Course Descriptors







Undergraduate Courses Descriptors



College of China & New Zealand Collaboration


(Edition 2016)

January 2018

Contents

Profile of An Introduction to Mechanical Engineering

Course name in English: An Introduction to Mechanical Engineering

Course code: W20510                  Hours/credits: 16,1.0

Main content:

 An Introduction to Mechanical Engineering, an introductory course of the mechanical design, manufacturing and automation major, is a disciplinary foundation course. It mainly teaches the introduction to the basic knowledge of this major, and consists of four modules, i.e. modern design and manufacturing technology, an introduction to engineering materials, mechanotronics technology and fishery equipment and technology. It is designed to build a framework of theoretical knowledge and basic techniques for the students of this major, and gives specific requirement for the cultivation of their personal abilities.

 Through introducing the basic major knowledge and in combination with practical engineering application, it will stimulate students’ interests in major learning, provide a correct guide for their future major study and development of personal abilities, let them have a complete understanding and definite knowledge of this major, i.e. what is this major, what to learn and what to do?

Main Reference Materials and Books:

 1. Xi Liming (2013.October) AnIntroduction to Mechanical Engineering , China Machine Press.

  2. Teaching Materials of An Introduction to Mechanical Engineering, self-compiled, December 2013.

Authors: Li Xiuchen, Ding Xiaofei, Cai Weiguo, Gao Hang













Profile of Advanced Mathematics FI

Course name in English: Advanced Mathematics

Course code: W20430                 Hours, credits: 80, 5.0

Main content:

 Advanced Mathematics FI is an important basic course of engineering undergraduate majors in universities and colleges. Through study, students will gain the calculus knowledge required to conduct the engineering scientific research and management and learn to analyze and solve the engineering disciplinary quantitative relation problems by using the variable mathematics methods. It will cultivate their abilities of abstract thinking and logical thinking and build up the viewpoints of dialectical materialism; and, it is also the basis of subsequent applied mathematics course.

 Through study, it will let students master the basic concepts and theories of functions, limits and continuity, derivatives and differential, differential mean value theorem and application of derivatives, indefinite integral, definite integral, application of definite integral and differential equation; students can answer relevant basic questions by using the learned knowledge and computing methods, and can establish the basic knowledge framework of this course, and have a clear idea of the connection between knowledge points and their functions and can solve problems by using them.

 This course will be mainly taught by teachers in class, and the teaching objectives will be accomplished through class exercise, post-class homework, process quiz and application of advanced mathematics in the subsequent major courses so as to promote students’ understanding of knowledge and digestion of methods,

Main Reference Materials and Books:

 1. Tongji University Department of applied mathematics (2014) Advanced Mathematics (Seventh Edition), Higher Education Press.

 2. Tongji University Department of Applied Mathematics (1999),calculus Vol.1,  Higher Education Press .

 3. Shi Guangyan (2005) Lecture Notes of Advanced Mathematics, Dalian University of Technology Press, .

 4. Wang liyan and Qin Yuchun (2006) Study Guide of Advanced Mathematics, Dalian University of Technology Press.

 5. Tongji University Department of Applied Mathematics (2017.07)A Guide of Complete Solution to Advanced MathematicsExercises (Vol.1), , Higher Education Press.

Author: Zhang Lifeng


Profile of Advanced Mathematics FII

Course name in English: Advanced Mathematics II

Course code: W20420                  Hours, credits: 64, 4.0

Main content:

 Advanced Mathematics is an important basic course of engineering undergraduate majors in universities and colleges. Through study, students will gain the calculus knowledge required to conduct the engineering scientific research and management and learn to analyze and solve the engineering disciplinary integral problems by using the variable mathematics methods. It will cultivate their abilities of abstract thinking and logical thinking and build up the viewpoints of dialectical materialism; and, this course is also the basis of subsequent applied mathematics course.

 Through study, it will let students master the basic concepts and theories of vector algera and analytical geometry of three dimensions, multivariate function differentiation and its application, repeated integral, curvilinear integral and surface integral and infinite series; students can answer relevant basic questions by using the learned knowledge and computing methods, and can establish the basic knowledge framework of this course, and have a clear idea of the connection between knowledge points and their functions and can solve problems by using them

 This course will be mainly taught by teachers in class, and the teaching objectives will be accomplished through class exercise, post-class homework, process quiz and application of advanced mathematics in the subsequent major courses so as to promote students’ understanding of knowledge and digestion of methods.

Main Reference Materials and Books:

 1. Tongji University Department of applied mathematics (2014),Advanced Mathematics (Seventh Edition), Higher Education Press,.

 2.Tongji University Department of Applied Mathematics(1999), calculus (Vol.2), Higher Education Press, .

 3. Wang liyan & Qin Yuchun (2006), Study Guide of Advanced Mathematics, Dalian University of Technology Press,.

 4. Tongji University Department of Applied Mathematics (2014) A Guide of Complete Solution to Advanced MathematicsExercises (Vol.2), Higher Education Press

Author: Zhang Lifeng


Profile of Linear Algebra I

Course name in English: Linear Algebra I

Course code: W21210                 Hours, credits: 32, 2.0

Main content:

 linear algebrais, an important general basic course of engineering undergraduates in universities and colleges, is a course that focuses on the discussion of finite dimensional space linear theories. It is aimed at providing the engineering undergraduate majors with a basic mathematical tool to solve the linear problems, and undertakes the tasks of cultivating students’ abilities of mathematic abstract thinking and logic thinking as well as their awareness and abilities to solve major problems by using the mathematical knowledge of linear theory.

 Through study, students will grasp the basic concepts and theories of determinant, matrix and its operation, matrix elementary transformation and system of linear equations, linear dependence of vector group, vector inner product, length and orthogonality definition, matrix characteristic values and characteristic vector; students can answer relevant basic questions by using the learned knowledge and computing methods, and can establish the basic knowledge framework of this course, and have a clear idea of the connection between knowledge points and their functions and can solve problems by using them

 This course will be mainly taught by teachers in class, and the teaching objectives will be accomplished through class exercise, post-class homework, process quiz and application of linear algebra in the subsequent major courses so as to promote students’ understanding of knowledge and digestion of methods,

Main Reference Materials and Books:

 1. Tongji University Department of Applied Mathematics (2014), linear algebra (Sixth Edition), Higher Education Press

 2. Tongji University Department of Applied Mathematics (2014),Study Guide for Linear Algebra,Higher Education Press.

 3. Qi Liyan (2014) Study Guide for Linear Algebra,Tsinghua University Press,

Author: Zhang Limei










Profile of Probability and Statistics B

Course name in English:Probability and Statistics B

Course code:W21220    Hours, credits: 32, 2.0

Main content:

Probability and Statistics is a main basic course of engineering undergraduates in universities and colleges. As a mathematic discipline that studies the objective laws of random phenomena with a strong nature of application, it is a basic theoretical course of engineering majors in universities and colleges.

Through study, students will gain the basic concepts, theories and methods of random events and probability, one-dimension random variables and their distribution, two-dimensional random variables and their distribution, mathematical expectation and variance of random variables, parameter estimation and hypothesis testing, and can describe random phenomena by using mathematical linguistics, correctly compute and understand their objective laws. This course pays particular attention to cultivating students’ ability to solve relevant practical problems. Where conditions permit, it will cultivate their ability to use corresponding software and conduct computer simulated fulfillment of random phenomena.

