積層製造學(Additive Manufacturing)
This course aims to provide the students with a comprehensive understanding of additive manufacturing (3D printing), including the general introduction, layer-by-layer printing mechanism, and the concept of DfAM (Design of Additive manufacturing). In addition, this course module further focuses on the AM process's underlying physics and material science. There are three sections in this course module, starting from a general introduction, printing mechanism, CAD/CAM system, reverse engineering, and the concept of DfAM (Design of Additive manufacturing). based on that, the AM process's underlying physics and material science are focused on in section two. Furthermore, state-of-the-art additive manufacturing technology such as multiple materials additive manufacturing and rapid additive manufacturing are also introduced. In addition, an AM process's safety and operative procedure is included to give students a gaudiness of designing/operating an AM system.
機動學 (Kinematics of Machinery)
The purpose of this course to convey the art of the design process to the students in order to prepare them to cope with real engineering problems in practice. we will explore the topics of kinematics and dynamics of machinery in respect to the synthesis of mechanisms in order to accomplish desired motions or tasks, and also the analysis of mechanisms in order to determine their rigid-body dynamic behavior. we will first explore the topic of synthesis of mechanisms. Then we will investigate techniques of analysis of mechanisms. All this will be directed toward developing your ability to design viable mechanism solutions to real, unstructured engineering problems by using a design process.
機械設計 (Machine Design)
This course aims to convey the art of the mechanical design process to the students to prepare them to cope with real engineering problems in practice. We will start with a short introduction to the basics of mechanical engineering design, including a review of various material properties, load/stress analysis, and deflection/stiffness analysis. Next, we will focus on the failure analysis under different loading conditions, including static and variable loading failures. Finally, the design of various mechanical elements (i.e., gear, spring, bearing) will be focused on and discussed, such as selecting proper mechanical components and the theoretical basis of the design of mechanical strength.