Fundamental Mechanical Engineering

Curriculum

Students systematically learn mechanics, which is the foundation of mechanical engineering, and develop engineering the design skills needed to discover and solve social problems, as well as the research and development skills to create advanced mechanical systems.

1st year: Learn basic subjects related to mechanics and mathematics, and learn how to think mechanically

●Main Courses of Study
Introduction to Mechanical Engineering 1/ Materials for Machine / Kinematics of Machine / Mechanics of Materials 1

2nd year: Acquire mechanical engineering concepts and design skills through lectures and exercises

●Main Courses of Study
Fluid Mechanics 1/2 / Thermodynamics 1/2 / Mechanics of Materials 2 (Fundamental Mechanical Engineering Course) / Vibration Engineering 1 / Mechanical Design / Material Processing / Applied Analysis/ Machine Design & Drawing 1/2 / Introduction to Mechanical Engineering ２

3rd year: Develop advanced expertise while honing problem-solving skills in the laboratory

●Main Courses of Study
Control Engineering 1/2 / Vibration Engineering 2/ Strength of Materials / Heat Transfer Engineering / Energy Conversion Engineering / Computational Mechanics / Engine Systems / Aero Space Engineering / Cryogenic Engineering / Graduation Thesis 1/2

4th year: Acquire research and development skills by accumulating practical learning through graduation research

●Main Courses of Study
Graduation Thesis 3/4

Class Introduction

機械工学の基礎1?2 — **Introduction to Mechanical Engineering 1/２**

Students acquire basic academic skills through omnibus lectures, reports, surveys, and presentations. In addition, they will deepen their understanding of mechanical engineering systems through exposure to an overview of research in the major fields of materials, fluids, heat/energy, vibration/control, and design/processing.

002 — **Mechanical Design & Drawing 1/2**

Students learn the basics of mechanical drawing based on JIS standards and acquire the ability to read and draw mechanical drawings accurately and quickly through exercises. Students also develop knowledge of the methods and machine materials necessary for manufacturing.

振動工学1?2 — **Vibration Engineering 1/2**

In recent years, machines have become lighter and faster, and are 欧洲杯足彩app下载_欧洲杯下注平台-【直播*网站】 prone to vibration and noise. Vibration can also affect other machines through the floor. In Vibration Engineering 1/2, students learn about the principles that cause such vibration and how to prevent it.

Examples of Research Topics

Taking up the challenge of realizing high-strength mechanical joints with the keywords of "safety" and "reliability”!

橋村研究室 — **Materials Strength Laboratory: Professor Shinji Hashimura**
In transport equipment such as automobiles and airplanes, multi-material structures using various materials are required to reduce weight. In this research, to enable multi-material structures, dissimilar materials are bonded and the reliability of the bonding is evaluated using this fatigue testing machine.

Examples of Activities with Overseas Partners

Fluid Mechanics and Fluid Phenomena Application Laboratory + National Taipei University of Technology (NTUT), Taiwan

NTUTでの授業 — This laboratory conducts research on power generation and energy-saving technologies that apply fluid mechanics and has many international students from overseas. Some of our students have also studied abroad in Scandinavia and Africa under long-term programs. Last year, we held a 2-week short-term study abroad program with a partner laboratory in Taiwan, where students had the opportunity to interact with different fields and experience cutting-edge research.