 This course will be mainly taught by teachers in class, and the teaching objectives will be accomplished through class exercise, post-class homework, process quiz and application of Probability and Statistics in the subsequent major courses so as to promote students’ understanding of knowledge and digestion of methods.

Main Reference Materials and Books:

  1. Sheng Zhou, Xie Shiqian & Pan Chengyi (2010) Probability and Statistics (Fourth Edition),Higher Education Press

  2. Zhu Dongjin, Guo Dawei & Liu Xiao (2010), Probability and Statistics, National Defense Industry Press

3. Qin Yan,(2010) Synchronous Guidance and Postgraduate Exam Direction for Probability and Statistics, East China University of Science and Technology Press,

Author: Gao Hui










Profile of University Physics EI

Course name in English: University Physics EI

Course code: W20610                   Hours, credits: 32, 2.0

Main content:

Physics studies the basic physical structure and universal law of physical movement, and is the basis of engineering techniques and numerous fields of natural science. Classical physics, contemporary physics and elementary knowledge regarding the application of physics in science and technology contained in the course of University Physics EI are essential to a senior engineering technical person. Hence, it is an important basic course for students of science and engineering majors.

This course includes particle kinematics, particle dynamics, fundamentals of geostatics, special relativity, mechanical vibration, mechanical wave, kinetic theory of gases, fundamentals of thermodynamics, etc.

On the one hand, this course is aimed at letting students have comprehensive and systematic knowledge and correct understanding of basic concepts, theories and methods in it; on the other hand, it is aimed at developing students’ world outlook of dialectical materialism and scientific methodology, cultivating their ability of raising, analyzing and solving problems; fostering their innovation spirit, enhancing their adaptability and improving their scientific attainment.

Main Reference Materials and Books:

 1. Wang Shaojie & Gu Mu (2014) New Fundamentals of Physics (Vol.1), Science Press.

 2. Wu Baishi (2007), Fundamentals of University Physics, Science Press.

 3. Zhang Sanhui (1999), University Physics,, Tsinghua University Press.

 4. Cheng Shouzhu & Jiang Zhiyong (1983), University Physics, Higher Education Press.

 5. Mao Junjian & Gu Mu (2006),University Physics, Higher Education Press.

Author: Zhou Dan







Profile of University Physics EII

Course name in English:University Physics EII

Course code:W20620    Hours, credits: 48, 3.0

Main content:

Physics studies the basic physical structure and universal law of physical movement, and is the basis of engineering techniques and numerous fields of natural science. Classical physics, contemporary physics and elementary knowledge regarding the application of physics in science and technology contained in the course of University Physics EII are essential to a senior engineering technical person. Hence, it is an important basic course for students of science and engineering majors.

This course includes electromagnetic, fundamentals of wave optics, fundamentals of quantum physics, special subject of physical fundamentals of modern science and high and new technology, etc.

On the one hand, this course is aimed at letting students have comprehensive and systematic knowledge and correct understanding of basic concepts, theories and methods in it; on the other hand, it is aimed at developing students’ world outlook of dialectical materialism and scientific methodology, cultivating their ability of raising, analyzing and solving problems; fostering their innovation spirit, enhancing their adaptability and improving their scientific attainment.

Main Reference Materials and Books:

  1.  Wang Shaojie and Gu Mu(2014), New Fundamentals of Physics (Vol.2), Science Press

  2.  Wu Baishi(2007), Fundamentals of University Physics, compiled by , Science Press

  3.  Zhang Sanhui(1999),University Physics, Tsinghua University Press.

  4.  Cheng Shouzhu & Jiang Zhiyong(1983), University Physics, compiled by, Higher Education Press.

 5. Mao Junjian and Gu Mu (2006), University Physics, Higher Education Press.

Author: Zhou Dan







Profile of Physical Experiment E

Course name in English: Physical Experiment E

Course code: W20630                  Hours, credits: 24, 1.0

Course type: disciplinary foundation course        

Main content:

 Physical Experiment E is a common basic compulsory course. Experiment items cover mechanics, thermology and electricity, focus on basic experiment, and lay the basic technical foundation for subsequent experiment course. It offers experiment items in a targeted way in combination with major features of this College.

 Physical Experiment E will let students deepen the understanding over the physics principles through observing and analyzing the experiment phenomena and measuring the physical quantity; it will make students gain the basic knowledge of measurement error, have the preliminary ability to correctly process the experiment data, improve their scientific experiment capacity, foster their scientific style of integrating theory with practice and working attitude of being practical, prudent and careful, exploration spirit of proactive research and good morality of complying with disciplines and cherishing property; during teaching, it will educate students about the world outlook and methodology of dialectical materialism.

Main Reference Books:

1. Yang Guijuan, Wang Jing & Hu Yucai(2013), University Physical Experiment Textbook, China Agriculture Press.

2.Yang Guijuan & Chi Jianwei(2009),University Physical Experiment,China Agriculture Press.

3. Wang Guodong(2004), University Physical Experiment, China Agriculture Press.

4. Wang Zhoufei(2009), University Physical Experiment, China Agricultural University Press.

Author: Chi Jianwei











Profile of University Computer Basis

Course name in English:University Computer Basis

Course code:W10310                    Hours, credits: 16, 1.0                   

Main content:

University Computer Basis is the first general computer basic course offered to non-computer students in universities and colleges, and also the first computer education accepted by undergraduates after enrollment. It is aimed at studying how to cultivate students’ ability to recognize and solve problems by means of computer under the existing technical background and social need, and laying a good foundation for them to be familiar with basic applications in the information society and adapt to the future social need. It covers basic concepts and knowledge of computer and relevant fields, including basic knowledge of computer, computer system, fundamentals of operating system, office automation software, fundamentals of computer network, fundamentals of multimedia technology, fundamentals of software technology, fundamentals of database technology, information security and cyber ethics.

Through study, students will understand the basic knowledge of computer development, information representation and computer application, know the basic composition, operating principles and basic concepts of computer system, gain the basic knowledge of computer network and Internet as well as multimedia technology, basic concepts of software technology, basic knowledge of database and basic operating methods of Access 2010, apprehend and grasp the knowledge related to information security and virus; students will have strong sense of information system security and social responsibility, which will lay a good foundation for the study of subsequent computer courses as well as solving problems in relevant major fields by means of computer.

Main Reference Materials and Books:

 1. Zhang Jing(2016), University Computer Basis, Posts and Telecom Press.

 2. Gong Peizeng(2009), University Computer Basis (Fifth Edition), Higher Education Press.

 3. Jia Zongfu(2014) New University Computer Basis Textbook (Third Edition), ., China Railway Publishing House.

Author: Zhang Jing





Profile of Experiment of University Computer Basis

Course name in English: Experiment of University Computer Basis

Course code: W10320    Hours, credits: 16, 0.5

Main content:

 It is an experiment course separately offered to support the teaching of University Computer Basis, and a practice course with high operating requirement. Since the teaching requirement cannot be met at all only through the class theory study, it must offer certain quantity of experiment course to integrate theory study with practical operation and foster students’ hands-on ability to solve problems. It is also an effective mode of improving students’ comprehensive computer operation quality.

