This course provides an overview of the broad discipline of materials science and provides students who do not specialize
in materials with an overview of materials and how materials used in the real world are designed and fabricated. Materials
science is a field of study that looks at a material's atomic and molecular structure, its microscopic and macroscopic properties,
and how different processes affect materials structure and properties. This course introduces fundamentals of fabrication
method and processing method (mechanical and thermal) of materials and their effects on structures and their properties. In
the first part, classification of materials and their characteristics based on the basic chemistry will be given, and also
their fabrication methods, mechanical processing and heat treatment procedures will be introduced. Then, in the second part,
students can learn about the effects of the fabrication, mechanical processing and thermal processing on their crystal structure,
microstructure, and properties like mechanical strength, from the viewpoints of thermodynamics.
This course provides an overview of the broad discipline of materials science and provides students who do not specialize
in materials with an overview of materials and how materials used in the real world are designed and fabricated. The purpose
of this course is to learn the types and characteristics of typical materials, and to learn about the structure, texture,
stability, strength, and physical properties of materials that change with manufacturing and processing methods.
| Goals and objectives | Course Outcomes | |
|---|---|---|
| 1. | The students will be able to explain the types and characteristics of materials using the basics of chemistry. |
A-1
|
| 2. | The students will be able to explain the effects of material manufacturing, processing, heat treatment, etc. on the structure, texture, stability, strength, etc. of the material. |
A-1
|
| 3. | The students will be able to explain the relationship between material properties and manufacturing methods. |
A-1
|
| Mid-term and final exams | In class presentation etc. | Total. | |
|---|---|---|---|
| 1. | 15% | 15% | 30% |
| 2. | 15% | 15% | 30% |
| 3. | 20% | 20% | 40% |
| Total. | 50% | 50% | - |
| Class schedule | HW assignments (Including preparation and review of the class.) | Amount of Time Required | |
|---|---|---|---|
| 1. | Guidance Overview of materials science |
Read the syllabus and understand the overall picture of this course | 40分 |
| Read the distributed materials and understand the contents of the lecture | 90分 | ||
| 2. | Basic Chemistry; electron configuration, chemical bonds, orbital, coordination of elements, etc | Preparation for small exam (or presentation) | 90分 |
| Read the distributed materials and understand the contents of the lecture | 90分 | ||
| 3. | Crystal structures of materials, lattices, closed packing, etc | Preparation for small exam (or presentation) | 90分 |
| Read the distributed materials and understand the contents of the lecture | 90分 | ||
| 4. | Ionic radius ratio, structural stability of ionic crystals, etc | Preparation for small exam (or presentation) | 90分 |
| Read the distributed materials and understand the contents of the lecture | 90分 | ||
| 5. | Symmetry, crystals and quasicrystals, miscellaneous knowledge, etc | Preparation for small exam (or presentation) | 90分 |
| Read the distributed materials and understand the contents of the lecture | 90分 | ||
| 6. | Mechanical destruction、 ceramics, metals, plastics, industrial metals, etc | Preparation for small exam (or presentation) | 90分 |
| Read the distributed materials and understand the contents of the lecture | 90分 | ||
| 7. | Mechanical properties, strength, defects, strengthening methods, etc | Preparation for small exam (or presentation) | 90分 |
| Read the distributed materials and understand the contents of the lecture | 90分 | ||
| 8. | Mid-term exam (or report and presentation) Failure (fracture), processing of metals and ceramics, etc |
Preparation for small exam (or presentation) | 150分 |
| Read the distributed materials and understand the contents of the lecture | 90分 | ||
| 9. | Stability and structural change with temperature, phase diagrams | Preparation for small exam (or presentation) | 90分 |
| Read the distributed materials and understand the contents of the lecture | 90分 | ||
| 10. | Processing and thermodynamics of material, diffusion, crystal growth, minerals, etc | Preparation for small exam (or presentation) | 90分 |
| Read the distributed materials and understand the contents of the lecture | 90分 | ||
| 11. | Material properties and manufacturing methods of various materials; electric properties, piezoelectric and ferroelectric materials, semiconductors, thin film processing, etc | Preparation for small exam (or presentation) | 90分 |
| Read the distributed materials and understand the contents of the lecture | 90分 | ||
| 12. | Material properties and manufacturing methods of various materials; magnetic properties, superconductors | Preparation for small exam (or presentation) | 90分 |
| Read the distributed materials and understand the contents of the lecture | 90分 | ||
| 13. | Material properties and manufacturing methods of various materials, characterization methods, etc | Preparation for small exam (or presentation) | 90分 |
| Read the distributed materials and understand the contents of the lecture | 90分 | ||
| 14. | Final exam (or report and presentation) Summary and discussion |
Preparation for final exam (or report and presentation) | 300分 |
| Total. | - | - | 2650分 |
| A:Fundamental Mechanical Engineering | B:Advanced Mechanical Engineering | C:Environment and Materials Engineering | D:Chemistry and Biotechnology | E:Electrical Engineering and Robotics | G:Advanced Electronic Engineering | F:Information and Communications Engineering | L:Computer Science and Engineering | H:Urban Infrastructure and Environment |
|---|
Mid-term and final exam (or report / presentation) etc. will contribute 50% of your grade.
Presentations, Q & A and small exercises in each classes, etc. will contribute 50% of your grade.
Students need at least 60% of the full score to pass this course.
If you attend all classes, make your presentations and reports on time, you can get at least 60 %.
Whether examinations will be given or whether reports and presentations will be given instead of examinations will be decided after the students' situation is assessed in the first class.
Presentations, Q & A and small exercises in each classes, etc. will contribute 50% of your grade.
Students need at least 60% of the full score to pass this course.
If you attend all classes, make your presentations and reports on time, you can get at least 60 %.
Whether examinations will be given or whether reports and presentations will be given instead of examinations will be decided after the students' situation is assessed in the first class.
| ways of feedback | specific contents about "Other" |
|---|---|
| Feedback in the class | Feedback will be given in class. |
Textbooks are not specified, but reference books will be introduced in lectures.
Also distribute hard copies of materials used for lectures.
Also distribute hard copies of materials used for lectures.
- Please consult with the professor between 9: 00-17: 00.
- Please take an appoiment by e-mail in advance.
Contact e-mail addresse to Naomichi Sakai : nsakai@shibaura-it.ac.jp
- Course that cultivates an ability for utilizing knowledge
| Work experience | Work experience and relevance to the course content if applicable |
|---|---|
| Applicable | The professor has 30 years of research experience at chemical company and research institute. Students will be able to learn the relationship between materials science and materials used in our life. |
Last modified : Wed Mar 13 04:09:07 JST 2024