2017 Environmental Degradation of Materials

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Academic unit or major
Graduate major in Materials Science and Engineering
Nishikata Atsushi  Tada Eiji 
Course component(s)
Day/Period(Room No.)
Mon7-8(S8-501)  Thr7-8(S8-501)  
Course number
Academic year
Offered quarter
Syllabus updated
Lecture notes updated
Language used
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Course description and aims

Long-term reliability of materials in usage environments is one of the most important properties for structural and functional materials. This course provides an overview of environmental degradation of structural and functional materials in various environments based on electrochemistry and surface science. In addition, this course introduces evaluation methods for environmental strength and life time of metallic materials.
This course aims to understand fundamental aspects for corrosion degradation of metallic materials in various environments and to propose appropriate methods of corrosion prevention.

Student learning outcomes

By completing this course, students will be able to understand corrosion degradation mechanisms of metallic materials and to evaluate


Electrochemistry, Corrosion, Passvity, Environmentally Induced Cracking

Competencies that will be developed

Specialist skills Intercultural skills Communication skills Critical thinking skills Practical and/or problem-solving skills

Class flow

Lecture and exercises in the class

Course schedule/Required learning

  Course schedule Required learning
Class 1 Introduction Fundamentals of electrochemistry for corrosion research Understand the course objectives Review of fundamentals of electrochemistry
Class 2 Thermodynamics of electrochemistry (Activity, Activity coefficient, Electrode potential, Potential-pH (Pourbaix) diagrams) Understand thermodynamics of electrochemistry
Class 3 Kinetics of electrochemical reactions 1 (Fundamentals of electrode kinetics, Absolute rate theory, Butler-Volmer equation) Understand kinetic treatment of electrode reactions
Class 4 Kinetics of electrochemical reactions 2 (Multi-step reactions, rater-determining step, Tafel slope, Order of reaction) Understand the rate-determining step of multi-step reactions
Class 5 Anodic dissolution mechanisms of metals Understand anodic dissolution of metals
Class 6 Anodic dissolution mechanisms of alloys Understand anodic dissolution mechnism of alloys
Class 7 Passivity of metals Understand formation of passivity and resulting corrosion resistance
Class 8 Corrosion of metals and forms of corrosin Understand of corrosion of metals based on electrochemistry
Class 9 Electrochemical methods and surface analysis for corrosion research Understand electrochemical methods for corrosion research
Class 10 Aqueous corrosion of steels (Carbon steels, Low-alloy steels, Stainless steels) Understand of corrosion degradation of various steels
Class 11 Localized corrosion of corrosion-resistant alloys Understand of localized corrosion mechnisms
Class 12 Environmentally-Induced craking (Stress corrosion cracking, corrosion fatigue, Hydrogen embrittlement) Understand the mecanisms of environmentally induced crackings
Class 13 Corrosnio of non-ferrous metals Understand of corrosion features of non-ferrous metallic matarials
Class 14 Surface treatments for corrosion prevention Understand principles of corrosion prevention and surface treatments
Class 15 Recent topics of environmental degradation of metallic materials


Handouts delivered in the class

Reference books, course materials, etc.

H. Kita, K. Uosaki, Denkikagaku no kiso, Gihodo, 1997
D. A. Jones, "Principles and Prevention of Corrosion" Prentice Hall, 1996

Assessment criteria and methods

Achievement will be evaluated by the assignment level

Related courses

  • MAT.M308 : Electrochemistry of Metals
  • MAT.A204 : Thermodynamics of Materials

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




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