Principle of Metal Cutting and Cutting Tools

    Course Objectives:
    Through this course, student will be able to calculate the power of the machine tool and student will have the preliminary analysis on the physical phenomena of Machining process and suggest improvements, through experiments to improve the comprehensive ability of students.
     Course content:
    This course includes: (1) the status of metal cutting and development (2) basic definition of cutting tools, tool materials, the deformation process of metal cutting. (3) cutting force, cutting heat and cutting temperature (4) tool wear, breakage and tool life (5)the cutting of the workpiece material, cutting fluid, the quality of the machined surface; (6) a reasonable geometric parameters of cutting tool selection, The formulation of cutting; (7) grinding; (8) experimental angle measurement tool, cutting force measurement experiment .

Computer Aided Design & Manufacturing

    Course Objectives:
    This course enables students to understand the  the basic concepts of CAD / CAM, basic principles and technology, application of a CAD / CAM software,do a good foundation  for students future work in the CAD / CAM work after they graduate.
    Course content:
    The main contents are to introduce CAD/CAM technology, the basic concepts, technology development and application, the composition and classification of the CAD / CAM system , CAD/CAM system hardware and software, computer-assisted NC programming.While also introduce a more extensive application of CAD/CAM software: such as MastCAM, SolidWorks, UG and other CAD/CAM software. This application of CAD/CAM software  includs  two-dimension curve editing,  three-dimensional surface and solid modeling, the two-dimension and three-dimension milling tool path settings, dynamic simulation and post-processing methods.

Advanced Manufacturing Technology

    Course Objectives:
    This course enables students to understand the forefront of advanced manufacturing technology, open thinking, expand knowledge, to grasp the concept of advanced manufacturing technology and methods, training the students ability of Innovative thinking and engineering practice.
    Course content:
    The concept of advanced manufacturing technology, modern design technology, advanced manufacturing technology, manufacturing automation technology, advanced management ideas and techniques.

Mechanical Machining Techniques

    Course Objectives:
    Through this course of study, the students can master basic theoretical knowledge of mechanical processing, the parts surface processing technology, and assembly process knowledge, can develop simple parts processing procedure, design simple jigs, analyze and solve processing precision problem, the structure machining of components and products.
     Course content:
     The students study concepts of localization and base for workpiece machining in this course; study machining precision and it’s control, machining error analysis, learn the machining process planning design, which include process route to determine, formulate machining allowance, the processing procedure, and processing dimension chain etc. Machine assembly process design includes assembly procedure formulation, the structure machining of components and products, and the machine fixture design knowledge, etc.

Number Control Technology & Applications

    Course objectives:
    This course requests the student to grasp the nc machine working principle, components;Grasp the common functions instructions and CNC machining programming; Understand position detection device's working principle, components, etc;Cause the student to have certain understanding for the working process of the nc machine,to engage in professional work to lay the foundation For later.
    Course content:
    This course mainly includes:(1) Numerically-controlled machine tool's generation and characteristics and numerically-controlled machine tool's composition and classification, and nc machine tools and numerical control technology development;(2) For CNC programming、Nc machining process analysis and programming of the mathematics in processing;(3) Nc system interpolation theory、blade compensating;(4)CNC device;(5) NC machine tool's position detection device;(6) CNC servo system and the numerical control technology application, etc

Principle and Programming of Numerical Control

    Course objectives:
    This course requires students to understand the development of modern numerical control technology, master nc machining programming method、the basic principle of digital control technology knowledge, to be engaged in numerically-controlled machine tool and electromechanical integration aspect work laying a strong foundation for students' future
    Course content:
    1) The introduction mainly includes numerically-controlled machine tool's generation and characteristics,composition and classification and its development trend; 2) For CNC programming, CNC lathe and CNC milling machine programming; 3) Interpolation principle and cutlery compensation, benchmark pulse interpolation point-by-point comparison method and digital integral method, data sampling interpolation; 4) The hardware structure and software structure of CNC device; 5) Computer numerical control technology application

Numerical Control Servo System & Position Measurement

    Course objectives:
    Through students study this course, they understand the modern digital control technology basic principle, master CNC servo system and position detection technology,to make students lay a solid foundation in the numerical control technology aspects in the future work.
    Course content:
    Introduce the composition of the servo system、the basic requirement for servo system、the classification of servo system; basic knowledge of Servo control, including operational amplifier applications and power semiconductor devices; Stepping motor and its driving control system; Dc servo motor and speed control; Ac servo motor speed control; CNC machine commonly used sensors and detection device.

Numerical Control Machine Tool (1)

    Course objectives:
    This course makes students understand the emergence and development of numerical control machine, characteristics and application areas, master basic knowledge of transmission of machine, numerical control machine tool working principle and composition, master CNC machinery structure and nc machining system technology and equipment, understand all kinds of typical numerically-controlled machine tool, in order to adapt to the needs of the development of the modern industry.
    Course content:
    This course includes: (1)Numerically-controlled machine tool's generation and characteristics and the status and development of numerical control machine;(2) Nc machine tool's principle of work, composition and classification;(3) Basic knowledge of machine transmission;(4) CNC machine general structure and mechanical structure requirement, CNC machine main transmission, feeding system, nc machine tools bearing parts, guide rail, etc.;(5) Nc machining system process equipment (knife library and automatic tool changer, rotary worktable);(6) Typical nc machine tools profile (CNC lathe, CNC milling machine and machining center, etc.).

Electric Appliance Control of Machine Tools & PLC

    Course objectives:
    This course makes the students know of the mechanical equipment electrical control mode and means, methods, And master the PLC in mechanical equipment logic control application, lay the foundation for future work in mechatronics.
    Course content:
    Introduce programmable controller the definition, characteristic and classification; Common low-voltage and its basic knowledge; Typical electrical control circuit analysis, the key content is motor starting control and braking control; Introduce the structure and working principle of programmable controller, introduce PLC switch quantity ladder-diagram program writing methods with an application example.

Non-Conventional Machining

    Course Objectives:
    This curriculum facilitates students to understand the basic principles, press methods, properties and their applications of the various types of non-conventional machining, to comprehend the theoretical basis, machine devices and process characteristics of electrical discharge machining (EDM), wire cutting EDM. Through the curriculum, students should basically grasp the design and manufacture process of complicated parts, and improve the abilities of analyzing and solving the process issues in mold non-conventional machining.
    Curriculum Content:
    The principles, characteristics, equipment of EDM, EDM features and automatic control of EDM, process technology and EDM electrode design; WEDM principles and technology, EDM wire cutting equipment, process characteristics and parameters, wire cutting program and process technology; the basic principles and classification of electrochemical machining, the electrode reaction principle, the basic rules of electrochemical machining, the process principles of electroforming, plating, electrochemical machining application; the principles, equipment and applications of laser beam machining; the principles, equipment and applications of ultrasonic machining; the basic principles, equipment and applications of rapid prototyping.