260254 VO Materials Physics II (2017S)
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Details
Sprache: Englisch
Prüfungstermine
Lehrende
Termine (iCal) - nächster Termin ist mit N markiert
Donnerstag
09.03.
11:30 - 13:00
Josef-Stefan-Hörsaal, Boltzmanngasse 5, 3. Stk., 1090 Wien
(Vorbesprechung)
Mittwoch
15.03.
11:30 - 13:00
Josef-Stefan-Hörsaal, Boltzmanngasse 5, 3. Stk., 1090 Wien
Donnerstag
16.03.
11:30 - 13:00
Josef-Stefan-Hörsaal, Boltzmanngasse 5, 3. Stk., 1090 Wien
Mittwoch
22.03.
11:30 - 13:00
Josef-Stefan-Hörsaal, Boltzmanngasse 5, 3. Stk., 1090 Wien
Donnerstag
23.03.
11:30 - 13:00
Josef-Stefan-Hörsaal, Boltzmanngasse 5, 3. Stk., 1090 Wien
Mittwoch
29.03.
11:30 - 13:00
Josef-Stefan-Hörsaal, Boltzmanngasse 5, 3. Stk., 1090 Wien
Donnerstag
30.03.
11:30 - 13:00
Josef-Stefan-Hörsaal, Boltzmanngasse 5, 3. Stk., 1090 Wien
Mittwoch
05.04.
11:30 - 13:00
Josef-Stefan-Hörsaal, Boltzmanngasse 5, 3. Stk., 1090 Wien
Donnerstag
06.04.
11:30 - 13:00
Josef-Stefan-Hörsaal, Boltzmanngasse 5, 3. Stk., 1090 Wien
Mittwoch
26.04.
11:30 - 13:00
Josef-Stefan-Hörsaal, Boltzmanngasse 5, 3. Stk., 1090 Wien
Donnerstag
27.04.
11:30 - 13:00
Josef-Stefan-Hörsaal, Boltzmanngasse 5, 3. Stk., 1090 Wien
Mittwoch
03.05.
11:30 - 13:00
Josef-Stefan-Hörsaal, Boltzmanngasse 5, 3. Stk., 1090 Wien
Donnerstag
04.05.
11:30 - 13:00
Josef-Stefan-Hörsaal, Boltzmanngasse 5, 3. Stk., 1090 Wien
Mittwoch
10.05.
11:30 - 13:00
Josef-Stefan-Hörsaal, Boltzmanngasse 5, 3. Stk., 1090 Wien
Donnerstag
11.05.
11:30 - 13:00
Josef-Stefan-Hörsaal, Boltzmanngasse 5, 3. Stk., 1090 Wien
Mittwoch
17.05.
11:30 - 13:00
Josef-Stefan-Hörsaal, Boltzmanngasse 5, 3. Stk., 1090 Wien
Donnerstag
18.05.
11:30 - 13:00
Josef-Stefan-Hörsaal, Boltzmanngasse 5, 3. Stk., 1090 Wien
Mittwoch
24.05.
11:30 - 13:00
Josef-Stefan-Hörsaal, Boltzmanngasse 5, 3. Stk., 1090 Wien
Mittwoch
31.05.
11:30 - 13:00
Josef-Stefan-Hörsaal, Boltzmanngasse 5, 3. Stk., 1090 Wien
Donnerstag
01.06.
11:30 - 13:00
Josef-Stefan-Hörsaal, Boltzmanngasse 5, 3. Stk., 1090 Wien
Mittwoch
07.06.
11:30 - 13:00
Josef-Stefan-Hörsaal, Boltzmanngasse 5, 3. Stk., 1090 Wien
Donnerstag
08.06.
11:30 - 13:00
Josef-Stefan-Hörsaal, Boltzmanngasse 5, 3. Stk., 1090 Wien
Mittwoch
14.06.
11:30 - 13:00
Josef-Stefan-Hörsaal, Boltzmanngasse 5, 3. Stk., 1090 Wien
Mittwoch
21.06.
11:30 - 13:00
Josef-Stefan-Hörsaal, Boltzmanngasse 5, 3. Stk., 1090 Wien
Donnerstag
22.06.
11:30 - 13:00
Josef-Stefan-Hörsaal, Boltzmanngasse 5, 3. Stk., 1090 Wien
Mittwoch
28.06.
11:30 - 13:00
Josef-Stefan-Hörsaal, Boltzmanngasse 5, 3. Stk., 1090 Wien
Donnerstag
29.06.
