Course title
機械システム特別講義(セラミック材料学)   [Special Lecture on Mechanical Systems]
Course category technology speciality courses,ets.  Requirement   Credit 2 
Department   Year 34  Semester Fall 
Course type Fall  Course code 025517
Instructor(s)
榎 学   [ENOKI Manabu]
Facility affiliation Graduate School of Engineering Office   Email address

Course description
Structural ceramics demonstrate a good performance in harness, strength, chemical stability and so on, and they become very important materials in engineering view point. The knowledge about crystal structure and processing methods of ceramics are needed to understand these properties. The goal of this lecture is to learn the crystal structures and sintering methods of typical ceramics, and to understand thermal property, mechanical property, and electrical property with mechanism of these properties.
Expected Learning
(1) Understand the basic properties of ceramics which are used in various structures and products
(2) Understand the processing methods of ceramics and their mechanical and electrical properties
(3) Proper choice of ceramic materials for product design and usage
Course schedule
Lesson 1 ? What are ceramics?
Understand typical properties of ceramics compared with other materials and applications for products
Lesson 2 ? Crystal structures
Learn the bonding of atoms in materials and the crystal structures of typical ceramics
Lesson 3 ? Amorphous structures
Understand the amorphous structures (glass structures) compared with crystal structures and typical inorganic glasses
Lesson 4 ? Lattice defect
Understand the lattice defect such as void and dislocation and the effect of these defects on material properties
Lesson 5 ? Diffusion
Understand the material flow in solid which is very important in material processing and the diffusion which pays very important role in high-temperature properties
Lesson 6 ? Powder synthesis and sintering
Learn the powder synthesis methods which are needed in processing of bulk ceramics and understand the chemical reaction in these methods, and understand the mechanism and methods of sintering of ceramics using powders and the effect of microstructure on properties
Lesson 7 ? Thermal properties
Learn the high melting point and low coefficient of thermal expansion which are characteristics of ceramics and understand the reason with crystal structures
Lesson 8 ? Mechanical properties
Learn the elastic property and hardness and understand the theoretical strength of ceramics, and learn the effect of temperature on strength and understand the mechanism of deformation and fracture, and also learn the Weibull distribution which is a statistical approach of strength of ceramics
Lesson 9 ? Fracture toughness
Lear the mechanics of cracks and understand the stress intensity factor and energy release rate, and learn the fracture criterion and fracture toughness
Lesson 10 ? Fatigue properties
Learn the crack propagation properties of cracks with cyclic loading, and understand the environmental effect of fatigue
Lesson 11 ? High temperature deformation and thermal shock
Learn the creep deformation and super plasticity which are dominant deformation mechanism at elevated temperature and understand these mechanisms, and understand the thermal stress due to the difference of temperature and the thermal shock fracture
Lesson 12 ? Electrical properties
Learn the electrical conductivity and understand the insulation properties, semiconductors and super conductivity
Lesson 13 ? Dielectric properties
Learn the polarization in crystal structures and understand the mechanisms of dielectric, piezoelectric, pyroelectric and ferroelectric properties
Lesson 14 ? Magnetic properties
Learn the paramagnetic and ferromagnetic properties and understand the induced and spontaneous magnetization
Lesson 15 ? Final examination
Prerequisites
Having a knowledge about microstructure and properties of metals
Required Text(s) and Materials
References
Taketo Sakuma, Ceramic materials, Kaibundo; Toshihiko Nishida and Eiichi Yasuda, Evaluation of mechanical properties of cerramis, Nikkan Kogyo Shimbun; Manabu Enoki, Mechanical reliability of materials, Uchidarokakuho
Assessment/Grading
Attendance (30%), Examination (70%)
Message from instructor(s)
Recommend this lecture because ceramics are very important industrial materials
Course keywords
Ceramics, crystal structures, sintering, thermal properties, mechanical properties, functional properties
Office hours
Remarks 1
Remarks 2
S 10%, A 40%, B 30%, C 20%, D 0%
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Last update
9/25/2018 10:30:15 AM