Materials Technology (MSK200)

When the course is completed, the students should have acquired a basic understanding of how materials structure and micro-mechanisms influence mechanical properties. Analyses and calculations based on crystal structure, stress-strain curves and fracture mechanical data are expected to be mastered. Understand simple phase diagram, in particular the Fe-C diagram. Explain the origin of the common microstructures in steel. Application of TTT and CCT-diagrams.


Course description for study year 2024-2025. Please note that changes may occur.

Facts

Course code

MSK200

Version

1

Credits (ECTS)

10

Semester tution start

Autumn

Number of semesters

1

Exam semester

Autumn

Language of instruction

Norwegian

Offered by
Time table

View course schedule

Content

Core topics include: basic bonding theory and crystallography, microstructure, defects and dislocation theory. Material behaviour under tensile loads, elasticity and plasticity. Hardening mechanisms. Diffusjon. Recrystallization and grain growth. Introduction to fracture mechanics and fatigue. Phase digrams: isomorphous phase diagrams, eutectic phase diagrams and the Fe-C diagram. Transformations in steels. Nucleation and growth. Kinetics and TTT-diagrams. Precipitation hardening. Microstructure and mechanical properties of steels.

Learning outcome

When the course is completed, the students should:

  • Have acquired a basic understanding of how materials structure and micro-mechanisms influence mechanical properties.
  • Analyses and calculations based on crystal structure, stress-strain curves and fracture mechanical data are expected to be mastered.
  • Understand simple phase diagram, in particular the Fe-C diagram.
  • Explain the origin of the common microstructures in steel. Application of TTT and CCT-diagrams.

Required prerequisite knowledge

None

Recommended prerequisites

FYS100 Mechanics, MAT100 Mathematical Methods 1

Exam

Form of assessment Weight Duration Marks Aid
Written exam 1/1 4 Hours Letter grades Valid calculator

Written exam is digital

Coursework requirements

Lab exercise 1, Lab exercise 2
Approved mandatory lab work and approved lab report in order to take the exam.

Course teacher(s)

Course coordinator:

Vidar Folke Hansen

Coordinator laboratory exercises:

Mats Ingdal

Coordinator laboratory exercises:

Wakshum Mekonnen Tucho

Head of Department:

Mona Wetrhus Minde

Coordinator laboratory exercises:

Johan Andreas Håland Thorkaas

Method of work

6 hours lectures and exercises per week. Teaching language is Norwegian. 2 mandatory laboratory assignements. Laboratory report must be approved before three weeks ahead of examination date.

Overlapping courses

Course Reduction (SP)
Mechanics of Materials 1 (BIM280_1) 5
Mechanics of Materials (BIM120_1) 8
Materials Technology (BIM160_1) 2
Mechanics of Materials (MSK205_1) 5

Open for

Battery and Energy Engineering - Bachelor in Engineering Energy and Petroleum Engineering - Bachelor in Engineering Mechanical Engineering - Bachelor in Engineering Petroleum Engineering - Master of Science Degree Programme, Five Years

Course assessment

There must be an early dialogue between the course supervisor, the student union representative and the students. The purpose is feedback from the students for changes and adjustments in the course for the current semester.In addition, a digital subject evaluation must be carried out at least every three years. Its purpose is to gather the students experiences with the course.

Literature

The syllabus can be found in Leganto