no
Virtual mobility / capacity:	no
State of the course:	cancelled
Language:	Czech, English
Teaching methods:	full-time
Teaching methods:	full-time

Guarantor:	doc. Dr. rer. nat. Robert Král, Ph.D. prof. RNDr. Miloš Janeček, CSc.
Classification:	Physics > Solid State Physics
Is co-requisite for:	NFPL052

Opinion survey results Examination dates Schedule Noticeboard

Annotation -

Last update: doc. Dr. rer. nat. Robert Král, Ph.D. (17.02.2013)

Deformation of ionoc crystals: interaction of dislocations with ions of different valency, colour centres, pencil glide peculiarities. Deformation of covalent bond materilas. Deformation and electric conductivity. Deformation of ceramic materials. Deformation of metal matrix composites. Deformation of intermetallic compounds. Practical application of non-metallic materials.

Course completion requirements -

Last update: doc. Dr. rer. nat. Robert Král, Ph.D. (09.06.2019)

Final examination has to be passed.

Literature - Czech

Last update: doc. RNDr. Josef Pešička, CSc. (22.04.2014)

1. F.R.N. Nabarro: Dislocations in Solids, Vol.5, North Holland, Amsterdam 1986.

2. R.F Cook, G.. M. Pharr: Mechanical Properties of Ceramics, in: Materials Science and Technology (eds.: R.W. Cahn et al.), Vol. 11, str. 339, Willey-VCH, Weinheim 1994.

3. Y. Umakoshi: Deformation of Intermetallic Compounds, in: Materilas Science and Technology (eds.: R.W. Cahn et al.), Vol. 6, str. 251, Willey-VCH, Weinheim, 1993.

4. K.K. Chawla: Composite Materials: Science and Engineering, Springer, New York 1987.

5. Aktuální články podle pokynů přednášejících

Requirements to the exam -

Last update: doc. Dr. rer. nat. Robert Král, Ph.D. (09.06.2019)

Requirements for the exam correspond to the annotation.

The exam is oral.

Syllabus -

Last update: T_KFK (26.02.2003)

I. Ionic crystals Deforamtion in various crystallographic systems, pencil glide. Hardening by alloying elements Interaction of dislocations with colour centres

II. Deformation of covalent bond materials Glide geometry peculiarities The influence of deformation and dislocations on the electrical conductivity

III. Deformation of ceramic materials Deformation of Al2O3 and ZrO2 ceramics Deformation of complex ceramic systems Superplasticity of ceramic materials Ceramic materials as the matrix for composites, deformation of metal matrix composites

IV. Deformation of intermetallic compounds Flow stress dependence anomally Some selected examples of deformation behaviour of intermetallics - Fe3Al a Ni3Al

V. Practical application of non-metallic materials The emplyment of reinforcing fibres Electronics - the preparation of dislocation free materials

Literature: 1. Dislocations in Solids. Ed. F.R.N. Nabarro. Vol.5, North Holland, Amsterdam, 1980, p.127-191. 2. Dislocations in Solids. Ed. F.R.N. Nabarro. Vol.7,Elsevier, Amsterdam, 1986, p.113-234. 3. R.F Cook, G.. M. Pharr: Mechanical Properties of Ceramics, in: Materilas Science and Technology (eds.: R.W. Cahn et al.), Vol. 11, p. 339, Willey-VCH, Weinheim, 1994 4. Y. Umakoshi: Deformation of Intermetallic Compounds, in: Materilas Science and Technology (eds.: R.W. Cahn et al.), Vol. 6, p. 251, Willey-VCH, Weinheim, 1993 5. K.K. Chawla: Composite Materials: Science and Engineering, Springer, New York, 1987.