Environment and Materials Engineering
Course Overview
The Environmental and Materials Engineering course cultivates experts in the development of sustainable new materials, covering the fields of materials science, materials engineering, and environmental chemistry.
The course focuses on teaching and research in the fields of materials science, materials engineering, and environmental chemistry, aiming to train engineers and researchers to design and develop new materials that are sustainable and friendly to society. In the first year, students study a wide range of natural sciences such as physics and chemistry. From the second year onward, they study 欧洲杯足彩app下载_欧洲杯下注平台-【直播*网站】 specific and specialized content emphasizing the relationship between the environment and materials through lectures, experiments and practical training. In the third year, students begin their graduation research, in which they learn cutting-edge knowledge and techniques in the laboratory while attending lectures and conducting experiments. In the fourth year, they individually plan and conduct their graduation research, taking the first step toward becoming experts. If you wish to learn 欧洲杯足彩app下载_欧洲杯下注平台-【直播*网站】 advanced content, they can continue and develop your research at a graduate school.
Research Fields/Areas
Materials chemistry
Acquisition of chemical knowledge necessary for materials science and materials engineering, including materials chemistry, organic reactions, and energy
Material properties
Gaining an understanding of various materials such as steel materials, inorganic materials, organic materials, environmental materials, composite materials, and semiconductors, and a mastery of simulation and materials informatics (computational materials)
Functional evaluation
Gaining an understanding of principles and methods of analysis and measurement of magnetic properties, X-ray structural analysis, quantum microscopy, humidity measurement, thermal analysis, etc.
Materials physics
Acquiring the physical knowledge necessary for materials science and materials engineering based on materials mechanics and quantum theory
Structural processes
Gaining an understanding of levitation (weightless) processes, ultra-quick solidification, semiconductor device manufacturing processes, etc.
Keywords for Learning
- Environmentally friendly materials
- Biotechnologymaterials
- Computational materials
- Semiconductor materials
- Recycling technologymaterials
- Biomaterials
- Energy materials
- Nanomaterials
- Smart materials
Curriculum
Course Data
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Degree
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Bachelor of Engineering
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Campus
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1st and 2nd year: Omiya 3rd and 4th year: Toyosu
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Number of people
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Number of faculty members
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Admission capacity
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208
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Number of students
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Number of students entering graduate school
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-
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