en_GB
Hold Ctrl-tasten nede. Trykk på + for å forstørre eller - for å forminske.

MSK205_1

Mechanics of Materials

This is the study programme for 2020/2021.


After the course students should have a basicunderstanding of the mechanical properties of materials and how they are affected by the materialstructure and micro-mechanisms.Analyses and calculations based on the crystal structure, stress-strain curves and fracture mechanics data can be performed.

Learning outcome

After the course students should have a basicunderstanding of the mechanical properties of materials and how they are affected by the materialstructure and micro-mechanisms.Analyses and calculations based on the crystal structure, stress-strain curves and fracture mechanics data can be performed.

Contents

Core topics include binding theory,crystallography,microstructure, defects and dislocation theory.Plasticity and elasticity. Materials and response to tensile strain.Strength increase mechanisms.Introduction to fracture mechanics and fatigue.

Required prerequisite knowledge

None.

Exam

Weight Duration Marks Aid
Written exam1/13 hoursA - FValid calculator.

Course teacher(s)

Course coordinator
Vidar Folke Hansen
Head of Department
Tor Henning Hemmingsen
Coordinator laboratory exercises
Mona Wetrhus Minde , Wakshum Mekonnen Tucho, Johan Andreas Håland Thorkaas

Method of work

An average 3 hours lectures and exercises in a week.

Overlapping courses

Course Reduction (SP)
Mechanics of Materials 1 (BIM280_1) 5
Mechanics of Materials (BIM120_1) 5
Mechanics of Materials (BIM280_1) 10
Materials Technology (MSK200_1) 5

Open to

Engineering Structures and Materials - Master's Degree Programme

Course assessment

Form and/or discussion.

Literature


Link to reading list


This is the study programme for 2020/2021.

Sist oppdatert: 23.09.2020

History