Chair for Multicomponent Materials

Lectures and Seminars

IMPORTANT INFORMATION ON STUDY COURSES AND EXERCISES DURING THE LOCKDOWN

To minimize the spread of the Corona virus, all on-side lectures and exercises have been suspended until at least 19th April 2020. However, all lectures, exercises and seminars of the upcoming Summer term will be held online using the Zoom web conference software starting on April 6, 2020. The respective dates and times can be found in the Univis. The software can be downloaded here Zoom. Please make yourself familiar with Zoom beforehand.


For each teaching event a specific online lecture room has been set up. How to enter a room?

Room: Use either the direct link to a room or search for the room's unique identification number (see list below)

Password: same as for the lecture slides in the previous semester

 

For more information on the Corona virus you can visit this link https://www.uni-kiel.de/en/coronavirus
For more information on upcoming repitition lectures see below!

 

 

Winter Term

mawi-101: Übungen zur Physik 1

Die Informationen hier sind veraltet und werden nicht mehr aktualisiert.

Aktuelle Kursinfo nach Registrierung über OLAT:

https://lms.uni-kiel.de/url/RepositoryEntry/3658022912

 
Das Zugangspasswort wird vom Dozenten vergeben. Im OLAT finden sich weitere Informationen zur Onlinelehre und den Zoomaccounts.  
   
   
   
   
Einführung und Formalia der Übungen  
Checkliste Formfehler  
Infozettel zu Newtonschen Axiomen und dem Weg-Zeit-Gesetz  
Beispielhafte Musterlösung einer Aufgabe  
Hinweise zum korrekten Zitieren  

mawi-105: Einführung in die Materialwissenschaft 1

Die Informationen hier sind veraltet und werden nicht mehr aktualisiert.

Aktuelle Kursinfo nach Registrierung über OLAT:

https://lms.uni-kiel.de/url/RepositoryEntry/3708911646

Das Zugangspasswort wird vom Dozenten vergeben. Im OLAT finden sich weitere Informationen zur Onlinelehre und den Zoomaccounts.
 

 

0 Einführung      
1 Atome und Kristalle      
2 Phasendiagramme      
3 Diffusion und Gefüge      
4 Mechanik      
5 Physikalische Eigenschaften      
6 Tribologie und Korrosion      
7 Polymere      
8 Metalle      
9 Keramik      
10 Verbundwerkstoffe      
11 Fertigung      

mawi-502: Werkstoffe (Polymere)

Die Unterrichtssprache ist Englisch.

0 Literature
Literature Overview
1 Chapter 1
Properties and Classification
2 Chapter 2
Polymer Synthesis
3a Chapter 3a
Polymer Synthesis-Basis, Kinetics & Statistics
3b Chapter 3b
Add-Slides
4 Chapter 4
Polymers in Solution and Polymer Blends-Thermodynamics & Kinetics
5 Chapter 5
Crystallization, Melting and Glass Transition in Polymers
6 Chapter 6
Properties of Polymers I: Mechanical and Rheological Characteristics
7 Chapter 7
Properties of Polymers II: Electrical, Optical and Magnetic Characteristics of Polymers
8 Chapter 8
Processing of Polymers
9 Chapter 9
Polymer Films

 

Aufgezeichnete Vorlesungen zum Download

  1. Vorlesung 1 - 08.04.2020

mawi-702: Solid State Physics 1

 

Meeting-ID

Link

Lecture

833-2155-5240

https://zoom.us/j/83321555240

Exercise

589-818-1462

https://zoom.us/j/5898181462

Password: Same as for lecture notes

 

Lecture notes: 