 The computer experiment content of Experiment of University Computer Basis includes the basic operating methods, file system and file management of Windows XP; the methods to use the Word software, basic operating methods to edit and compose the document by using Word 2010; spreadsheet processing using Excel 2010, basic operation of Excel 2010, icon preparation and data management and preparation of slides using PowerPoint 2010. Through study, it will fulfill the purpose of proficiently using office 2010 and let the computer better serve our daily life, study and work.

Main Reference Materials and Books:

 1. Zhang Jing(2016), tutorial of Experiment of University Computer Basis., Posts and Telecom Press.

 2. Jia Zongfu(2014),New Tutorial of University Computer Basis Practice (Third Edition), China Railway Publishing House.

 3. Guo Jin & Yang Binbin(2010),Tutorial of University Computer Basis Practice, Posts and Telecom Press

Author: Wang Qihua










Profile of Descriptive Geometry & Machine Drawing I

Course name in English: Descriptive Geometry & Machine Drawing I

Course code: W20210Hours, credits: 48, 3.0

Main content:

Drawing is one of important tools used by people to express the design philosophy, transmit the design information and communicate the innovative concept, and a kind of significant technical data in the modern industrial production, management and science and technology sectors. Hence, it is known as general-purpose language in the engineering community and has a vital position in engineering design, part processing, technical exchange and other aspects.

It is one of important core courses of the mechanical major, disciplinary foundation course as well as required course offered to mechanical students. Through teaching and study, it will let students correctly understand the drawing principles of orthograph, gain the theories of graphical representation and graphic method, draw the space forms through various expression methods, be familiar with relevant national machine drawing standards, have certain ability of space imagination and thinking, drawing the spatial 3D forms and expressing 2D drawings as well as drawing reading; it will let students be capable of comprehensive expression of machine parts by means of the learned knowledge, have certain awareness and capacity of innovation and start-up as well as basic knowledge and skills of normalized drawing according to national standards.

Main Reference Materials and Books:

  1.  Hu Lin(2010), Engineering Drawing (bilingual edition) , China Machine Press.

  2.  Hu Lin(2010), Engineering Drawing Problem Book (bilingual edition), China Machine Press.


Author: Zhou Libin










Profile of Descriptive Geometry & Machine Drawing II

Course name in English: Descriptive Geometry & Machine Drawing II

Course code: W20220Hours, credits: 48,3.0

Main content:

Drawing is one of important tools used by people to express the design philosophy, transmit the design information and communicate the innovative concept, and a kind of significant technical data in the modern industrial production, management and science and technology sectors. Hence, it is known as general-purpose language in the engineering community and has a vital position in engineering design, part processing, technical exchange and other aspects.

It is one of important core courses of the mechanical major, disciplinary foundation course as well as required course offered to mechanical students. Through teaching and study, it will let students correctly understand the methods of expressing mechanical structure, gain the drawing norm of standard and common parts, be familiar with relevant national machine drawing standards, have certain ability of space imagination and thinking, drawing the spatial 3D forms and expressing 2D drawings as well as drawing reading; it will let students be capable of comprehensive expression of machine parts by means of the learned knowledge, have certain awareness and capacity of innovation and start-up as well as certain ability of technical exchange and R&D of mechanical products.

Main Reference Materials and Books:

  1.  Hu Lin(2010), Engineering Drawing (bilingual edition) , China Machine Press.

  2.  Hu Lin(2010), Engineering Drawing Problem Book (bilingual edition), China Machine Press.


Author: Zhou Libin








Profile of Fundamentals of Engineering Material and forming Technology

Course name in English:Fundamentals of Engineering Material and forming Technology

Course code:W21510                            Hours, credits: 48, 3.0

Main content:

Fundamentals of Engineering Material and Forming Technology is a comprehensive course to study the materials, performance and forming methods of machine parts, and an important required basic course of the mechanical major in the engineering universities and colleges.

It consists of two parts, i.e. engineering material and forming technology. engineering material introduces metal materials mainly and nonmetal materials briefly. forming Technology introduces the casting, forging, welding and other technologies mainly, and injection moulding and other nonmetal material forming technologies briefly. With the main thread of material properties and composition, constitution and heat treatment technological relation, it is aimed at describing the inherent law, and lets students preliminarily gain the basic knowledge of engineering material and forming technology, be able to reasonably design and select the engineering materials commonly used in the design of machine parts, analyze and solve the failure of machine parts and reasonably select and treat the materials and forming methods in the manufacturing process; in combination with experiment, it will cultivate students’ preliminary ability and awareness of innovation in terms of material treatment process and analysis, and lay necessary foundation for learning other related courses and conducting the mechanical design and manufacturing in the future.


Main Reference Materials and Books:

1. Cui Min(2013), Fundamentals of Material Forming Technology,Huazhong University of Science and Technology Press,.

2. Ding Xiaofei(2010),Mechanical engineering materials,Dalian University of Technology Press.

Author: Ding Xiaofei





Profile of Fundamentals of Control Engineering


Course name in English: Fundamentals of Control Engineering

Course code: W21910                    Hours, credits: 32, 2.0

Main content:

 Fundamentals of Control Engineering is a disciplinary foundation course offered to the mechanical design, manufacturing and automation major. It mainly describes the basic concepts of control system, mathematical models and main modeling methods, signal time domain and frequency domain analysis methods, system stability analysis methods as well as control system design and correction, etc. It will let students be able to apply the basic principles and mode of thinking of cybernetics in analyzing and studying relevant information transmission, feedback and control in the mechanical engineering as well as studying the dynamic characteristics of mechanical system, and initially foster the system analysis ability so as to lay a foundation for further study and research of relevant aspects. It requires that students should clarify the basic concepts of automation and control system, master the methods of building the mathematical models of control system, be able to conduct the signal time domain and frequency domain analysis and grasp the preliminary methods of control system design and correction.

Main Reference Books:

  1.  Dong Yu(2003), Fundamentals of Mechanical Control Engineering, written by , Harbin Institute of Technology Press.

  2.  Wang Yiqun(2000), Fundamentals of Control Engineering,, China Machine Press.

Author: Shi Mina














Profile of Mechanisms Innovation Design

Course name in English:Mechanisms Innovation Design

Course code:W30110                      Hours, credits: 16,1.0                 

Intended for: mechanical design, manufacturing and automation

Main content:

Mechanisms Innovation Design is an important course to cultivate the innovation ability of mechanical students. Mechanism combination is a core content of this course.

 Starting from enhancing students’ innovation ability, this course elaborates mechanical development and innovation, and summarizes general techniques and methods in the process of invention and creation. It mainly covers: operating principles and performance analysis of mechanisms in common use; mechanism variation and evolvement; mechanism combination forms and dimensional synthesis of combined mechanisms;

 It is aimed at cultivating students’ innovation concept, improving their innovative design ability and laying a good foundation for creation and invention.

