精密微小型车铣复合加工技术（英文版）

作者: 张之敬著 , 金鑫著

出版社: 科学出版社

出版时间: 2016-04

版次: 1

ISBN: 9787030481337

定价: 150.00

装帧: 精装

开本: 16开

纸张: 胶版纸

页数: 349页

字数: 459千字

正文语种: 英语

分类: 工程技术

2人买过

　　《精密微小型车铣复合加工技术（英文版）》主要介绍了中间尺度的三维复杂微小型结构件主流加工技术——精密微小型车铣复合加工技术，内容主要包括：微小型车铣复合加工技术国内外的发展状况和加工原理，精密微小型车铣复合加工机床结构和控制系统研究与设计、工艺系统动态特性分析与实验，以及微小型车铣复合加工工艺技术研究。
　　《精密微小型车铣复合加工技术（英文版）》是作者及所带领的科研团队在其多年来对微小型机械制造技术研究的基础上，查阅了国内外诸多研究文献后总结归纳而成，可供航空、航天、兵器等国防制造领域和医疗、钟表等行业的研究人员、工程技术人员，以及高等院校相关专业的师生参考。　　Zhjing Zhang was born in Mizhi of Shanxi, China,in February 1951, with a Master's degree in Engineering. Currently, he serves as the director of Research and Application Center of Micro-structure Processing Technology, Science and Technology Industry of NationalDefense. Meanwhile, he is a professor and doctoral supervisor in the School of Mechanical Engineering of Beijing Institute of Technology. Moreover, he is authoritative in aerospace manufacturing engineering in Beijing Institute of Technology. He has hosted more than 20 projects including special fund and generalprogram for Instruments of the National Natural Science Foundation of China, National Defense Basic Scientific Research and the project supported by the Defense Pre-Research Foundation. Furthermore, he has obtained second and third prizes of Provincial Science and Tecbnology Progress Awards for four times and achieved 30 invention patents. He has published more than 100 academic researches on journals indexed by SCI and EI.
　　
　　Xin Jin was born in Shuangcheng of Heilongjiang,China, in May 1971. She received her PhD from Beijing Institute of Technology in 2005. She currently is an associate professor and doctoral supervisor in School of Mechanical Engineering, in Beijing Institute of Technology. She has always been engaged in teaching and research works in terms of precise miniature manufacturing technology and simulation.She has hosted or participated in 20 projects including High-grade CNC Maclune Tools and Basic Manufacturing Equipments, National Natural Science Foundation of China, Beijing Outstanding Talent Training Scheme,Doctoral Programs Foundation of Ministry of Education of China for Young Teachers,and National Defense Basic Scientific Research, as well as the project supported by the Defense Pre-Research Foundation. She has acquired a provincial third prize and obtained 18 national invention patents. Moreover, she has published more than 70 researches on journals included in SCI and EI. Preface

Chapter 1 Introduction
1．1 Theimportance of developing microminiature tum-milling complex machining
1．1．1 The concept of miniature components and machining methods
1．1．2 Meaning and types of complex machining technology
1．1．3 Principle of turn-milling complex machining
1．1．4 Advantages of microminiature turn-milling complex machining
1．1．5 Demand for microminiature turn-milling complex machining
1．2 Current situation of equipments for micro tum-milling complex machining
1．2．1 Microminiaturization of machining equipments
1．2．2 Current situation of microminiature turn-milling complex machine tools
1．2．3 Background and significance of reconfigurable turn-milling complex machine tools
1．3 Key technology of microminiature turn-milling machining
1．3．1 The mechanism of microminiature turn-milling machining
1．3．2 The generaltechnique of microminiature turn-milling complex machine tools
1．3．3 Automatic tool changing technology for precision microminiature turn-milling tool system
1．3．4 Complex machining with multi-process for 3D microminiature complex structural parts
1．3．5 Auxiliary technologies of micro turn-milling complex machining
1．3．6 Control of reconfigurable turn-milling complex machine tools
References

Chapter 2 Principle of Microminiature Turn_milling Complex Machining
2．1 The microminiature orthogonal turn-milling process
2．1．1 Turn-milling process and microminiature machining
2．1．2 Microminiature orthogonalturn-milling of non-eccentricity
2．2 Motion trajectory model of the cutter tooth of microminiature turn-milling complex machining
2．2． 1 Circular trajectory
2．2．2 Trochoid trajectory
2．2．3 Simulation of the motion traj ectory of cutter tooth
2．3 The theoretical cutting force of the microminiature turn-milling complex machining
2．3．1 Meshing zone of the orthogonal turn-nulling
2．3．2 The entrance and departure angles of a single circumference edge
2．3．3 The cutting thickness and width of single circumference edge
2．3．4 The calculation of theoretical cutting force
2．4 The finite element simulation for the cutting process of turn-milling machning
2．4．1 The 3D finite element modeling process of microminiature turn-milling
2．4．2 The 3D finite element simulation of turn-milling complex machining and the experimental verification
2．4．3 2D simulation analysis of the temperature fieldin turn-milling machining
References