0 Introduction and Fundamentals of Quantum Mechanics (03.12.2020)
Mathematical tools, quantum mechanical axioms and operators, Schroedinger equation
1 Chemical Bonds in Solids (04.12.2020)
Covalent bond, ionic bond, van der Waals bond, hydrogen bond, metallic bond
2 Crystal Structure
Translational lattice, symmetry, simple crystal structures, the effect of defects on physical properties, noncrystalline solids
3 Diffraction by Solids
Crystalline solids and reciprocal lattice, structure factor, diffraction by noncrystalline solids, experimental methods, diffraction at surfaces
4 Dynamics of crystal lattices
Lattice vibrations, thermal properties of crystals, thermal expansion, thermal conduction by phonons, phonon spectroscopy

Recorded lectures

  1. SSP II Lecture 1 - 06.11.2020
  2. SSP II Lecture 2 - 13.11.2020
  3. SSP II Lecture 3 - 20.11.2020
  4. SSP II Lecture 4 - 27.11.2020
  5. SSP II Lecture 5 - 04.12.2020
  6. SSP II Lecture 6 - 11.12.2020
  7. SSP II Lecture 7 - 18.12.2020
  8. SSP II Lecture 8 - 08.01.2021
  9. SSP II Lecture 9 - 15.01.2021

 

Exercises: 

SSP I Exercise nr. 1
SSP I Exercise nr. 1 - scalar product
SSP I Exercise nr. 1 - Fourier
SSP I Exercise nr. 2
SSP I Exercise nr. 2 DATA
SSP I Exercise nr. 3
SSP I Exercise nr. 4
SSP I Exercise nr. 4 - FT
SSP I Exercise nr. 4 - IFT
SSP I Exercise nr. 5
SSP I Exercise nr. 6
SSP I Exercise nr. 6 hybridization
SSP I Exercise nr. 7
SSP I Exercise nr. 8
SSP I Review Oct-Dec
SSP I Exercise nr. 9
SSP I Exercise nr. 10
SSP I Exercise nr. 11

mawi-911: Thin Films

 The information here is outdated and will not be updated any more.

Recent info after registration via OLAT:

https://lms.uni-kiel.de/url/RepositoryEntry/3708911653

The password will be provided by the lecturer. After registration you will find there also info on Zoom accounts for lecture and exercises.

 

 

Lecture notes

0 Introduction
1 Basics
2 Vacuum physics
3 Deposition techniques
4 Basic Properties
5 Growth
6 Methods and Analysis
7 Epitaxy
8 Microstructural evolution
9 Interdiffusion and Reactions
10 Mechanical Properties
11 Electrical Properties
12 Magnetic Properties
13 Optical Properties
14 Polymeric Thin Films

mawi-919: Advanced Organic Materials

 

Meeting-ID

Link

Lecture

880-5151-1766

https://zoom.us/j/88051511766

Password: Same as for lecture notes

 

The list with topics for the seminar including all dates and presenterss can be downloaded here. (Updated 25.11.2020)

The criteria for the seminar can be downloaded here.

 

Please register for a topic from this list here.

Do not forget to enter your mail adress to the comment section. 

 

Presentations

Self-Healing Polymers

Conducting Polymers

Summer Term

mawi-201: Übungen zur Physik 2

Wichtige Informationen zu MNF-phys-201: Physik II

 

Die Vorlesung Physik II soll erst ab dem 21.4.2020 stattfinden (Stand 06.04.2020). Die Ausgabe von Übungszetteln und Durchführung der Übung sind damit ebenfalls bis zum Start der Vorlesung verschoben. Die Einteilung der Gruppe findet in der Vorlesung "Einführung MaWi 2" am 6.4. statt.

Die Übungszettel erscheinen hier sowie im OLAT (https://lms.uni-kiel.de/url/RepositoryEntry/3289448659). Übungsabgabe erfolgt per Mail innerhalb der entsprechenden Fristen an den jeweiligen Übungsgruppenleiter. Hierbei sind die Einreichung einer handschriftlichen Lösung als Foto oder Scan (wichtig: Lesbarkeit!) oder alternativ eine komplett digitale Lösung, beispielsweise als PDF, erlaubt. Die korrigierten Übungszettel werden anschließend in einer Online-Präsenzveranstaltung mittels der Webkonferenz-Software Zoom besprochen. Die Zugangsinformationen sind unten zu finden. Das Passwort ist identisch zu dem der Folien.