Main Reference Materials and Books:

 1. Chun Ying(2000), Mechanisms Innovation Design, Higher Education Press.

 2.Zhang Chunlin(1999), Mechanisms Innovation Design, China Machine Press.

 3. Sun Huan(2006), theory of machines (Seventh Edition), Higher Education Press,

Author: Xie Zhongdong
















Profile of Fundamentals of Machinery Manufacturing Technology

Course name in English: Fundamentals of Machinery Manufacturing Technology

Course code: W30310         Hours, credits: 32, 2.0

Main content:

Fundamentals of Machinery Manufacturing Technology is aimed at letting students have an overall and comprehensive understanding over the manufacturing activity, master the basic laws and knowledge of metal cutting process, be able to reasonably select the machining methods, technological parameters as well as machine tools, fixtures, cutting tools and other technological equipment, know the influencing factors of machining accuracy and surface quality and improvement measures as well as the content and methods of making the technological specification, and have the basic ability to solve practical production technology problems. Main content: cutting process and control, machining methods and equipment, machine tool fixture design, machining quality analysis and control, technological specification design, etc.

Main Reference Books:

  1.  Lu Bingheng(2007), Fundamentals of Machinery Manufacturing Technology,, China Machine Press, December 2007.

  2.  Xiong Liangshan(2007), Fundamentals of Machinery Manufacturing Technology, Huazhong University of Science and Technology Press.

3. Gong Qingshou(2006), Fundamentals of Machinery Manufacturing, Higher Education Press.

Author: Shang Zhenguo













Profile of Measurement and Test Technique in Mechanical Engineering

Course name in English:Measurement and Test Technique in Mechanical Engineering

Course code:W30410     Hours, credits: 32, 2.0

Main content:

It is an important required technical basic course of mechanical design, manufacturing and automation undergraduates, and is of profound significance to cultivate the high-quality mechanical design, manufacturing and automation innovative talents. It mainly introduces the signal concept and classification, features and descriptive methods of periodic signals, non-periodic signals and random signals, basic characteristics of test devices (including basic requirement for test devices, static and dynamic characteristics of test devices, response of test devices in typical equipment, conditions for fulfilling undistorted test and test methods of dynamic characteristics of test devices), sensors in common use and the knowledge in signal conditioning, processing and recording methods.

Through study, this course will let students master the basic principles and measuring and testing techniques of non-electricity electrometry in the mechanical engineering, operating principles of sensors, intermediate transfer circuits and recording instruments in common use and evaluation methods of static and dynamic characteristics, test signal analysis and processing methods, measurement and application methods of displacement, vibration, force and other usual physical quantities, basic knowledge of computer measurement system and virtual devices and  the development trend of test techniques. It will let students be able to select appropriate instruments to set up the test system and devices in view of the test purposes and have the basic theory, knowledge and skills and ability required to conduct the dynamic test.

Main Reference Materials and Books:

 1. Xiong Shibo & Huang Changyi(2007), Fundamentals of Measurement and Test Technique in Mechanical Engineering (Third Edition),, China Machine Press.

 2. Zhang Guochen(2009), Guide of Measurement and Test Technique Experiment, Dalian Ocean University.

 3. Wang Boxiong(2004), Fundamentals of Measurement and Test Technique, Tsinghua University Press.

 4. Wang Changming, Kong Deren & He Yunfeng(2005), Sensing, Measurement and Test Technique, Beihang University Press.

 5. Yukio Sato(2000), Guide Book of Sensors, translated by Hong Chunhe, Science Press.

Author: Zhang Guochen

Profile of Optimization of Mechanical Design and Application

Course name in English:Optimization of Mechanical Design and Application

Course code:W30510                   Hours/experiment, credits: 32, 2.0

Main content:

Optimization of Mechanical Design and Application is an optional course of the mechanical design, manufacturing and automation major. It mainly teaches the concept of optimization of mechanical design, mathematic basis of optimization design, one-dimension searching method, unconstrained optimization methods, linear programming, constrained optimization methods, multiple-objective and discrete variable optimization methods.

Through study, it will improve students’ ability of comprehensive application of mechanical design knowledge and let them master main optimization methods of mechanical design. It will cultivate their pursuit of excelsior mechanical product design attitude and awareness, foster correct design philosophy and develop their optimization design engineering practice ability so that they are able to apply relevant standards, norms and manuals and consult relevant technical documentation, present innovative concepts and optimize and transform same into competitive products, and conduct optimization design of mechanical products by means of computer software and in combination with the learned optimization methods of mechanical design.

Main Reference Materials and Books:

  1. Tao Dongcai(2014), optimization of mechanical design, National Defense Industry Press

  2. Sun Jingmin & Liang Yingchun,(2012) optimization of mechanical design (Fifth Edition), China Machine Press

  3. Chen Xiuning(2010), optimization of mechanical design (Second Edition), Zhejiang University Press.

Author: Gao Hang












Profile of Mechanical Product Design

Course name in English: Mechanical product design

Course code: W30610       Hours/credits: 32, 2.0

Course type: specialty-oriented course           

Main content:

Mechanical Product Design is a specialty-oriented course of mechanical design, manufacturing and automation. Its teaching content includes schematic design and overall design of mechanical products, load characteristics and power machine selection, the design of actuating system, driving system, manipulator system and control system, noise and control of mechanical products.

 It is a specialty-oriented course closely integrating theory and practice with strong nature of practicality. To attain a sound effect, in teaching, the blackboard writing and multimedia courseware teaching are combined, and the class knowledge is learned and consolidated in a form of self learning, class discussion, hands-on experiment, post-class homework and unit exam. Through study, it will let students master the design philosophy of mechanical products, load characteristics and power machine selection, the design methods of actuating system, driving system, manipulator system and control system, noise test and control methods of mechanical products and other fundamentals, and be able to analyze the mechanical product design and type selection and have the comprehensive ability to analyze and solve problems by applying the mechanical system design knowledge.

Main Reference Materials and Books:

  1.  Zhu Longgen(2013), Mechanical System Design, China Machine Press.

  2.  Duan Yiqun(2010), Mechanical System Design, Science Press.

Author: Cai Weiguo














Profile of Advanced Manufacturing Technology

Course name in English: Advanced Manufacturing Technology

Course code: W30710                   Hours/Credits:32, 2.0

Main content:

Advanced Manufacturing Technology is an important specialty course of mechanical related majors in the engineering universities and colleges. It mainly introduces the meaning, system structure and development trend of advanced manufacturing technology, modern design technology, advanced manufacturing process engineering, manufacturing automation technology, modern production management technology as well as advanced manufacturing production mode, and fully presents the basic content of advanced manufacturing technology and the latest technology.

Advanced Manufacturing Technology lets students gain and understand the development of modern manufacturing technology and cutting-edge technology, and is a backbone course in the teaching programs of mechanical majors. Advanced manufacturing technology has become main technical support of economic development of all countries and meeting the growing need of people, and the crucial technology in the development of high and new technology. This course is to let students systematically master the meaning and features of advanced manufacturing technology, cutting-edge technological development and crucial techniques, understand the latest development trend, direction and achievements of advanced manufacturing technology both at home and abroad, enhance their understanding of new technologies, new processes, new methods and new equipment and build up a complete modern manufacturing technology knowledge system so as to achieve the purpose of broadening the vision, expanding the sphere of knowledge and cultivate students’ awareness and ability of innovation.

