Laura De Lorenzis: Katalogdaten im Frühjahrssemester 2023 |
Name | Frau Prof. Dr. Laura De Lorenzis |
Lehrgebiet | Numerische Mechanik |
Adresse | Professur für Numerische Mechanik ETH Zürich, CLA J 13 Tannenstrasse 3 8092 Zürich SWITZERLAND |
Telefon | +41 44 632 51 45 |
ldelorenzis@ethz.ch | |
URL | https://compmech.ethz.ch/ |
Departement | Maschinenbau und Verfahrenstechnik |
Beziehung | Ordentliche Professorin |
Nummer | Titel | ECTS | Umfang | Dozierende | |||||||||||||||||
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151-0079-41L | Swissloop Tunneling Voraussetzung: Besuch der Lerneinheit 151-0079-40L Swissloop Tunneling im HS22. | 14 KP | 15A | L. De Lorenzis | |||||||||||||||||
Kurzbeschreibung | Im Team ein Produkt von A-Z entwickeln und realisieren! Anwenden und Vertiefen des bestehenden Wissens, Arbeiten in Teams, Selbständigkeit, Problemstrukturierung, Lösungsfindung in unscharfen Problemstellungen, Systembeschreibung und -simulation, Präsentation und Dokumentation, Realisationsfähigkeit, Werkstatt- und Industriekontakte, Anwendung modernster Ingenieur-Werkzeuge (Matlab, Simulink usw). | ||||||||||||||||||||
Lernziel | Die vielfältigen Lernziele dieses Fokus-Projektes sind: - Synthetisieren und Vertiefen des theoretischen Wissens aus den Grundlagenfächern des 1.-4. Semesters - Teamorganisation, Arbeiten in Teams, Steigerung der sozialen Kompetenz - Selbständigkeit, Initiative, selbständiges Lernen neuer Themeninhalte - Problemstrukturierung, Lösungsfindung in unscharfen Problemstellungen, Suchen von Informationen - Systembeschreibung und -simulation - Präsentationstechnik, Dokumentationserstellung - Entscheidungsfähigkeit, Realisationsfähigkeit - Werkstatt- und Industriekontakte - Erweiterung und Vertiefung von Sachwissen - Beherrschung modernster Ingenieur-Werkzeuge (Matlab, Simulink, CAD, CAE, PDM) | ||||||||||||||||||||
151-0552-00L | Fracture Mechanics | 4 KP | 3G | L. De Lorenzis | |||||||||||||||||
Kurzbeschreibung | The course provides an introduction to the concepts of fracture mechanics and covers theoretical concepts as well as the basics of experimental methods. Both linear and non-linear fracture mechanics are covered, adopting the stress and the energetic viewpoints. A basic overview of fatigue and dynamic fracture is also given. | ||||||||||||||||||||
Lernziel | To acquire the basic concepts of fracture mechanics in theory and experiments, and to be able to apply them to the solution of relevant problems. | ||||||||||||||||||||
Inhalt | 1. Introduction: damage and fracture mechanisms, stress concentrations, singularities. 2. Linear elastic fracture mechanics: the stress approach, the energy approach, mixed-mode fracture, size effects. 3. Elasto-plastic fracture mechanics: small-scale yielding, crack tip opening displacement, J integral. 4. Basics of experimental methods in fracture mechanics. 5. Overview of additional topics: fatigue, dynamic fracture. Lectures are complemented by experiments in the lecture hall, exercise classes and one laboratory session. | ||||||||||||||||||||
Skript | Lecture notes will be provided. However, students are encouraged to take their own notes. | ||||||||||||||||||||
Voraussetzungen / Besonderes | Mechanics 1, 2, and Dynamics. A good knowledge of the notions from Mechanics 1 and 2 is very important and will be assumed. | ||||||||||||||||||||
Kompetenzen |
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327-2224-00L | MaP Distinguished Lecture Series on Additive Manufacturing Findet dieses Semester nicht statt. This course is primarily designed for MSc and doctoral students. Guests are welcome. | 1 KP | 2S | R. Katzschmann, L. De Lorenzis, Noch nicht bekannt | |||||||||||||||||
Kurzbeschreibung | This course is an interdisciplinary colloquium on Additive Manufacturing (AM) with focus on simulation and biohybrid robotics. Internationally renowned experts from academia and industry present cutting-edge research, highlighting the state-of-the-art and frontiers in the field. | ||||||||||||||||||||
Lernziel | Participants become acquainted with the state-of-the-art and frontiers in Additive Manufacturing, a topic of global and future relevance for materials and process engineering. A focus is placed on simulation and biohybrid robotics applications. The self-study of relevant literature and active participation in discussions following presentations by internationally renowned speakers stimulate critical thinking and allow participants to deliberately discuss challenges and opportunities with leading academics and industrial experts and exchange ideas within an interdisciplinary community. | ||||||||||||||||||||
Inhalt | This course is a colloquium involving a selected mix of internationally renowned speakers from academia and industry who present their cutting-edge research in the field of Additive Manufacturing. The self-study of relevant pre-read literature provided in advance of each lecture serves as a basis for active participation in the critical discussions following each presentation. | ||||||||||||||||||||
Skript | Selected scientific pre-read literature (max. three articles per lecture) relevant for and discussed during the lectures is posted in advance on the course web page. | ||||||||||||||||||||
Voraussetzungen / Besonderes | Participants should have a solid background in materials science and/or engineering. |