Das Bestehen der Übung ist weiterhin Zulassungskriterium für die Klausur. Aufgrund der besonderen Situation wird die Anzahl der benötigten Punkte zum Bestehen der Übung auf 1/3 aller Gesamtpunkte gesenkt.

Weitere Informationen als Präsentation zu MaWi 2 und Physik II sind dem nachfolgenden Link zu entnehmen:

Informationen zu MaWi 2 und Physik 2

 

 Übungsgruppe

Meeting-ID

Link

Dienstag

858-752-165

https://zoom.us/j/858752165

Mittwoch

980-040-250

https://zoom.us/j/980040250

   

 Übungszettel

Physik II Übungszettel Nr.5

Physik II Übungszettel Nr.6

mawi-421: Werkstoffe 1 - Polymere

The repitition lecture will take place using the Zoom conference software on 28th September 2020 at 10:00.

To participate simply follow this  Link.

Or use the meeting ID ( 964 0390 6336 ) in combination with the identification code (417938) 

 

 

0 Overview of the lecture
1 Chapter 1 Introduction (Updated 21.04.20)
2 Chapter 2 Polymer synthesis (Updated 21.04.20)
3 Chapter 3 Polymers in melts and solutions (22.05.20)
4 Chapter 4 Glass transition and crystallization (26.05.20)
5 Chapter 5 Mechanical and rhelogical problems (30.06.20)
6 Chapter 6 Electrical and Optical Properties (30.06.20)
7 Chapter 7 Processing (30.06.20)
8 Chapter 8 Polymer composites (30.06.20)

 

Aufgezeichnete Vorlesungen zum Download

  1. Vorlesung 1 - 08.04.2020
  2. Vorlesung 2 - 15.04.2020
  3. Vorlesung 3 - 22.04.2020
  4. Vorlesung 4 - 29.04.2020
  5. Vorlesung 5 - 05.05.2020
  6. Vorlesung 6 - 13.05.2020
  7. Vorlesung 7 - 20.05.2020
  8. Vorlesung 8 - 27.05.2020
  9. Vorlesung 9 - 03.06.2020
  10. Vorlesung 10 - 10.06.2020
  11. Vorlesung 11 - 17.06.2020
  12. Vorlesung 12 - 24.06.2020
  13. Vorlesung 11 - 01.07.2020

 

mawi-702: Solid State Physics 2

 

Meeting-ID

Link

Lecture

228-363-086

https://zoom.us/j/228363086

Exercise

126-507-495

https://zoom.us/j/126507495

 

Lecture notes: 

5   

Electrons in Solids

Free electron gas and Fermi statistics, density of states, specific heat of metals, thermionic emission of electrons from metals, band structure of solids, crystal electrons in external fields, electrical conductivity of metals
6

Semiconductors
Intrinsic semiconductors, doping, experimental methods to determine electronic properties of semiconductors and metals, amorphous semiconductors, p-n junctions, heterostructures and super lattices

7

Magnetic properties
Diamagnetism, paramagnetism, ferro- and antiferrromagnetism

8

Dielectric properties
Dielectric constant and polarizability, optical properties, ferroelectric solids, experimental methods to determine the dielectric function

 

Recorded lectures

  1. SSP II Lecture 1 - 06.04.2020
  2. SSP II Lecture 2 - 14.04.2020
  3. SSP II Lecture 3 - 21.04.2020
  4. SSP II Lecture 4 - 28.04.2020
  5. SSP II Lecture 5 - 04.05.2020
  6. SSP II Lecture 6 - 12.05.2020
  7. SSP II Lecture 7 - 19.05.2020
  8. SSP II Lecture 8 - 26.05.2020
  9. SSP II Lecture 9 - 02.06.2020
  10. SSP II Lecture 10 - 09.06.2020
  11. SSP II Lecture 11 - 16.06.2020
  12. SSP II Lecture 12 - 23.06.2020
  13. SSP II Lecture 13 - 30.06.2020

 

Exercises:

SSP II Exercise nr. 1
SSP II Exercise nr. 2
SSP II Exercise nr. 3
SSP II Exercise nr. 4
SSP II Exercise nr. 5
SSP II Exercise nr. 6
SSP II Exercise nr. 7
SSP II Exercise nr. 8
SSP II Exercise nr. 8, answer 4a
SSP II Exercise nr. 9
SSP II Exercise nr. 10
SSP II Exercise nr. 11
SSP II Exercise nr. 12

mawi-706: Advanced Materials B - Polymers

Repetition lecture

 

The repitition lecture will take place using the Zoom conference software on 29th September 2020 at 10:00.

To participate simply follow this  Link.

Or use the meeting ID ( 993 1159 3597 ) in combination with the identification code ( 566524 ) 

 

 

 

Lecture slides

0 Contents and literature
1 Introduction and review of basics (Update 20.04.20)
2 Polymers in melts and solutions (Update 16.06.20)
3 Block copolymers (16.06.2020)
4 Liquid-crystalline polymers (LCPs) (16.06.2020)
5 Mechanical properties - advanced (19.06.2020)
6 Soprtion, diffusion and permeation (29.06.2020)
   

 

Lecture recordings

Password as for the lecture slides

1 Lecture 1 - 06.04.2020
2 Lecture 2 - 20.04.2020
3 Lecture 3 - 27.04.2020
4 Lecture 4 - 05.05.2020
5 Lecture 5 - 11.05.2020
6 Lecture 6 - 18.05.2020
7 Lecture 7 - 25.05.2020
8 Lecture 8 - 08.06.2020
9 Lecture 9 - 15.06.2020
10 Lecture 10 - 22.06.2020
11 Lecture 11 - 29.06.2020

 

Exercises

1 Exercise 1
1 Exercise 1 - Solution
1 Exercise 1 - Recording
   
2 Exercise 2
2 Exercise 2 - Solution
2 Exercise 2 - Recording
   
3 Exercise 3
3 Exercise 3 - Solution
3 Exercise 3 - Recording
   
4 Exercise 4
4 Exercise 4 - Solution
4 Exercise 4 - Recording
   
5 Exercise 5
5 Exercise 5 - Solution
5 Exercise 5 - Recording
   
6 Exercise 6
6 Exercise 6 - Solution
5 Exercise 6 - Recording
   
7 Exercise 7
7 Exercise 7 - Solution
7 Exercise 7 - Recording
   
8 Exercise 8
8 Exercise 8 - Solution
8 Exercise 8 - Recording
   
9 Exercise 9
9 Exercise 9 - Solution
9 Exercise 9 - Recording

mawi-918: Advanced Metallic Materials

This seminar will take place using the webconference software Zoom (download at the top of the page, access information are below). During the first meeting topics and boundary conditions will be discussed.

Please register in OLAT to obtain all relevant updates on this seminar: https://lms.uni-kiel.de/url/RepositoryEntry/3296493585.

The list of topics will be available online and on this webpage. Reservations of a specific topic can be done via mail to the lecturer. The presentations and discussion of the talks will probably take place at the Faculty of Engineering, as soon as the lockdown is over. Time and date will be fixed depending on the external boundary conditions (Corona) and number of speakers.

It is highly advised that participants of this seminar prepare their talk these days before returning to the campus.