Main Reference Materials and Books:

 1. Li Wenbin(2014), Advanced Manufacturing Technology, Huazhong University of Science and Technology Press.

 2. Li Wenbin(2008), Introduction to Advanced Manufacturing Technology, Science Press.

Author: Wu Libo





Profile of Advanced Fisheries Machinery and Engineering

Course name in English:Advanced Fisheries machinery and engineering

Course code: W30810                      Hours, credits: 32, 2.0                   

Intended for: mechanical design, manufacturing and automation


Main content:

 The development objective of modern fishery is sustainable and efficient utilization of fishery resources. Its mode of production is industrialization, i.e. factorized production mode and industrialized production pattern. Equipment and engineering are important technical support of fishery production to increase the efficiency, reduce energy consumption and ensure the product quality safety. Advanced Fisheries Machinery and Engineering is a featured optional course offered to the mechanical design, manufacturing and automation students. It mainly introduces the functions of fisheries machinery and engineering in the modern fishery development, aquaculture equipment and engineering, fishery fishing equipment technology and aquatic product processing equipment and technology.

 Through study, it will let students know the modern fishery development and its requirement for equipment and technology, understand the basic principles of fisheries machinery and engineering and master the advanced fisheries machinery and engineering design and system management methods; it will foster their concept of great project and let them be initially capable of advanced fisheries machinery and engineering design, development and system management. The tasks of this course are to highlight the fishery features, expand students’ vision, improve their comprehensive quality and satisfy the requirement of cultivating high-quality and featured engineering talents.


Main Reference Materials and Books:

  1.  Huang Chaoxi(2009), Fishery Engineering, Higher Education Press.

  2.  Ma Xianying(1999), Teaching Materials of fishing machinery,self-compiled textbook of Dalian Fisheries University.

 3. Xu Wenda(1993), processing machinery and Equipment of aquatic products, China Agriculture Press.

Authors: Li Xiuchen, Ma Xianying, Xie Zhongdong





Profile of Mechanical & Electric Transmission and Control A

Course name in English: Mechanical & Electric Transmission and Control A

Course code: W30910         Total hours/experiment hours, credits: 32/4, 2.0

Main content:

Mechanical & Electric Transmission and Control is a specialty basic course with strong nature of practice to study and solve problems related to the electric transmission and control of manufacturing machines, describe the mechanical and electric transmission and control principles and introduce the control circuits in common use, control circuit design and other techniques. Mechanical and electric transmission and control is an important component of all kinds of manufacturing machinery, and directly determines their automaticity and advanced level. It is the driver of electric control knowledge structure required by the mechatronics talents and the specialty basics to be mastered by electromechanical engineering personnel.

 It is one of core courses of the mechanical design, manufacturing and automation major and also a compulsory course. Through study, it will let students fully understand all kinds of transmission and control modes driven by motors, master the operating principles and mechanical characteristics of motors and mechanical equipment in common use, be familiar with and know the motor control modes and principles, be able to fulfill the start, stop, rotation and reverse rotation control and design of the mechanical and electric transmission systems using the relay—contactor or programmable controller and be capable of analyzing the mechanical and electric transmission systems and control methods and reading the electrical schematic diagrams in all kinds of mechanical equipment so as to lay a sound foundation for conducting mechanical design and maintenance in the future.

Main Reference Materials and Books:

  1.  Lu Dunmin(2012),Major Textbook in the “12th FYP” of Colleges and Universities: Mechanical & Electric Transmission and Control, Harbin Engineering University Press

 2. Deng Xingzhong(2005), Textbook Oriented to the 21st Century •mechanical design, manufacturing and automation Major Textbooks:Mechanical & Electric Transmission and Control, , Huazhong University of Science and Technology Press.

Author: Cai Weiguo






Profile of NC Technology

Course name in English: NC Technology

Course code: W31010                 Hours/credits: 32, 2.0

Intended for: mechanical design, manufacturing and automation

Main content:

NC Technology is an important specialty course of the mechanical design, manufacturing and automation major of mechatronics orientation. The teaching content covers NC machining codes, programming principles, path machining control principles of numerical control system, structure of NC machine tool, position detection device, etc.

 Through study, it will let students master the basic principles and basic knowledge of NC technology, NC machining programming methods and principles, software and hardware structure of CNC system, principles and methods of position detection device, mechanical structure components and overall layout of NC machine tool, and cultivate their ability to correctly operate the NC machine tool.

Main Reference Materials and Books:

 1. Wang Yongzhang, Du Junwen & Cheng Guoquan(2001), NC Technology, Higher Education Press,

 2. Wang Rende(2002), Machine Tool NC Technology, Northeastern University Press.

 3.Hu Zhanqi(2003), Machine Tool NC Technology,China Machine Press.

Author: Cai Weiguo

















Profile of Precision Fishery Equipment and Control Techniques

Course name in English:Precision Fishery Equipment and Control Techniques

Course code:W31210                    Hours, credits: 32, 2.0                   

Main content:

China is a major power of fishery, rather than a great power of fishery. Current fishery production still continues to use the conventional way of consuming massive resources and extensive operation. Such problems as low monitoring level of aquaculture environment, serious bait waste, backward fishing modes, low aquatic product automaticity and non-effective supervision over the circulation of aquatic products constrain the development of China’s fishery modernization. Precision Fishery Equipment and Control Techniques is an important specialty-oriented course offered to the students of mechanical design, manufacturing and automation major. It mainly describes and introduces the meaning of precision fishery and intelligent fishery, digital aquaculture monitoring equipment and control techniques, fishing equipment and control techniques, aquatic product processing equipment and control techniques, quick and safe aquatic product quality inspection technology, aquatic product logistics information technology, fishery IOT technology, etc.

Through study, this course will let students know the development status quo and trend of fishery machinery and control techniques both at home and abroad and master advanced equipment and control techniques in the fishery production fields, cultivate their ability to solve specific fishery production problems by using the learned courses so as to lay a foundation for China to cultivate the new fishery machinery engineering talents.

Main Reference Materials and Books:

 1. Li Daoliang and Fu Zetian(2010), Intensive aquaculture Digital Integration System,Publishing House of Electronics Industry.

 2. Liu Xingqiao and Zhao Dean(2014), Research and Application of aquaculture Digital Monitoring and Crucial Control Techniques, Jiangsu University Press.

 3.Zheng Xiongsheng(2014),Introduction to Fishery Mechanization, Huazhong University of Science and Technology Press.

 4. Gao Zhixian(2015), New Techniques and New Materials of Safe and Quick Food Testing , Science Press.

 5.Yang Gongming and Cheng Yulai(2014), Food Machinery and Equipment, China Agricultural University Press.

 6.Liu Huajun and Liu Chuanqing(2015), IOT Techniques (Second Edition), Publishing House of Electronics Industry.