11:30 - 13:00
Josef-Stefan-Hörsaal, Boltzmanngasse 5, 3. Stk., 1090 Wien
Information
Ziele, Inhalte und Methode der Lehrveranstaltung
Art der Leistungskontrolle und erlaubte Hilfsmittel
Oral examination
Mindestanforderungen und Beurteilungsmaßstab
Oral examination covering the topics given in the contents. Requirements for a positive assessment are a thorough understanding of the relevant physical phenomena, presenting and processing the information using graphs and calculations where appropriate, and drawing valid conclusions supported by justification.
Prüfungsstoff
see section "contents" given above
Literatur
Donald. R. Askeland, Materialwissenschaften. Grundlagen, Übungen, Lösungen; Spektrum Akad. Verlag (The Science and Engineering of Materials, Chapman & Hall), online via http://home.ufam.edu.br/berti/nanomateriais/0495296023MaterialsEnginee.pdf
Günther Gottstein, Physikal. Grundlagen der Materialkunde, Springer, Berlin (Physical Foundations of Material Science, Springer, Berlin) - online in German via http://dx.doi.org/10.1007/978-3-642-36603-1
William Callister jr., David G. Rethwisch; Materialwissenschaften und Werkstofftechnik, eine Einführung, WILEY-VCH Weinheim, 2013 (Materials Science & Engineering, an Introduction
J.Wiley & Sons, 2011), Horst Böhm, Einführung in die Metallkunde ; B.I. Mannheim
Charles Kittel, Einführung in die Festkörperphysik; Oldenbourg (Introduction to Solid State Physics, J.Wiley & Sons)
A.C.Damask, G.J.Dienes, Point Defects in Metals, Gordon and Breach, 1963
L.E.F. Torres, S. Roche, J.-C. Charlier, Introduction to Graphene-Based Nanomaterials - From Electronic Structure to Quantum Transport, Cambridge University Press, 2014
F. Banhart, J. Kotakoski, A.V. Krasheninnikov, Structural Defects in Graphene, ACS Nano 5, 26-41 (2011), http://dx.doi.org/10.1021/nn102598mMore material will be announced during the lecture
Günther Gottstein, Physikal. Grundlagen der Materialkunde, Springer, Berlin (Physical Foundations of Material Science, Springer, Berlin) - online in German via http://dx.doi.org/10.1007/978-3-642-36603-1
William Callister jr., David G. Rethwisch; Materialwissenschaften und Werkstofftechnik, eine Einführung, WILEY-VCH Weinheim, 2013 (Materials Science & Engineering, an Introduction
J.Wiley & Sons, 2011), Horst Böhm, Einführung in die Metallkunde ; B.I. Mannheim
Charles Kittel, Einführung in die Festkörperphysik; Oldenbourg (Introduction to Solid State Physics, J.Wiley & Sons)
A.C.Damask, G.J.Dienes, Point Defects in Metals, Gordon and Breach, 1963
L.E.F. Torres, S. Roche, J.-C. Charlier, Introduction to Graphene-Based Nanomaterials - From Electronic Structure to Quantum Transport, Cambridge University Press, 2014
F. Banhart, J. Kotakoski, A.V. Krasheninnikov, Structural Defects in Graphene, ACS Nano 5, 26-41 (2011), http://dx.doi.org/10.1021/nn102598mMore material will be announced during the lecture
Zuordnung im Vorlesungsverzeichnis
MF 4, MaG 13, MaV 3, LA-Ph212(3)
Letzte Änderung: Mo 07.09.2020 15:41
Lecture to be used for bachelor and master studies. Recommended as preparation for "Materials Physics Lab Course and Lab Course Low Dimensional Solids. Education in important phenomena of Materials Physics and of their physical backgrounds, and in most important materials. Understanding of connections between structure and properties of materials, especially mechanical properties and electrical conductivity. Correlation between structural defects and material properties in graphene and other low-dimensional materials.COURSE CONTENTS
PHENOMENA: Diffusion in Materials, Thermally Activated Processes: Growth, Recovery & Recrystallisation, Coarsening, Determination of Activation Enthalpy, Strength Of Materials At Different Deformation Temperatures: Thermal Activation of Dislocation Motion, Kinetics of Phase Formation: Nucleation, Spinodal Decomposition, Martensitic Phase Transition & Shape Memory Effect
MATERIALS: Steels, Ceramics & Glasses, Micro & Nanocrystalline Materials (Metals, Polymers), Graphene-based materials (single- and multiwalled carbon nanotubes, fullerenes, mono-, bi- and few-layer graphene), other 2D materials (mono-layer h-BN, transition metal dichalcogenides, silicene, phosphorene)COURSE METHODS
Lecture with visualization and media support. Handouts of scripts with figures and images will be distributed as hard copies and via the eLearning system (Moodle)