 

Meeting-ID

Link

775-742-006

https://zoom.us/j/775742006

 

Lecture notes / information

Overview advanced metallic materials seminar

List of topics (updated, 13.04.2020)

 

mawi-934: Advanced Topics in Organic Materials

Meeting-ID

Link

618-206-933

https://zoom.us/j/618206933

 

Lecture slides

0 Fact sheet for "Advanced Topics in Organic Materials"
1 Sorption, diffusion and permeation 
2 Dielectric and optical properties
3 Polymer composites
4 Liquid crystalline polymers
5 Conducting polymers
6 Organic thin films
7 Organic electronic and photonic devices

 

Lecture recodings

Password as for the lecture slides

Legacy Lectures

In the following section you may find lecture notes for lectures that are currently not given. 

Polymers 1+2

Lecture notes from 2006/2007 (polymers II) and 2008 (polymers I).

 

- content and literature polymers I
- content and literature polymers II
1 Introduction
2 Binding Structure and Classification
3 Polymer Synthesis
4 Polymers in Melts and Solutions
5 Glass Formation and Crystallization
6 Mechanical Properties
7 Sorption, diffusion and permeation
8 Plastics processing
9 Reinforced polymers
10 Liquid crystalline polymers
11 Dielectric and electric properties of polymers
12 Optical properties of polymers
13 Organic thin films
14 Metal-polymer interfaces
15 Conducting and semiconducting polymers
16 Organic electronic and photonic devices
17 Polymer electrolytes

Solid State Physics (WS96/97, German)

0 Grundlagen der Quantenmechanik
Mathematische Hilfsmittel, Axiome der Quantenmechanik, Operatoren, Schrödingergleichung
1 Chemische Bindungen
Kovalente Bindung, Ionische Bindung, Van der Waals Bindung, Wasserstoffbrückenbindung, Metallische Bindung
2 Kristallstruktur
Translationsgitter, Symmetrie, einfache Kristallstrukturen, Einfluss von Defekten auf physikalische Eigenschaften, nichtkristalline Festkörper
3 Beugung an Festkörpern
Kristalline Festkörper und reziprokes Gitter, Strukturfaktor, Beugung an nichtkristallinen Festkörpern, experimentelle Methoden, Beugung an Oberflächen
4 Dynamik von Kristallgittern
Gitterschwingungen, thermische Eigenschaften von Kristallen, thermische Expansion, thermische Leitung durch Phononen, Phononenspektroskopie
5 Elektronen in Festkörpern
Freies Elektronen Modell, Energiebänder in Festkörpern, Einflüsse von externen Feldern
6 Halbleiter
Intrinsische Halbleiter, Doping, P-N Übergänge, amorphe Halbleiter
7 Magnetische Eigenschaften
Diamagnetismus, Paramagnetismus, Ferro- und Antiferromagnetismus
8 Dielektrische Eigenschaften
Dielektrizitätskonstante und Polarisierbarkeit, optische Eigenschaften, ferroelektrische Festkörper

Metals 1+2

Lecture notes from 2005/2006 (Metals 1) and 2007 (Metals 2). 

0 Contents and literature
1 Introduction
2.1 Complete miscibility
2.2 Examples of phase diagrams and intermetallic phases
3.1 Plastic deformation in single crystals via dislocations
3.2 Deformation twinning
3.3 Deformation of polycrystals
3.4 Creep
3.5 Fracture
3.6 Solid solution hardening
4 Thermally activated processes
5 Solidifcation of metallic melts
6 Transformation in the solid state
7 Particle hardened alloys
8.1 Ferrous alloys - steels
8.2 Cast iron
9.1 Nonferrous alloys - aluminium alloys
9.2 Other nonferrous alloys
10 Metallic glasses
11 Nanocrystalline and quasicrystalline materials
12.1 and 12.2 Thin metal films- microstructure an stress in thin metal films
12.3 Electromigration
13 Electronic properties
14.1 Magnetic materials - basics
14.2 Soft magnetic materials
14.3 Tayloring the hysteresis loop
14.4 Single-domain particles and superparamagnetism
14.5 Hard magnetic materials