Digital Teaching
The lecture will be offered in the winter semester 2022/2023 in presence. In case this is not possible, the lecture will be held via video conference. The video conference will be recorded for this case and made available to the students via Moodle. By participating in the video conference, students agree to the use of the conference tool for digital teaching.
The lecture slides and the script will be made available via Moodle.
Lehrinhalte
[list]
[*]Structural composition of materials
[*]Alloying science
[*]Fundamentals of diffusion and solidification
[*]Iron-carbon diagram
[*]Fundamental mechanical material properties under quasi-static, cyclic and impact loading and their characterization methods
[*]Property modification by heat treatment
[*]Strengthening mechanisms
[*]Material designations
[*]Light metal alloys
[/list]
[b]Learning Outcomes:[/b]
After successfully completing the course unit, students should be able to:
[list]
[*]Explain the structure of atoms according to the Bohr atomic model
[*]Reconstruct the crystalline structure of metals and name crystal classes and lattices as well as lattice defects
[*]Analyze state diagrams of pure substances and binary mixtures with solid, liquid and gaseous phases and describe nucleation and solidification qualitatively
[*]Evaluate material laws for diffusion, elastic and plastic deformation and assess their practical background and applications
[*]Evaluate methods for characterizing and influencing strength properties
[*]Differentiate aspects of the iron-carbon diagram and derive precipitates and microstructural states from it.
[*]To name, compare and evaluate the properties of metallic and non-metallic materials
[*]To develop the structure, properties and areas of application for light metal alloys as well as to present the requirements for modern structural materials
[/list]
Literature
[list]
[*]M. Oechsner: Umdruck zur Vorlesung (Foliensätze und Skript);
[*]D.R. Askeland, Materialwissenschaften, Spektrum Akademischer Verlag, 1996
[*]H.-J. Bargel und G. Schulze, Werkstoffkunde, Springer Verlag, 2018
[*]E. Hornbogen, G. Eggeler und E. Werner, Werkstoffkunde, Springer, 2017,
[*]G. Gottstein, Physikalische Grundlagen der Materialkunde, Springer, 2013
[/list]
Erwartete Teilnehmerzahl
600
Nachhaltigkeitsbezug der Veranstaltungsinhalte
The sustainable use of materials with regard to ecological, economic and social aspects in the extraction, processing, selection and use of materials is a central learning objective of the course.
Online-Angebote
moodle
The lecture will be offered in the winter semester 2022/2023 in presence. In case this is not possible, the lecture will be held via video conference. The video conference will be recorded for this case and made available to the students via Moodle. By participating in the video conference, students agree to the use of the conference tool for digital teaching.
The lecture slides and the script will be made available via Moodle.
Lehrinhalte
[list]
[*]Structural composition of materials
[*]Alloying science
[*]Fundamentals of diffusion and solidification
[*]Iron-carbon diagram
[*]Fundamental mechanical material properties under quasi-static, cyclic and impact loading and their characterization methods
[*]Property modification by heat treatment
[*]Strengthening mechanisms
[*]Material designations
[*]Light metal alloys
[/list]
[b]Learning Outcomes:[/b]
After successfully completing the course unit, students should be able to:
[list]
[*]Explain the structure of atoms according to the Bohr atomic model
[*]Reconstruct the crystalline structure of metals and name crystal classes and lattices as well as lattice defects
[*]Analyze state diagrams of pure substances and binary mixtures with solid, liquid and gaseous phases and describe nucleation and solidification qualitatively
[*]Evaluate material laws for diffusion, elastic and plastic deformation and assess their practical background and applications
[*]Evaluate methods for characterizing and influencing strength properties
[*]Differentiate aspects of the iron-carbon diagram and derive precipitates and microstructural states from it.
[*]To name, compare and evaluate the properties of metallic and non-metallic materials
[*]To develop the structure, properties and areas of application for light metal alloys as well as to present the requirements for modern structural materials
[/list]
Literature
[list]
[*]M. Oechsner: Umdruck zur Vorlesung (Foliensätze und Skript);
[*]D.R. Askeland, Materialwissenschaften, Spektrum Akademischer Verlag, 1996
[*]H.-J. Bargel und G. Schulze, Werkstoffkunde, Springer Verlag, 2018
[*]E. Hornbogen, G. Eggeler und E. Werner, Werkstoffkunde, Springer, 2017,
[*]G. Gottstein, Physikalische Grundlagen der Materialkunde, Springer, 2013
[/list]
Erwartete Teilnehmerzahl
600
Nachhaltigkeitsbezug der Veranstaltungsinhalte
The sustainable use of materials with regard to ecological, economic and social aspects in the extraction, processing, selection and use of materials is a central learning objective of the course.
Online-Angebote
moodle
- Lehrende: Matthias Oechsner
Semester: Inverno 2022/23