Malmö universitet - Utbildningsinfo

Course syllabus autumn 2023

Title

Phase Transformations

Swedish title

Fasomvandlingar

Course code

MT641E

Credits

7.5 credits

Grading scale

UA / Excellent (A), Very Good (B), Good (C), Satisfactory (D), Pass (E) or Fail (U)

Language of instruction

English

Decision-making body

Faculty of Technology and Society

Establishment date

2022-01-19

Syllabus approval date

2022-02-10

Syllabus valid from

2023-08-28

Entry requirements

Degree of Engineering in Mechanical Engineering, machine engineering, physics, chemistry or a degree in a related field. All degrees must be equivalent to at least 180 higher education credits.
At least 22.5 credits of Mathematics.
The equivalent of English 6 in Swedish secondary school or equivalent

Level

Advanced level

Main field

Materials Science

Progression level

A1N

Progression level in relation to degree requirements

The course is part of the main field of study Materials Science and meets the degree requirement for the degree of Master (Two Years), main field of study Materials Science.

Course objectives

The course objective is for the student to develop skills within a theoretical background and fundamental principles for phase transformation and the formation of microstructures in firm materials.

Course contents

The course covers the following:

Thermodynamics, phases and phase diagrams
Diffusion in solid materials
Crystal structures and properties of grain boundaries and phase interfaces
Nucleation and growth during solidification and solid-solid phase transformation
Important diffusional and diffusionless phase transformations and their influence on the evolution of microstructures
Project assignment, in groups, where a phase transformation process is studied using a given simulation tool

Learning outcomes

Knowledge and understanding

Once the course is completed, the student shall:

describe basic thermodynamics for phase transformation
describe different diffusion mechanisms in solid materials and the basis for these processes
describe the influence of crystal structure on grain and phase boundaries
describe nucleation and grain growth during solidification and solid-solid phase transformations
describe different types of diffusional and diffusionless phase transformations and their influence on the evolution of microstructures
describe the basic principle of the material model used in the project assignment

Skills and abilities

Once the course is completed, the student shall:

interpret binary phase diagrams and construct such diagrams using given thermodynamical prerequisites for different types of diffusive phase transformations
perform numerical simulations of a phase transformation process using a given simulation tool, and present the numerical results in relation to a knowledge of a given material model.

Judgement and approach

Once the course is completed, the student shall:

compare and discuss different theoretical models for homogenous and heterogeneous solidification and nucleation

Learning activities

Lectures, seminars, assigments and project work with supervision.

Assessment

Requirements for pass (grade A-E):

Passed report (1 credit)
Passed written exam, 6.5 credits

The final grade is based on the written exam.

Course literature

The student is expected to search for, evaluate and use relevant literature independently or in discussion with the teacher.