2021 Metallurgical Engineering Laboratory I

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Academic unit or major
Undergraduate major in Materials Science and Engineering
Muraishi Shinji  Kobayashi Equo  Takeyama Masao  Nakamura Yoshio  Shi Ji  Fujii Toshiyuki  Susa Masahiro  Kumai Shinji  Hosoda Hideki  Onaka Susumu  Kawamura Kenichi  Ueda Mitsutoshi  Kobayashi Yoshinao  Hayashi Miyuki  Tada Eiji  Kimura Yoshisato  Terada Yoshihiro  Sone Masato  Inamura Tomonari  Nakatsuji Kan  Gohda Yoshihiro  Nakada Nobuo  Kobayashi Satoru  Sannomiya Takumi  Harada Yohei  Nakashima Hirotoyo  Miyazawa Tomotaka  Watanabe Takashi  Endo Rie  Ooi Azusa  Yasui Shintaro  Miyazawa Naoki  Chang Tso-Fu  Watanabe Manabu  Shinohara Yuri  O Minho  Harumoto Takashi  Chiu Wan Ting 
Course component(s)
Day/Period(Room No.)
Mon5-8(実験室)  Thr5-8(実験室)  
Course number
Academic year
Offered quarter
Syllabus updated
Lecture notes updated
Language used
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Course description and aims

[Description] Student will do experiments and execises associated with metallurgical microstructure and properties.

[Aims] To learn fundamentals of metallugy and related experimental techniques and analysis methods. Students will also learn ethics, scientific writing, safety issues which are necessary for researcher.

Student learning outcomes

[Student learning outcomes] Students will gain an understanding of the microstructure and properties of metal materials throughout the experiments. Students will also gain scientific writing skills.
[Topics] The instructor in this course will cover "ethics", "scientific writting", "data analysis" as execice topics, "high temperature creep deformation ", "difusion bonding process", and "phisical property of metal" as experiment topics.


metallurgy, microstructure and properties, research ethics, scientific writing, safety training

Competencies that will be developed

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

Class flow

Student will do execise, experiment and analysis according to the schedule provided by principle instructer.

Course schedule/Required learning

  Course schedule Required learning
Class 1 General introduction Information will be provided by the instructor, if necessary.
Class 2 Research ethics (lecture and execise). To understand ethics of scientific report.
Class 3 Education of analysis (lecture and execise). To understand methods for analysis, graph making and its errors, etc.
Class 4 Education of safety (lecture and execise). to understand the principles of safety in experiment.
Class 5 metallurgical property: part1 To draw the whole product design, and indivisual parts.
Class 6 metallurgical property: part2 To make presentation and discuss the product design and mechanisms.
Class 7 metallurgical property: part3 To make the product design in detail in prior to mashining.
Class 8 Diffusion bonding: part1 To achieve How to use experimental apparatus of diffusion bonding.
Class 9 Diffusion bonding: part2 To understand theory of diffusion bonding.
Class 10 Diffusion bonding: part3 To evaluate properties of diffusion bonding by data analysis.
Class 11 Deformation at High temperature: part1 To achieve How to use experimental apparatus of creep test.
Class 12 Deformation at High temperature: part2 To understand theory of high temperature creep deformation.
Class 13 Deformation at High temperature: part3 To evaluate properties of high temperature creep by data analysis.
Class 14 General disscussion To make presentation of experiment and analysis.

Out-of-Class Study Time (Preparation and Review)

To enhance effective learning, students are encouraged to spend approximately 50 minutes preparing for class and another 50 minutes reviewing class content afterwards (including assignments) for each class.
They should do so by referring to textbooks and other course material.


Necessary materials will be provided by instructors.

Reference books, course materials, etc.

No particular textbook

Assessment criteria and methods

Students will be evaluated based on their performance of assignments and reports.

Related courses

  • MAT.M351 : Metallurgical Engineering Laboratory II
  • MAT.M352 : Metallurgical Engineering Laboratory III

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

This is the prerequisite course to take "Creativity Laboratory in Metallurgy".

Students are recommended to take a succeeding course of Creative laboratory in metallurgy (creativity lablratory in metallurgy will NOT be opened in 2021, so you do NOT have to take creativity laboratory in metallugy in 2021).

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