The department aims to cultivate the ability to fabricate mechanical devices or mechatronic systems that can be utilized for various purposes by utilizing various materials with excellent physical and chemical properties or smart materials that can be developed by combining ultra-precision machining technology.
- elf-directed, lifelong learner with strong knowledge and convergence skills related to materials, components, and equipment
- Engineer specializing in various high-performance materials machining technologies
- Expert in IoT smart actuator/sensor development
- Expert in developing intelligent equipment with smart components and entrepreneur in related fields
To achieve the educational objectives, the curriculum is composed of courses related to the core materials of the fundamental and future technologies such as mechanical materials, functional polymer materials, and smart materials; courses related to mechanics-based system design and analysis such as CAD/CAE/CAM; and courses related to low-volume, high-mix and mass production technologies such as 3D printers, molds and dies, injection molding, and nano-replication.
- Composed of faculty members with field application skills and expertise in technologies of the Fourth Industrial Revolution such as functional material machining technology experts, IoT smart actuator/sensor developers, intelligent equipment convergence education experts, CAD/CAM/CAE experts, and 3D printing convergence education experts
- The first- and second-year curriculum aims to strengthen basic vocational skills with lectures and labs related to 3D CAD/CAM/CAE, engineering programming, fundamentals of mechanics and materials, and fundamentals control and embedded systems.
- In the third and fourth year, the curriculum includes in-advanced courses for capacity building in ultra-precision machining technology, the latest 3D printing technology, sensor convergence embedded systems, and smart factory design, as well as practical project courses such as fieldwork, capstone design, and convergence product development.
Based on this, we plan to foster human resources with the ability to develop convergence systems utilizing various IoT sensors related to smart vehicle electronics, robotics, production automation, and energy systems.