(1) Understand some reasons for elastic anisotropy caused by microscopic properties, and can explain the engineering application on some kinds of anisotropic materials. (taught by Morishita).
(2) Become able to think about technological innovation through the fusion of different fields for the construction, maintenance, and control of concrete structures. (taught by Takeda).
(3) Understand the factors to consider when making environmentally friendly choices for materials, and deepen understanding by individually studying and explaining materials of interest to each other. (taught by Hiraishi).
(4) Understand the physical quantities related to magnetism along with units, and aim to understand and explain the properties of various magnetic materials. (taught by Kajimura).
Outline:
(1) Macroscopic elastic moduli related micro properties in polycrystalline aggregate and particle dispersed composite. (8 hours, taught by Morishita.) (2) Explain the mechanical properties and reinforcement methods of concrete (a typical material for urban construction), maintenance and control techniques, and consideration for environmental issues. (6 hours, taught by Takeda.) (3) Deepen understanding by individually studying and explaining materials' environmental impact and the properties of various industrial materials. (8 hours, taught by Hiraishi.) (4) Understand the characteristics and properties of various magnetic materials and explain their application cases. (8 hours, taught by Kajimura.)
Style:
The class will be held in an omnibus format by four faculty members.
Weeks 1-4 (Morishita): Give lectures on the effects of microscopic properties on macroscopic moduli, and learn each other on some engineering applications of anisotropic materials.
Weeks 5-7 (Takeda): Students will learn about the mechanical properties of concrete, reinforcement methods, maintenance and control techniques, and consideration for environmental issues.
Weeks 8-11 (Hiraishi): After explaining choices of industrial materials and the difference in their environmental impact according to a Life Cycle Assessment (LCA), students will select one industrial material related to their graduate study's special research and use PowerPoint to present its advantages, disadvantages, and environmental impact.
Weeks 12-15 (Kajimura): Students will learn the physical quantities related to magnetism along with units, and become able to understand and explain the properties of various magnetic materials. Students will also investigate application cases.
Notice:
This course's content will amount to 90 hours of study in total. These hours include the learning time guaranteed in classes and the standard self-study time required for pre-study / review, and completing assignment reports.
Students who miss 1/3 or more of classes will not be eligible for evaluation.
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Theme |
Goals |
1st Semester |
1st Quarter |
1st |
Stress-strain relation and elastic moduli (Morishita) Learn about the elastic moduli for anisotropic materials. |
Can explain some types of elastic anisotropy and their moduli.
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2nd |
Elastic moduli of polycrystalline aggregate (Morishita) Learn about the relationship on the elastic moduli between single crystal and aggregate. |
Can explain that the metals are an aggregate of grains with texture, and their macroscopic moduli are expressed by the orientation distribution function.
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3rd |
Particle dispersed composites (Morishita) Learn about the relationship on elastic moduli between particles and composite. |
Can explain the effective moduli of composite are related by shape, position, orientation and density of particles.
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4th |
Anisotropy of various kinds of materials (Morishita) Give a presentation on an example of engineering application in an anisotropic material. |
Can explain the engineering application on some kinds of anisotropic materials.
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5th |
Introduction to concrete (Takeda) Learn about concrete (a typical material for urban construction), its constituent materials, and its mechanical properties. |
Can explain concrete's constituent materials and mechanical properties.
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6th |
Durability, maintenance and control techniques for concrete structures (Takeda) Learn how to reinforce concrete structures, and how to deal with deterioration that affects its durability. |
Can explain the maintenance and control techniques for concrete structures.
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7th |
Innovation in the construction field (Takeda) Learn about environmental issues and new technologies in the construction field |
Can explain how to deal with environmental problems and new technologies in the construction field.
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8th |
Materials and environmental impact (Hiraishi) Learn about the results of analyzing various industrial materials' environmental impact using an LCA (Life Cycle Assessment) method. |
Can analyze the difference between various industrial materials by means of an LCA (Life Cycle Assessment).
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2nd Quarter |
9th |
Study a material's properties (Hiraishi) Give a presentation on the characteristics of an industrial material of interest. |
Can explain the applications, advantages, and disadvantages of an industrial material related to special research.
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10th |
Study a material's properties (Hiraishi) Give a presentation on the characteristics of an industrial material of interest. Create presentation materials. |
Can explain the applications, advantages, and disadvantages of an industrial material related to special research.
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11th |
Study a material's properties (Hiraishi) Give a presentation on the characteristics of an industrial material of interest. |
Can explain the applications, advantages, and disadvantages of an industrial material related to special research.
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12th |
An outline of magnetic materials (Kajimura) Outline the development history of magnetic materials and their characteristics. Also learn about specific cases that are widely used in many fields today. |
Outline the development history of magnetic materials and their characteristics. Can also explain the specific cases that are widely used in many fields today.
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13th |
Physical properties of magnetic materials (Kajimura) Learn about the basics of magnetism and the physical properties of magnetic materials as learned in the field of electricity, etc. Investigate use and application cases of interest in the respective areas of specialty and deepen understanding of their principles. |
Learn about the basics of magnetism and the physical properties of magnetic materials as learned in the field of electricity, etc. Can investigate use and application cases of interest in the respective areas of specialty and deepen understanding of their principles.
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14th |
Principles and application examples of magnetic sensors that use magnetic materials (Kajimura) Introduce principles and application examples of magnetic sensors that use magnetic materials, and also introduce intelligent materials and intelligent magnetic materials. |
Can explain the principles and application examples of magnetic sensors that use magnetic materials, and explain intelligent materials and intelligent magnetic materials.
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15th |
Applications examples in various fields (Kajimura) Compile into a report the results of an investigation into magnetic materials in one's own area of specialty. |
Can compile into a report and explain the results of an investigation into magnetic materials in one's own area of specialty.
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16th |
Final exam
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