Master's Program in Mechanical Engineering

Developing Creative Engineers and Researchers to Lead in Cutting-Edge Manufacturing Fields

Students acquire extensive specialized knowledge through a broad study of mechanical engineering that encompasses material dynamics, mechanical dynamics, thermodynamics, fluid dynamics, machining, design and other subjects. Moreover, as students pursue lab exercises and research activities, they develop the ability to put knowledge into practice as well as high-level manufacturing craftsmanship competency and problem-solving ability. The program produces the outstanding specialized engineers that society requires and who are able to seek out social issues and take the initiative to find solutions in a free-thinking manner not bound by simply an engineering perspective.

Summary

Diploma Policy

A degree will be awarded to those who complete the prescribed period, earn the required credits, pass the thesis examination and final exam, and fulfil the following requirements:

(1) Possess advanced specialized knowledge and skills underpinned by a foundational understanding of natural sciences and basic knowledge and skills in mechanical engineering, and have acquired the necessary education to be an advanced technical expert and researcher.

(2) Have the ability to independently discover solutions to ill-defined social issues in the specialized field of mechanical engineering and have acquired advanced specialized knowledge, logical thinking, and techniques related to materials mechanics, mechanical dynamics, thermodynamics, fluid mechanics, processing, and design required for their resolution.

(3) Apply advanced specialized knowledge and techniques in materials mechanics, mechanical dynamics, thermodynamics, fluid mechanics, processing, and design to solve problems not only from a mechanical engineering perspective but also with a broad outlook, while developing high-level manufacturing skills.

(4) Possess advanced presentation and communication skills to explain and convey their thought and judgment processes, providing concrete examples and evidence.

(5) Accurately execute group work and research activities and utilize team-building methods to establish strong collaborative relationships.

(6) Understand the ethics and social responsibilities that must be upheld as advanced technical experts and researchers in the field of mechanical engineering.
Curriculum Policy

To equip students with the abilities outlined in the Diploma Policy, the curriculum is based on the following principles:

(1) Courses are provided to develop foundational knowledge and general abilities necessary for applying and developing engineering theories in the specialized field of mechanical engineering. Additionally, courses are allocated to ensure the acquisition of advanced specialized knowledge and skills in materials mechanics, mechanical dynamics, thermodynamics, fluid mechanics, processing, design, and a broad perspective on understanding these areas.

(2) Courses are offered that allow students to apply advanced specialized knowledge and techniques in materials mechanics, mechanical dynamics, thermodynamics, fluid mechanics, processing, design, and other areas, utilizing their general abilities to set their own challenges. Students will learn to plan, execute, evaluate, and improve action plans, processes, and task allocations through practical, collaborative learning to solve problems effectively.

(3) Courses are provided to help students understand the ethics and social responsibilities that advanced engineers and researchers must uphold, including respecting life, complying with laws, and prohibiting practices such as data falsification, plagiarism, and theft.