Academic Year |
2024Year |
School/Graduate School |
Graduate School of Advanced Science and Engineering (Master's Course) Division of Advanced Science and Engineering Mechanical Engineering Program |
Lecture Code |
WSH21601 |
Subject Classification |
Specialized Education |
Subject Name |
Applied Materials Physics |
Subject Name (Katakana) |
アプライド マテリアルズ フィジクス |
Subject Name in English |
Applied Materials Physics |
Instructor |
SASAKI GEN,SUGIO KENJIRO |
Instructor (Katakana) |
ササキ ゲン,スギオ ケンジロウ |
Campus |
Higashi-Hiroshima |
Semester/Term |
1st-Year, Second Semester, 3Term |
Days, Periods, and Classrooms |
(3T) Tues1-4:ENG 108 |
Lesson Style |
Lecture |
Lesson Style (More Details) |
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Lecture |
Credits |
2.0 |
Class Hours/Week |
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Language of Instruction |
E
:
English |
Course Level |
5
:
Graduate Basic
|
Course Area(Area) |
25
:
Science and Technology |
Course Area(Discipline) |
09
:
Mechanical Engineering |
Eligible Students |
|
Keywords |
Crystal structure, Diffraction experiments, Crystal binding, Phonon, Energy bands, Point defects, Dislocation, Alloys |
Special Subject for Teacher Education |
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Special Subject |
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Class Status within Educational Program (Applicable only to targeted subjects for undergraduate students) | |
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Criterion referenced Evaluation (Applicable only to targeted subjects for undergraduate students) | |
Class Objectives /Class Outline |
Materials used in the field of mechanical system engineering include a variety of materials such as metallic alloys, fine ceramics, amorphous materials and fine particles. In addition, lattice defects and disordered structures strongly change characteristics of materials. In the present lecture, students mainly study the structures of materials, and then try to understand the basic physical process to realize these structures, and also try to understand how these structures affect the properties of materials. |
Class Schedule |
lesson1 Introduction of the lecture/ SASAKI lesson2 Crystal structure 1/ SASAKI lesson3 Crystal structure 2/ SASAKI lesson4 Electrical properties of metals/ SUGIO lesson5 Crystal structure 3/ SASAKI lesson6 Imperfection in solids/ SUGIO lesson7 Wave diffraction and the reciprocal lattice 1/ SASAKI lesson8 Diffusion/ SUGIO lesson9 Wave diffraction and the reciprocal lattice 2/ SASAKI lesson10 Phase Transformations/ SUGIO lesson11 Crystal binding 1/ SASAKI lesson12 Thermal properties/ SUGIO lesson13 Crystal binding 2/ SASAKI lesson14 Dislocation and strengthening mechanisms/ SUGIO lesson15 Elastic constants/ SASAKI
Some reports |
Text/Reference Books,etc. |
Copy of power point slides will be distributed before lecture.
Reference : Introduction to solid state physics, Charles Kittel, Wiley Materials Science and Engineering, William D. Callister, Wiley |
PC or AV used in Class,etc. |
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(More Details) |
PowerPoint presentation |
Learning techniques to be incorporated |
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Suggestions on Preparation and Review |
Listed contents will be talked in each lesson 2nd lesson: Periodic array of atoms, Fundamental types of lattice, Index systems for crystal planes 3rd lesson: Simple crystal structures 4th lesson: Atomic models, Quantum numbers, Electron configuration, Electrical conduction, Energy band structures, Matthiessen’s rule 5th lesson: Direct imaging of atomic structure 6th lesson: Vacancies and self-interstitials, Impurities, Dislocations, Grain boundaries, Microscopic examination 7th lesson: Diffraction of waves by crystals, Scattered wave amplitude 8th lesson: Diffusion mechanisms, Steady-state diffusion, Nonsteady-state diffusion 9th lesson: Brillouin Zones, Fourier Analysis of the Basis 10th lesson: Nucleation and growth, Homogeneous nucleation, Heterogeneous nucleation, Avrami equation, Isothermal transformation, Continuous cooling transformation, Shape-memory alloys 11th lesson: Crystals of Inert Gases, Ionic Crystals, Covalent Crystals, Metals 12th lesson: Heat capacity, Thermal expansion, Thermal conductivity, Wiedemann-Franz law 13th lesson: Hydrogen Bonds, Atomic Radii, Analysis of elastic strains 14th lesson: Dislocations and plastic deformation, Slip systems, Slip in single crystals, Strengthening 15th lesson: Elastic compliance and stiffness constants, Elastic waves in cubic crystals |
Requirements |
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Grading Method |
Give the credit for a student who gets more than 60 points. |
Practical Experience |
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Summary of Practical Experience and Class Contents based on it |
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Message |
Intend to make a lecture having close relation to the practical materials and mechanical system engineering. Expect active discussion and questions. |
Other |
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Please fill in the class improvement questionnaire which is carried out on all classes. Instructors will reflect on your feedback and utilize the information for improving their teaching. |