 7. Li Daoliang(2012),Introduction to Agriculture IOT, written by , Science Press.

Author: Zhang Guochen

Profile of Mechatronics System Design

Course name in English:Mechatronics System Design

Course code:W31110  Hours, credits: 32, 2.0

Intended for: mechanical design, manufacturing and automation

Main content:

mechatronics is an emerging comprehensive discipline integrating mechanical techniques, testing and sensing techniques, automation techniques, servo drive techniques, information processing techniques, overall system technology and other techniques with a strong nature of comprehensibility and application. Mechatronics System Design is a specialty-oriented course offered to the students of the mechanical design, manufacturing and automation major. It mainly introduces the meaning of mechatronics, system composition and design procedure, type selection and design methods of common parts and components and actuating mechanisms of mechanical system, sensor interface circuit design and signal processing methods, microcomputer control system kinds, composition and design methods of mechatronics system, organic electromechanical combination analysis and design methods, mechatronics system reliability and safety design methods and typical mechatronics product design.

Through study, this course will let students master the basic concepts and relevant techniques of mechatronics system, foster correct system design philosophy and be able to apply such knowledge and thoughts in the design, development, analysis and maintenance of electromechanical products.

Main Reference Materials and Books:

  1.  Zhang Jianmin, Tang Shuiyuan and Feng Shuhua(2010), Mechatronics System Design (Third Edition),Higher Education Press.

  2.  Liang Jingkai and Gai Yuxian(2006), mechatronics Techniques and System, China Machine Press.

 3. Zhou Zude(2003), mechatronics Control Techniques and System, Huazhong University of Science and Technology Press.

 4. Takamori, T. [Japan](2001), mechatronics, Science Press.

Author: Mu Gang








Profile of Interchangeability and Technical Measurement

Course name in English: Interchangeability and Technical Measurement

Course code: W31410                               Hours, credits: 24, 1.5

Main content:

Interchangeability and Technical Measurement, a technical basic course with strong nature of practice, is one of required courses to be learned by mechanical major students before the specialty courses, and the tie connecting the design courses and technology courses. Through study, it will let students gain the basic theories and skills of interchangeability and technical measurement. Main content: basic concepts of interchangeability and tolerance, hole and axis tolerance and fit, form and position tolerance and testing, surface roughness profile and testing, rolling bearing tolerance and fit, key and spline connection tolerance and testing, etc,

Main Reference Materials and Books:

 1. Yang Lian’gen(2012), Interchangeability and Technical Measurement,Huazhong University of Science and Technology Press.

 2. Tolerance and Measurement of geometric quantity, Shanghai Scientific and Technical Publishers, January 2010.

 3. Interchangeability and Measurement Techniques, Dalian University of Technology Press, January 2010.

Author: Shang Zhenguo

















Profile of Microcontroller Principle and Application A

Course name in English: Microcontroller Principle and application

Course code: W31510         Total hours/experiment hours, credits: 32/8, 2.0

Main content:

 With such advantages as small size, powerful control functions, low power consumption, high environmental adaptability, flexible expansion and convenient use, the microcontroller has been widely applied in intelligent management and process control of meters, instruments, automatic machinery, special equipment and other fields. By learning the microcontroller techniques, it is conducive to knowing the microcontroller operating principles, improving students’ ability to apply the digital electronic technology and providing technical support for computer program design, electronic circuit design as well as mechatronics system design.

 It is one of core courses of the mechanical design, manufacturing and automation major, a disciplinary specialty course and required course offered to the mechanical design, manufacturing and automation major, and a course oriented to application and with strong nature of practice and comprehensiveness. It is aimed at letting students master the hardware structure of MCS-51 microcontroller, C51 language programming basis, MCS-51 interrupt system, MCS-51 timer∕counter, interface technology, microcontroller application system design methods, and be capable of building the microcontroller automation hardware structure in view of practical application, independently programming the microcontroller control system by using the C language program design, conducting system troubleshooting and repair according to the existing microcontroller application system, and have certain innovation and start-up awareness and capacity and the basic ability to continuously obtain new knowledge and adapt to the mechatronics career development.

Main Reference Materials and Books:

     1. Wei Honglei(2015), microcontroller Principles and Application (C Language programming), Tongji University Press.

     2. 100 Application Instances of microcontroller C Language, Publishing House of Electronics Industry, January 2009.

Author: Jiang Zhong’ai






Profile of Engineering Economics B

Course name in English:Engineering Economics B

Course code: W31610                       Hours/credits: 32, 2.0

Intended for: mechanical design, manufacturing and automation

Main content:

Engineering Economics B is an optional specialty course of the mechanical design, manufacturing and automation major. It mainly teaches the basic principles of engineering economics: including cash flow, time value of capital, cost, revenue, profit and other basic knowledge; economic evaluation methods of engineering projects; project risks and uncertainty analysis; project feasibility study; project financial analysis; post-project evaluation content and research methods, etc.

This course is to let students of mechanical design, manufacturing and automation understand the basic principles, basic knowledge and routine analysis methods of economics, be able to systematically complete the economic evaluation in the feasibility study of general projects, master the working purpose, methods and specific operation procedure of economic evaluation and have the initial ability to conduct the feasibility study and economic evaluation of all kinds of projects.

This course is to let students know the relations between engineering and economic effects, be familiar with the basic process of selecting the optimum engineering schemes, fully master the basic principles and methods of engineering economy and have the basic ability to conduct the engineering economy analysis. Through study, it will make students know and initially master the economic decision-making methods of China’s projects and lay a foundation for conducting the project feasibility analysis, project in-process investment and financing management, post-project evaluation and other work.

Main Reference Materials and Books:

  1. Li Nan(2013), Engineering Economics (Fourth Edition),Science Press.

  2. Engineering Economics (Second Edition), China Architecture and Building Press, February 2012.

 3. Engineering Economics (Second Edition), Southeast University Press, July 2011.

Author: Lin Jing






Profile of English in Mechanical Engineering

Course name in English: English in Mechanical Engineering

Course code: W31910                     Hours, credits: 32, 2.0                   

Main content:

High-quality talents with the basics of professional English knowledge and techniques are in urgent need in the context of globalized economic development and internationalized scientific and technological communication. English in Mechanical Engineering is a specialty optional course offered to the mechanical design, manufacturing and automation major. It mainly introduces the reading and translating methods of English documents in terms of mechanical design, manufacturing and automation, ocean and fishery engineering equipment, morphology of science and technology English vocabulary, writing methods of English scientific and technological theses and commercial letters as well as basic training of oral English in academic exchange. Through study, it will let students know the features of English for science and technology, master the translation methods of English professional documents, vocabulary of technical terms and their usage, and learn to write the English scientific and technological theses and letters. It is aimed at further improving students’ English application capability and technical exchange ability and raising their comprehensive quality so as to satisfy the requirement for cultivating high-quality talents.

Teaching Materials and Main Reference Books

  1.  Zhao Yuncai & Li Xiuchen(2013), Modern English in mechanical engineering, Huazhong University of Science and Technology Press.

  2.  The latest relevant professional documents and data.

Author: Li Xiuchen












Profile of Academic Writing

Course name in English: Academic Writing

Course code: W32010                         Hours, credits: 24, 1.5

Main content:

 It is a specialty optional course of the industrial engineering, and mechanical design, manufacturing and automation. It is aimed at letting students know the basic knowledge of writing scientific and technological papers and cultivating their ability to conduct scientific research and writing the scientific and technological documents, and lays a foundation for writing the graduation thesis and other relevant scientific and technological documents.

 Through class teaching and exercise, it will let students know the concepts of scientific and technological writing and the style of scientific and technological papers, master the methods of scientific research, understand how to conduct research and select the topics of academic theses; it will let them know the document types, how to cite the reference documents, master the document retrieval and collection of research data, understand the academic code of ethics and the methods of writing the reading notes; it will let them understand the composition of scientific and technological papers, master the writing of relevant parts and the methods of writing the graduation theses, academic magazine articles, project application, research report and science popularization articles; it will let students understand the visualized elements and know the guidelines for designing them; it will let students understand the criteria for writing papers and know the Word long document editing; it will let students understand the reporting content and master the structure of demonstration document.

Main Reference Materials and Books:

  1.  Sun Ping & Yi Xuefeng(2013), Scientific and Technological Writing and Document Retrieval, , Tsinghua University Press.

  2.  Robert A. Day & Barbara Gastel(2013), How to Write and Publish a Scientific Paper (Seventh Edition), translated byGu Liangjun, Peking Union Medical College Press

 3.Leo Finkelstein(2011), Pocket Book of Technical Writing for Engineers and Scientists,, translated by Wang Shuozhong, Tsinghua University Press.

Author: Xue Dongjuan




Profile of Robot Technology

Course name in English: Robot Technology

Course code: W32310        Total hours/experiment hours, credits: 32/4, 2.0

Main content:

Robot Technology is a mechatronics-oriented course of the mechanical design, manufacturing and automation major. The teaching content includes robot overview, robot mechanical structure, robot sensors in common use, robot actuating mechanism, robot control system, robot application, etc.

 It is a specialty-oriented course of the mechanical design, manufacturing and automation major. Through study, it will let students know the basic robot knowledge, master the application of sensors in robots, robot actuating system and control system, understand the latest application of robots in industrial production and cultivate their engineering practice and innovation design abilities.

Main Reference Materials and Books:

 1. Zhang Mei(2016), Major Textbook in the “13th FYP” of Colleges and Universities: Robot Technology,China Machine Press.

 2.Xie Cunxi(2016), Mechanical and Electronic Engineering Series Textbooks of Colleges and Universities: Robot Technology and Application, China Machine Press.

Author: Cai Weiguo



















Profile of Engineering Training A1

Course name in English: Engineering Training A1

Course code: W40210                     Hours, credits: 3weeks, 3.0 credits

Main content:

 It is a practice technical basic course with the teaching feature of general basic engineering practice. It offers undergraduates the education of engineering practice, understanding of industrial manufacturing and experience of industrial culture. It is a compulsory practice teaching link at the undergraduate stage of modern higher engineering education and an important compulsory course to cultivate students’ engineering quality and innovation spirit. It is to let students understand the production process of machine manufacturing, main metal machining methods and machining process, devices used, production features and scope of application, master the preliminary operation techniques, be capable of selecting the machining methods and analyzing the technological process for simple typical parts of moderate complexity, be familiar with relevant engineering terms, technical documents and technical standards and know the application of new processes and new technologies in machine manufacturing so as to lay a practice foundation for students to learn the subsequent courses.

Main Reference Materials and Books:

 1. Huang Guangye(2002), Engineering Practice of Mechanical Manufacturing, Harbin Institute of Technology Press.

 2. Deng Wenying(2008), Metal Technology, Higher Education Press.

 3. Tsinghua University Metal Technology teaching and research section(2011), Training Textbook of Metal Technology, Tsinghua University Press.

 4. Luo Yufu & Shi Yuhe, Practical Training of Metal Technology (Second Edition),Beihang University Press.

 5. Geng Jinliang(2010), Training Course of NC Programming and Operation,  Communication University of China Press.

 6. TrainingGuide Book of NC Programming and Operation, self-compiled by Dalian Ocean University School of applied technology Department of mechanical engineering.

Author: Ding Xiaofei





Profile of Mechanical Principle Course Design

Course name in English:Mechanical Principle Course Design

Course code: W40310                   Hours, credits: 2weeks, 2 credits  Main content:

 It is an important practice teaching link of mechanical major students after learning the course of theory of machines.

 This course covers: 1. conducting the type selection, combination and innovation of mechanisms by applying the learned mechanism composition principles, movement principles, operation features, application and other knowledge; 2. stressing the application design, computer aided design and other modern design methods and means and completing the mechanism analysis, synthesis and simulation process.

 The teaching task of this course is to cultivate students’ comprehensive application of basic knowledge of the principles of machinery in initially mastering general methods and ideas to design the machinery and improve their abilities of movement schematic design of mechanical system, innovation design and solving practical engineering problems.

Main Reference Materials and Books:

 1. Shi Zhongxiu(2008), Course Design of principles of machinery, China Machine Press.

 2.Wang Shuren(2009), Course Design of principles of machinery, Science Press.

 3. Sun Huan(2006), principles of machinery (Seventh Edition), Higher Education Press.

 4. Shen Yongsheng(2006), tutorial of principles of machinery (Second Edition), Tsinghua University Press.

Author: Xie Zhongdong










Profile of Engineering Training A2

Course name in English:Engineering Training A2

Course code: W40410                      Hours, credits: 2weeks, 2.0 credits

Intended for: mechanical design, manufacturing and automation

Main content:

It is an important practice teaching link of mechanical teaching program with the teaching feature of general basic engineering practice. It offers undergraduates the education of engineering practice, understanding of industrial manufacturing and experience of industrial culture. It is a compulsory practice teaching link at the undergraduate stage of modern higher engineering education and an important compulsory course to cultivate students’ engineering quality and innovation spirit. Through training, it will let students gain the basic knowledge of machine manufacturing, establish the concept of production process of machine manufacturing, master certain operation techniques, and be cultivated and trained in terms of basic quality of engineering personnel in terms of labor viewpoints, innovation awareness, scientific style of integrating theory with practice. It is to let students understand the production process of machine manufacturing, main metal machining methods and machining process, devices used, production features and scope of application, master the preliminary operation techniques, be capable of selecting the machining methods and analyzing the technological process for simple typical parts of moderate complexity, be familiar with relevant engineering terms, technical documents and technical standards and know the application of new processes and new technologies in machine manufacturing so as to lay a practice foundation for students to learn the subsequent courses and work in the future. The study of Engineering Training A2 can only commence after first studying Engineering Training A1.

Main Reference Materials and Books:

1. Wu Libo(2017), Guide Book of Engineering Training, self-compiled textbook of Dalian Ocean University.

2. Engineering Training tutorial-Mechanical Practice Report Part, Dalian University of Technology Press, October 2005.

Author: Wu Libo









Profile of Course Project of Machinery Design

Course name in English: Course Project of Machinery Design

Course code: W40510                 Hours, credits: 3weeks, 3.0 credits

Main content:

Course Project of Machinery Design is the last teaching link of mechanical design course, and also all-round machinery design training of students. It is to let students: (1) analyze and solve the machinery design problems by applying the theories and production practice knowledge of the machinery design course and other relevant prerequisite courses so as to further consolidate and deepen the learned knowledge and cultivate their ability to analyze and solve practical engineering problems; (2) study general methods of machinery design, understand and master the design process and operation modes of common mechanical parts, mechanical transmission system or simple machines, cultivate the correct design philosophy and the ability to analyze and solve problems, especially the ability of overall design and part design; (3) learn the application of standards, norms, manuals and atlas and consulting of relevant technical documents and data and train the basic techniques of machinery design through computation and drawing. Through the design of general mechanical transmission devices, it will let students master the schematic design of transmission devices, computation of transmission parameters, design calculation of transmission parts, axle, key and bearing as well as the design of part assembly drawings and part working drawings.

Main Reference Materials and Books:

 1. Song Baoyu(2006), Guide Book of Course Project of Machinery Design, written by , Higher Education Press.

 2. Manual of Course Project of Machinery Design, Higher Education Press, July 2012.

Author: Wu Libo













Profile of Production Practice

Course name in English: Production Practice

Course code: W40610              Hours, credits: 2weeks, 2.0 credits

Main content:

Production Practice is a centralized practice link of mechanical design, manufacturing and automation students before studying the machine manufacturing courses with an aim to lay a important foundation of perceptual knowledge for studying the theoretical courses. Through visiting the enterprises’ production sites, holding the special lectures of engineering personnel, study and exchange with master workers, it will let students know the machine tool structure, cutting principles, various cutting tools, advanced machining methods and technological equipment, technological process of typical parts and technological equipment.

Main Reference Books:

 1. Ma Xianying(2004), Machine Manufacturing Technology Practice Guide, written by , self-compiled textbook of Dalian Fisheries University.

Author: Shang Zhenguo




















Profile of Course Project of Machinery Manufacture

Course name in English: Course Project of Machinery Manufacture

Course code: W40710Hours, credits: 1week, 1.0 credit

Main content:

 Course Project ofMachinery Manufacture is an important practice teaching link of the mechanical design, manufacturing and automation students to receive the comprehensive engineering training of machinery manufacturing techniques. Its task is the machining technological design of gear, axle and box-type parts, and students are required to prepare corresponding machining technological cards and sequence cards according to the practical enterprise production drawings. It includes the selection of blank type and design of blank structure, working out the technological route, consulting relevant manuals and diagrams to determine the machining allowance, calculating the sequence size, determining the cutting consumption, calculating the man-hour quota, etc., and finally summarizing the above content and preparing the design calculation specification and technological cards. It is to consolidate and deepen students’ understanding and mastering of basic knowledge, theories and methods of machinery manufacturing and cultivate their basic ability to solve practical problems in the machinery manufacturing field.

Main Reference Books:

 1.Zou Qing(2004), Guide of Basic Course Project of Machinery Manufacturing Technology, China Machine Press.

 2. Li Hong(1998), Technological Manual of Machining, Beijing Press.

    3. Yang Shuzi(2001), Manual of Machining technologist,China Machine Press.

Author: Shang Zhenguo












Profile of Mechatronic & Hydraulic Curriculum Design

Course name in English: Mechatronic & Hydraulic Curriculum Design

Course code: W40810                 Hours, credits: 3weeks, 3.0credits

Main content:

Mechatronic & Hydraulic Curriculum Design is a teaching link after students complete the study of all specialty courses, including mechanical system design, electric, hydraulic and pneumatic design. Students are required to accomplish the design requirement specified in the design specification by using the learned knowledge, and be subject to once comprehensive training for subsequent graduation design. For the purpose of curriculum design, through all links of design work, the following teaching requirements will be attained: (1) consolidating and digesting the learning knowledge, including mechanism design, electromechanical technology, hydraulic and pneumatic, etc.; (2) learning the procedure and relevant knowledge of integrated mechanical, electrical and hydraulic design. In the curriculum design, attention will be paid to cultivating students’ ability to thoroughly apply the learned knowledge and developing the systematic, standardized, economic and other engineering concepts. While design, it should be able to consider specific problems that might be encountered during implementation, such as preventing plagiarism, controlling the workload and giving into play the role of team.

Main Reference Books:

1. Yin Zhiqiang(2008), Guide to Curriculum Design of Mechatronics System Design, China Machine Press.

Author: Gao Hang
















Profile of Practice of Graduation Design

Course name in English: Practice of Graduation Design

Course code: W40910                     Hours, credits: 1week, 1.0 credit

Intended for: mechanical design, manufacturing and automation

Main content:

It lets students know the operation process of trawlers and purse seiners, and be familiar with the operating principles and process of hook nail, line fishing, net winch, fish pump, fish conveyor, fishing vessel deck machinery, ice machine, ice crusher and ice lifter, and know the processing machinery (production line), and understand the operating principles and technological requirement of minced fillet processing, fish ball processing, shrimp flake processing production line, grilled fish fillet, dried shredded squid and other drying processing production line, crab stick production line, kelp cooking and shredding equipment, and know the operating principles and conditions of refrigeration facilities and system and freezer unit, and be familiar with the aquatic feed processing machinery and equipment, and master the material crushing, metering and mixing in the feed processing process, balling equipment and floating pellet feed expanding device, technological requirement, feed factory layout and automation system, and know the factorized aquaculture status quo, application of auxiliary water quality control facilities, etc.

Main Reference Books:

1. Li Xiuchen(2005), Guide to Graduation Practice, self-compiled textbook of Dalian Fisheries University.

Author: Xie Zhongdong
















Profile of Graduate Project

Course name in English: Graduate Project

Course code: W41010                  Weeks, credits: 15weeks, 15 credits

Intended for: mechanical design, manufacturing and automation

Main content:

Graduation design (thesis) is comprehensive training after students complete all theoretical and practical teaching, and the last important practice teaching link in the whole teaching process. The purpose of it is to let students conduct engineering design, manufacturing technological design, scientific research and other basic engineering training by means of the learned basic theories, specialized knowledge and basic techniques; further cultivate their prudent scientific attitude, ability of independent analysis and solving problems and the spirit of bold innovation. Its topics focus on the engineering design, research on the manufacturing process and other types of subjects, and will be selected from the production practice of machinery design, manufacturing and control or scientific research projects directly serving same so that students can basically complete them in the specified time or have phase results through efforts. It is to cultivate students’ ability to analyze and solve practical mechanical engineering problems by applying the learned theoretical knowledge and techniques, and let them be familiar with general procedure and methods of production technical work, know the global concept, production concept and economy concept required in the engineering work and develop the correct design philosophy, prudent and careful working style. It will cultivate students’ ability of investigation and research, consulting technical documents, data, manuals, conducting engineering computation and drawing by means of computer as well as preparing the technical documents.

Main Reference Materials and Books:

1. Detailed Implementation Rules for the Administration of Undergraduates’ Graduation Theses (Design) of Dalian Ocean University

2. Forms and Writing Specification for the Graduation Theses of Dalian Ocean University

3. Academic Norm Testing Methods of Dalian Ocean University for Undergraduates’ Degree Theses

4. Guide to Graduate Project (Thesis) of the School of Mechanical and Power Engineering

Author: Wu Libo



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