Course - Aluminum and light metals - TØL4206
TØL4206 - Aluminum and light metals
About
Lessons are not given in the academic year 2024/2025
Course content
- The role of aluminium in automotive industry - Aluminium alloys and their respective properties and applications- Manufacturing and processing - Forging, casting, welding and extrusion - Heat treatment, natural and artificial aging - Thermomechanical treatment - Deformation hardening- Physical properties: - Phases and phase diagrams - Grain structure - Crystal structure - Hardening mechanisms at micro- and nano level (precipitation) - Surface properties (corrosion)- Mechanical properties - Stress and strain - Fatigue - Creep- Modeling and FEM analysis of process conditions in forming of aluminium and other light metals- Recycling- Other light metals (magnesium, titanium)
Learning outcome
After completing the course, the student is supposed to:Knowledge:- Have a wide general knowledge of important applications, production, processing methods and physical and mechanical properties of aluminium alloys.- Be able to explain how various manufacturing processes affect the material properties of aluminium and other light metals, and be able to determine optimum conditions in industrial applications of the processes through an analysis approach.- Be able to explain the role alloying elements play in affecting physical and mechanical properties of aluminium alloys, and put this in context with their application areas.- Be able to explain the role of experiments, modelling and simulations in research on both manufacturing processes and material properties of aluminium alloys - Have knowledge on some modern development features in applications of aluminium and other light metalsSkills: - Know how to use modern data assisted methods for optimizing forming and casting processes of aluminium on the concept stage before manufacture of a part.- Be able to reflect upon his or her own professional practice- Be able to find, read and analyze scientific publications and to describe results from scientific articles within the subject of the course.General competence:- Be able to suggest and exchange views and experiences to a problem within a project within the subjects of the course, and carry out the project either individually or in a group.
Learning methods and activities
Lectures, tutoring, e-Learning, project work, group work.The course will be made accessible for both on-campus and remote students. The lectures in the course will be given on campus and are open for both categories of students. The lectures will be streamed and recorded and the recordings will be available on internet through NTNUs learning management system. Tutoring are given at campus in accordance to announced times. In case of less than 4 students, the course will be based on self-study.
Further on evaluation
Re-sit examination: new oral examination (next August).Students must pass the project work to be allowed to present themselves for the oral examination.Students must pass both parts to pass the course.
Recommended previous knowledge
TEK2011 Materials science and engineering/MASG2100 - Materials technologyTEK2001 Finite Element MethodsTØL4012 Sustainable Manufacturing TechnologyTØL4014 Sustainable Manufacturing Systems
Course materials
Text book: Henry Valberg: Applied metal forming including FEM-analysis, Cambridge University Press, 2010
No
Version: 1
Credits:
7.5 SP
Study level: Second degree level
No
Language of instruction: English
Location: Gjøvik
- Materials Science and Engineering
- Materials
- Engineering
- Materials and Processes
Department with academic responsibility
Department of Manufacturing and Civil Engineering
Examination
- * The location (room) for a written examination is published 3 days before examination date. If more than one room is listed, you will find your room at Studentweb.
For more information regarding registration for examination and examination procedures, see "Innsida - Exams"