About the Research
About the Research
The Mechanical Creativity Course offers a wide range of education in the fields of mechanical engineering and systems engineering.
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Research Field
Precision engineering, precision machining, machine tools, production technology, thermal and environmental engineering, heat transfer engineering, heat storage technology, material strength, fatigue strength, fracture resistance evaluation, multibody dynamics, vibration control, robot dynamics, experimental stress, strain and displacement analysis, optical application technology, fracture mechanics, environmental strength, inverse problems, laser application technology, aerospace engineering, combustion science, computational fluid dynamics, applied optics, fluid mechanics, turbulence engineering, fluid-related vibration, fluid engineering, vibration engineering, machine mechanics, etc.
What you can research in the Machine Creation Course
The following research projects include those conducted through collaborative graduate programs with external research institutions.
| Department | Research Contents |
| Mechanical Materials and Material Mechanics | Material strength, fatigue strength, environmental strength, fracture resistance evaluation, experimental stress-strain-displacement analysis, fracture mechanics, laser application technology, composite materials, heat-resistant materials |
| Thermal Engineering/Fluid Engineering | Thermodynamics, heat transfer engineering, heat storage technology, fluid mechanics, turbulence engineering, aerospace engineering, computational fluid dynamics, combustion science, applied optics, aircraft engines, gas turbines |
| Mechanical Dynamics/Measurement and Control | Multibody dynamics, vibration control, robot dynamics, flow-related vibration, vibration engineering |
| Precision Engineering | Cutting-edge research in precision machining, machine tools, machine elements, production technology, MEMS technology, etc. |
