2018 | Recovery, Recrystallization and Texture of Metals

2018　Recovery, Recrystallization and Texture of Metals

Font size S M L

Academic unit or major: Graduate major in Materials Science and Engineering

Instructor(s): Inamura Tomonari Hosoda Hideki

Class Format: Lecture

Media-enhanced courses

Day/Period(Room No.): Mon1-2(J234)

Group: -

Course number: MAT.M425

Credits: 1

Academic year: 2018

Offered quarter: 3Q

Syllabus updated: 2018/4/19

Lecture notes updated: -

Language used: Japanese

Access Index

Syllabus

Course description and aims

This course focuses on the recovery, recrystallization and texture in single-phase polycrystalline metallic materials to understand the basic principle to control microstructure. Emphasis is placed on description of grain boundary, migration of grain boundary, deformation microstructure, annihilation and rearrangement of dislocations in recovery, kinetics of recrystallization, texture and its controlling factors.

Student learning outcomes

At the end of this course, students will be able to:
1) Have understanding of basic principles to control microstructure that determine physical properties of metallic materials
2) Have understanding of basics of recovery, recrystallization and texture
3) Have understanding of basic concepts to control properties of various metallic materials by thermomechanical treatment

Keywords

recovery, recrystallization, texture, grain growth, thermomechanical treatment,

Competencies that will be developed

✔ Specialist skills

Intercultural skills

Communication skills

Critical thinking skills

Practical and/or problem-solving skills

Class flow

1) Towards the end of class, students are given exercise problems related to what is taught on tha day to solve
2) Attendance is taken in every class

Course schedule/Required learning

	Course schedule	Required learning
Class 1	Structure and energy of grain boundary	misorientation, grain boundary energy
Class 2	Grain boundary migration Mobility of low and high angle grain boundary	Equilibrium condition and pinning force of grain boundary migration, mobility Factors affecting the mobility of low and high angle grain boundary
Class 3	Deformed microstructure and stored energy	Energy of grain boundary and dislocations introduced by deformation
Class 4	Empirical low and kinetics of recovery and primary recrystallization	Empirical low of recovery and process of recovery as a thermally activated process of dislocation Empirical low and kinetics of recrystallization
Class 5	Grain growth, Continuity of reaction	Geometry and theory of grain growth
Class 6	Representation and measurement of texture Deformation texture	Pole figures, Euler angles Rotation of single crystal by deformation Taylor model
Class 7	Deformation texture	Deformation texture in fcc, bcc and hcp alloys
Class 8	Recrystallization texture	Recrystallization texture texture in fcc, bcc and hcp alloys

Textbook(s)

Recrystallization and related annealing phenomena, F. J. Humphreys and M. Hatherly, Elsevier

Reference books, course materials, etc.

Course materials are provided during class

Assessment criteria and methods

Report (70%) and exercise problem (30%)

Related courses

MAT.M303 ： Lattice Defects and Dislocation

Prerequisites (i.e., required knowledge, skills, courses, etc.)

Basic knowledge of dislocation is necessary

TOKYO INSTITUTE OF TECHNOLOGY