Chapter 3 Structure Design of Microminiature Turn-milling Complex Machine Tools
3．1 Overall design scheme of microminiature turn-milling complex machine tools
3．1．1 Requirements for overallperformance of microminiature turn-milling complex machine tools
3．1．2 Overall structural configuration of microminiature turn-milling complex machine tools
3．1．3 General structure scheme for high-speed precise microminiature turn-milling complex machining centers
3．2 Structure design of partially reconfigurable microminiature turn-milling complex machine tools
……
Chapter 4 Methods for Designing the Control System of Microminiature Turn-milling Complex Machine Tools
Chapter 5 Dynamic Characteristis of Microminiature Turn-milling Complex Machine Tool
Chapter 6 Turn-milling Complex Machining for Microminiatrue Parts
内容简介:
　　《精密微小型车铣复合加工技术（英文版）》主要介绍了中间尺度的三维复杂微小型结构件主流加工技术——精密微小型车铣复合加工技术，内容主要包括：微小型车铣复合加工技术国内外的发展状况和加工原理，精密微小型车铣复合加工机床结构和控制系统研究与设计、工艺系统动态特性分析与实验，以及微小型车铣复合加工工艺技术研究。
　　《精密微小型车铣复合加工技术（英文版）》是作者及所带领的科研团队在其多年来对微小型机械制造技术研究的基础上，查阅了国内外诸多研究文献后总结归纳而成，可供航空、航天、兵器等国防制造领域和医疗、钟表等行业的研究人员、工程技术人员，以及高等院校相关专业的师生参考。
作者简介:
　　Zhjing Zhang was born in Mizhi of Shanxi, China,in February 1951, with a Master's degree in Engineering. Currently, he serves as the director of Research and Application Center of Micro-structure Processing Technology, Science and Technology Industry of NationalDefense. Meanwhile, he is a professor and doctoral supervisor in the School of Mechanical Engineering of Beijing Institute of Technology. Moreover, he is authoritative in aerospace manufacturing engineering in Beijing Institute of Technology. He has hosted more than 20 projects including special fund and generalprogram for Instruments of the National Natural Science Foundation of China, National Defense Basic Scientific Research and the project supported by the Defense Pre-Research Foundation. Furthermore, he has obtained second and third prizes of Provincial Science and Tecbnology Progress Awards for four times and achieved 30 invention patents. He has published more than 100 academic researches on journals indexed by SCI and EI.
　　
　　Xin Jin was born in Shuangcheng of Heilongjiang,China, in May 1971. She received her PhD from Beijing Institute of Technology in 2005. She currently is an associate professor and doctoral supervisor in School of Mechanical Engineering, in Beijing Institute of Technology. She has always been engaged in teaching and research works in terms of precise miniature manufacturing technology and simulation.She has hosted or participated in 20 projects including High-grade CNC Maclune Tools and Basic Manufacturing Equipments, National Natural Science Foundation of China, Beijing Outstanding Talent Training Scheme,Doctoral Programs Foundation of Ministry of Education of China for Young Teachers,and National Defense Basic Scientific Research, as well as the project supported by the Defense Pre-Research Foundation. She has acquired a provincial third prize and obtained 18 national invention patents. Moreover, she has published more than 70 researches on journals included in SCI and EI.
目录:
Preface

Chapter 1 Introduction
1．1 Theimportance of developing microminiature tum-milling complex machining
1．1．1 The concept of miniature components and machining methods
1．1．2 Meaning and types of complex machining technology
1．1．3 Principle of turn-milling complex machining
1．1．4 Advantages of microminiature turn-milling complex machining
1．1．5 Demand for microminiature turn-milling complex machining
1．2 Current situation of equipments for micro tum-milling complex machining
1．2．1 Microminiaturization of machining equipments
1．2．2 Current situation of microminiature turn-milling complex machine tools
1．2．3 Background and significance of reconfigurable turn-milling complex machine tools
1．3 Key technology of microminiature turn-milling machining
1．3．1 The mechanism of microminiature turn-milling machining
1．3．2 The generaltechnique of microminiature turn-milling complex machine tools
1．3．3 Automatic tool changing technology for precision microminiature turn-milling tool system
1．3．4 Complex machining with multi-process for 3D microminiature complex structural parts
1．3．5 Auxiliary technologies of micro turn-milling complex machining
1．3．6 Control of reconfigurable turn-milling complex machine tools
References

Chapter 2 Principle of Microminiature Turn_milling Complex Machining
2．1 The microminiature orthogonal turn-milling process
2．1．1 Turn-milling process and microminiature machining
2．1．2 Microminiature orthogonalturn-milling of non-eccentricity
2．2 Motion trajectory model of the cutter tooth of microminiature turn-milling complex machining
2．2． 1 Circular trajectory
2．2．2 Trochoid trajectory
2．2．3 Simulation of the motion traj ectory of cutter tooth
2．3 The theoretical cutting force of the microminiature turn-milling complex machining
2．3．1 Meshing zone of the orthogonal turn-nulling
2．3．2 The entrance and departure angles of a single circumference edge
2．3．3 The cutting thickness and width of single circumference edge
2．3．4 The calculation of theoretical cutting force
2．4 The finite element simulation for the cutting process of turn-milling machning
2．4．1 The 3D finite element modeling process of microminiature turn-milling
2．4．2 The 3D finite element simulation of turn-milling complex machining and the experimental verification
2．4．3 2D simulation analysis of the temperature fieldin turn-milling machining
References

Chapter 3 Structure Design of Microminiature Turn-milling Complex Machine Tools
3．1 Overall design scheme of microminiature turn-milling complex machine tools
3．1．1 Requirements for overallperformance of microminiature turn-milling complex machine tools
3．1．2 Overall structural configuration of microminiature turn-milling complex machine tools
3．1．3 General structure scheme for high-speed precise microminiature turn-milling complex machining centers
3．2 Structure design of partially reconfigurable microminiature turn-milling complex machine tools
……
Chapter 4 Methods for Designing the Control System of Microminiature Turn-milling Complex Machine Tools
Chapter 5 Dynamic Characteristis of Microminiature Turn-milling Complex Machine Tool
Chapter 6 Turn-milling Complex Machining for Microminiatrue Parts