Multiscale Materials Simulation (CE_MuSim)15 ECTS
(englische Bezeichnung: Multiscale Materials Simulation)
(Prüfungsordnungsmodul: Computational Material Sciences)

Lehrveranstaltungen:

• • Introduction to Advanced Maths and Calculus (WS 2018/2019)
    (Seminar, 1 SWS, Paolo Moretti, Einzeltermine am 16.10.2018, 14:00 - 17:00, 2.018-2 Seminarraum Technikum 2; 19.10.2018, 8:00 - 11:00, 2.018-2 Seminarraum Technikum 2; 29.10.2018, 9:30 - 11:30, 2.018-2 Seminarraum Technikum 2)
  • Scientific Programming with Python (WS 2018/2019)
    (Sonstige Lehrveranstaltung, 1 SWS, Paolo Moretti, Blockveranstaltung 15.10.2018-19.10.2018 Mo-Fr, 14:00 - 15:45, CIP Pool WW; This course will be held as a compact block seminar during the first week of lecture period. This course is highly recommended for all students who take part in WW8 courses (e.g. MuSim 1 or FEM 1) and who don't have any prior Python knowledge. Since only limited places are available for this course you have to sign up for this course on StudOn. Students of the MAP and CE master programmes are also encouraged to join the "Pre-course on Linux and MATLAB" (Prof. Bitzek), which will take place on 04.10 and 05.10, and will provide an ideal background to the Python course.)
  • Multi-scale Simulation Methods I (Lecture) (WS 2018/2019)
    (Vorlesung, 1 SWS, Paolo Moretti, Mo, 15:30 - 17:00, CIP Pool WW; First lectue on 22.10.2018. There will be NO MuSim I L/T during the first week. Instead there will a Python course. Please sign up for the Python courses on StudOn!)
  • Multi-scale Simulation Methods I (Tutorial) (WS 2018/2019)
    (Übung, 1 SWS, Paolo Moretti, Mo, 15:30 - 17:00, CIP Pool WW; siehe Bemerkungen zur entsprechenden Vorlesung / please see the comments for the lecture)
  • Computer Lab for CE 1(3 practicals WW8) (WS 2018/2019)
    (Praktikum, 2 SWS, Frank Wendler, Einzeltermin am 15.10.2018, 15:00 - 18:00, 2.018-1 Besprechungsraum Technikum 2; Practicals can be done at any time during the semester. The day of the week/time is just a place holder - more information will be given in the lecture "Multiscale Simulation Methods 1")
  • Foundations of Finite Element Simulation (Lecture) (WS 2018/2019 - optional)
    (Vorlesung, 1 SWS, Michael Zaiser, Mi, 12:00 - 14:00, 0.157-115; First lecture on 07.11.2018)
  • Foundations of Finite Element Simulation (Tutorial) (WS 2018/2019 - optional)
    (Übung, 1 SWS, Michael Zaiser, Mi, 12:00 - 14:00, 0.157-115; Mi; First lecture on 07.11.2018, Siehe Bemerkungen zur Vorlesung / see lecture comments)
  • Seminar Computational Materials Science I (WS 2018/2019 - optional)
    (Seminar, 2 SWS, Michael Zaiser et al., Mi, 17:00 - 18:30, 2.018-2 Seminarraum Technikum 2)
  • Dislocation Theory and Dislocation Simulation (Lecture) (WS 2018/2019 - optional)
    (Vorlesung, 1 SWS, Michael Zaiser, Mi, 15:15 - 16:45, 2.018-1 Besprechungsraum Technikum 2; First lecture on 07.11.2018)
  • Dislocation Theory and Dislocation Simulation (Tutorial) (WS 2018/2019 - optional)
    (Übung, 1 SWS, Michael Zaiser, Mi, 15:15 - 16:45, 2.018-1 Besprechungsraum Technikum 2; First lecture on 07.11.2018)
  • Multi-scale Simulation Methods II (Lecture) (SS 2019)
    (Vorlesung, 1 SWS, Paolo Moretti, Mi, 10:15 - 11:45, 2.018-2 Seminarraum Technikum 2; First lecture on 08.05.2019. Turotial dates to be arranged during the first lecture. Lectures and tutorials will be held alternatigly.)
  • Multi-scale Simulation Methods II (Tutorial) (SS 2019)
    (Tutorium, 1 SWS, Paolo Moretti et al., Mi, 10:15 - 11:45, 2.018-2 Seminarraum Technikum 2; First lecture on 08.05.2019. Please refer to the Lecture page for additional information.)
  • Modelling Materials with Finite Element Simulations (Lecture) (SS 2019 - optional)
    (Vorlesung, 1 SWS, Michael Zaiser, Mi, 12:15 - 13:45, 2.018-2 Seminarraum Technikum 2; First lecture: 08.05.2019. Lecture and tutorial will be held either alternating or as a block of 2x 1.5h - as required.)
  • Modelling Materials with Finite Element Simulations (Tutorial) (SS 2019 - optional)
    (Übung, 1 SWS, Michael Zaiser, Mi, 12:15 - 13:45, 2.018-2 Seminarraum Technikum 2)
  • Seminar Computational Materials Science II (SS 2019 - optional)
    (Seminar, 2 SWS, Michael Zaiser et al., Mi, 17:15 - 18:45, 2.018-2 Seminarraum Technikum 2)
  • Generalized Continuum Models of Materials Mechanics (SS 2019 - optional)
    (Vorlesung, 1 SWS, Michael Zaiser, Di, 12:15 - 13:45, 2.018-2 Seminarraum Technikum 2; First lecure: 30.04.2019)
  • Computational models of biomaterial failure (SS 2019 - optional)
    (Vorlesung mit Übung, 2 SWS, Paolo Moretti)
  • Numerische Methoden in den Werkstoffwissenschaften - Atomistische Methoden (SS 2019 - optional)
    (Vorlesung mit Übung, 2 SWS, Erik Bitzek, Fr, 16:15 - 17:45, CIP Pool WW; Beginn: 26.04.2019)

Inhalt:

These lectures provide a broad overview of simulation methods operating on length scales from the atomistic to the continuum scale. Simulation methods introduced include Molecular Dynamics, equilibrium and kinetic Monte Carlo simulation, mesoscopic methods such as e.g. Dislocation Dynamics and the Phase Field method, and continuum-level modeling of materials behavior in Finite Element simulations. The introduction of methods operating on different scales is complemented by a discussion of multiscale approaches, i.e. the linking of models operating on different scales. For most of the tutorials ‘Python’ will be used as programming language, which will be introduced in a separate short course. This course is accompanied by practicals where the students will have the opportunity to numerically implement ‘one-scale’ models in a hands-on manner. This will be complemented by examples of information passing between different scales and the construction of simple multiscale models.

Lernziele und Kompetenzen:

Students will develop a fundamental understanding for the role of computer-based simulation methods in modern materials science. They obtain a detailed overview over most commonly used simulation methods and of their application. They learn the practical realization of simulation tasks based on analysis of materials science problems. Through foundamental understanding of theory they will understand the theory behind simulation methods. They will be able to develop models and to work on novel problems.

Verwendbarkeit des Moduls / Einpassung in den Musterstudienplan:

1. Computational Engineering (Rechnergestütztes Ingenieurwesen) (Master of Science)
   (Po-Vers. 2013 | TechFak | Computational Engineering (Rechnergestütztes Ingenieurwesen) (Master of Science) | Wahlpflichtbereich Technisches Anwendungsfach | Computational Material Sciences)

Studien-/Prüfungsleistungen: