书籍详情
机械CAD/CAM
作者:文国军 编
出版社:华中科技大学出版社
出版时间:2015-04-01
ISBN:9787568001106
定价:¥23.00
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内容简介
《机械CAD/CAM/普通高等学校机械专业卓越工程师教育培养计划系列教材》重点讲述机械工程领域中与CAD/CAM相关的基础知识与理论、关键应用技术和软件系统开发技术等。主要内容包括:CAD/CAM技术基础、CAD/CAM软硬件系统、几何变换、三维实体建模技术、反求工程、参数化编程、有限元技术、虚拟样机技术、虚拟现实技术、先进制造技术、计算机辅助制造、CAD/CAM软件系统开发等。
《机械CAD/CAM/普通高等学校机械专业卓越工程师教育培养计划系列教材》注重理论与实践的结合,在参考国内外大量文献资料的基础之上,将CAD/CAM的基础知识与理论、软件系统(包含SolidWorks、SolidCAM、ANSYS、ADAMS等)与工程机械设计、钻机设计自动化、数控切割CAM系统开发等实际应用结合在一起,突显了实用性,有利于感兴趣的读者自学和教师讲授。
《机械CAD/CAM/普通高等学校机械专业卓越工程师教育培养计划系列教材》采用英文撰写,可作为普通高等院校机械工程专业本科生与研究生的双语教学课程的教材,也可供从事CAD/CAM系统研究与开发的工程技术人员参考。
《机械CAD/CAM/普通高等学校机械专业卓越工程师教育培养计划系列教材》注重理论与实践的结合,在参考国内外大量文献资料的基础之上,将CAD/CAM的基础知识与理论、软件系统(包含SolidWorks、SolidCAM、ANSYS、ADAMS等)与工程机械设计、钻机设计自动化、数控切割CAM系统开发等实际应用结合在一起,突显了实用性,有利于感兴趣的读者自学和教师讲授。
《机械CAD/CAM/普通高等学校机械专业卓越工程师教育培养计划系列教材》采用英文撰写,可作为普通高等院校机械工程专业本科生与研究生的双语教学课程的教材,也可供从事CAD/CAM系统研究与开发的工程技术人员参考。
作者简介
文国军, 男,汉族,中共党员,1978年4月生,教授,博士。现担任中国地质大学(武汉)机械与电子信息学院机械工程系副主任。曾获得中南地区及港澳特区第五届机械创新比赛一等奖及湖北省科技进步二等奖。
目录
Chapter 1 Introduction to CAD/CAM
1.1 Historical Perspective of CAD/CAM
1.2 Benefit of CAD/CAM
1.2.1 Increased Productivity
1.2.2 Better Quality
1.2.3 Better Communication
1.2.4 Common Database
1.2.5 Reduced Prototype Costs
1.2.6 Faster Response to Customers
1.3 CAD/CAM Database
1.4 CAD/CAM Selection Criteria
1.5 Application of CAD/CAM
1.5.1 Aerospace Industry
1.5.2 Automotive Industry
1.5.3 General Industry
Chapter 2 Computer Hardware of CAD/CAM System
2.1 Computer System Classification of CAD/CAM
2.1.1 Mainframe Computer Platforms
2.1.2 Engineering Workstation Platforms
2.1.3 Microcomputer Platforms
2.2 Computer Hardware Basic Operation
2.3 Typical Computer Hardware Configuration of CAD/CAM
Chapter 3 Geometric Transformations
3.1 Definition of Geometric Transformation
3.2 Transformation of a Point
3.3 Generic Transformation
3.3.1 Translation
3.3.2 Scaling
3.3.3 Reflection
3.3.4 Rotation
3.3.5 Shear
3.4 Complex Transformation
3.4.1 Concatenated Transformations
3.4.2 Homogeneous Representation
3.4.3 Geometric Transformation for Three View Drawing
3.5 Perspective Projection Transformation
3.5.1 Principle of Perspective Projection Transformation
3.5.2 Classification of Perspective Projection Transformation
Chapter 4 CAD/CAM Modeling Technology
4.1 Functions of ICG Technology
4.1.1 Input Functions
4.1.2 Producing Graphic Images
4.1.3 Manipulation of Graphic Images
4.1.4 Terminal Display Control
4.1.5 Editing Functions
4.2 Basic Operation of CAD/CAM Modeling Software
4.3 Modeling System Classification
4.3.1 CAD 2D Wireframe Systems
4.3.2 CAD aD Wireframe Systems
4.3.3 Surface Model Systems
4.3.4 Solid Model Systems
4.4 Parametric Modeling
4.4.1 Profile
4.4.2 Dimension drive
4.4.3 Variable Drive
4.4.4 Constraint-Based
4.4.5 Rationality Checking
4.4.6 Dynamic Navigator
4.4.7 Feature-Based Modeling
4.5 SolidWorks Modeling Software
4.5.1 Concepts
4.5.2 Terminology
4.5.3 User Interface
4.5.4 Design Process
4.5.5 Design Intent
4.5.6 Design Method
Chapter 5 Reverse Engineering
5.1 Basic Phases of Reverse Engineering
5.2 Data Capture Methods
5.3 Data Capture Devices
5.3.1 3D Digitizer
5.3.2 Coordinate Measuring Machine
5.3.3 3D Laser Scanners
5.3.4 Structured-Light 3D Scanners: 3D Optical Imager
Chapter 6 Parametric Programming
6.1 Principle of Parametric Programming
6.2 Visual LISP-Based Parametric Programming for AutoCAD
6.2.1 What Visual LISP Offers
6.2.2 Starting Visual LISP
6.2.3 Exploring the Visual LISP User Interface
6.2.4 Loading and Running AutoLISP Programs
6.2.5 VLISP Programming Demonstrations
6.3 VBA-Based Parametric Programming for AutoCAD
6.3.1 How VBA Differs from AutoLISP ~
6.3.2 Visual Basic versus Visual Basic for Applications
6.3.3 The AutoCAD VBA Environment
6.3.4 VBA Programming Demonstrations
6.3.5 VBA Advanced Programming Demonstration
6.4 ObjectARX-based Parametric Programming for AutoCAD
6.4.1 ObjectARX Overview
6.4.2 “Hello,World!” Program
6.4.3 Some Useful Functions
Chapter 7 Computer Aided Engineering
7.1 Finite Element Analysis
7.2 Virtual Prototyping
7.3 CAE Softwares
7.3.1 ANSYS
7.3.2 SolidWorks Simulation
7.3.3 ADAMS
7.4 Projects of CAE Software Application
7.4.1 Stress Analysis and Optimization of Gear Teeth for Crown Gear Based on Limited Length Contact Theory in ANSYS Environment
7.4.2 Kinematics Simulation to Manipulator of Welding Robot Based on ADAMS
Chapter 8 Virtual Reality
8.1 Features of Virtual Reality Systems
8.1.1 Virtual Reality Immersion
8.1.2 Virtual Reality Ambience and Atmosphere
8.2 Interactive Devices for Virtual Reality
8.2.1 Head Mounted Display
8.2.2 Data Glove
8.2.3 Data Suit/Clothing
8.2.4 Joysticks
8.3 VR-Based Training System Development for HDD Rig
8.3.1 Development of Software Part
8.3.2 Development of Hardware Part
Chapter 9 Advanced CAM Technology
9.1 Computer Numerical Control
9.2 Directed Numerical Control
9.3 Distributed Numerical Control
9.4 Group Technology
9.5 Flexible Manufacturing
9.6 Rapid Prototyping and Manufacturing
9.7 Computer-Aided Process Planning
9.8 Computer-Aided Production Management
9.9 Virtual Manufacturing
9.10 Application of CAM Software: SolidCAM
9.10.1 Introduction to SolidCAM
9.10.2 Basic Concepts
9.10.3 Process Overview
9.10.4 Description of SolidCAM Modules
Chapter 10 CAD/CAM Software Development
10.1 Development Principal
10.2 Development Process
10.2.1 Planning
10.2.2 Implementation, Testing and Documenting
10.2.3 Deployment and Maintenance
10.3 Data Processing for Engineering Manuals
10.3.1 Programming for Numerical Tables
10.3.2 Programming for Line Graph
10.4 Projects of CAD/CAM Software Development
10.4.1 CAD Software Development for Automated Design of Chuck of Core Drilling Rig
10.4.2 CAM Software Development for CNC Cutting Machine
Reference
1.1 Historical Perspective of CAD/CAM
1.2 Benefit of CAD/CAM
1.2.1 Increased Productivity
1.2.2 Better Quality
1.2.3 Better Communication
1.2.4 Common Database
1.2.5 Reduced Prototype Costs
1.2.6 Faster Response to Customers
1.3 CAD/CAM Database
1.4 CAD/CAM Selection Criteria
1.5 Application of CAD/CAM
1.5.1 Aerospace Industry
1.5.2 Automotive Industry
1.5.3 General Industry
Chapter 2 Computer Hardware of CAD/CAM System
2.1 Computer System Classification of CAD/CAM
2.1.1 Mainframe Computer Platforms
2.1.2 Engineering Workstation Platforms
2.1.3 Microcomputer Platforms
2.2 Computer Hardware Basic Operation
2.3 Typical Computer Hardware Configuration of CAD/CAM
Chapter 3 Geometric Transformations
3.1 Definition of Geometric Transformation
3.2 Transformation of a Point
3.3 Generic Transformation
3.3.1 Translation
3.3.2 Scaling
3.3.3 Reflection
3.3.4 Rotation
3.3.5 Shear
3.4 Complex Transformation
3.4.1 Concatenated Transformations
3.4.2 Homogeneous Representation
3.4.3 Geometric Transformation for Three View Drawing
3.5 Perspective Projection Transformation
3.5.1 Principle of Perspective Projection Transformation
3.5.2 Classification of Perspective Projection Transformation
Chapter 4 CAD/CAM Modeling Technology
4.1 Functions of ICG Technology
4.1.1 Input Functions
4.1.2 Producing Graphic Images
4.1.3 Manipulation of Graphic Images
4.1.4 Terminal Display Control
4.1.5 Editing Functions
4.2 Basic Operation of CAD/CAM Modeling Software
4.3 Modeling System Classification
4.3.1 CAD 2D Wireframe Systems
4.3.2 CAD aD Wireframe Systems
4.3.3 Surface Model Systems
4.3.4 Solid Model Systems
4.4 Parametric Modeling
4.4.1 Profile
4.4.2 Dimension drive
4.4.3 Variable Drive
4.4.4 Constraint-Based
4.4.5 Rationality Checking
4.4.6 Dynamic Navigator
4.4.7 Feature-Based Modeling
4.5 SolidWorks Modeling Software
4.5.1 Concepts
4.5.2 Terminology
4.5.3 User Interface
4.5.4 Design Process
4.5.5 Design Intent
4.5.6 Design Method
Chapter 5 Reverse Engineering
5.1 Basic Phases of Reverse Engineering
5.2 Data Capture Methods
5.3 Data Capture Devices
5.3.1 3D Digitizer
5.3.2 Coordinate Measuring Machine
5.3.3 3D Laser Scanners
5.3.4 Structured-Light 3D Scanners: 3D Optical Imager
Chapter 6 Parametric Programming
6.1 Principle of Parametric Programming
6.2 Visual LISP-Based Parametric Programming for AutoCAD
6.2.1 What Visual LISP Offers
6.2.2 Starting Visual LISP
6.2.3 Exploring the Visual LISP User Interface
6.2.4 Loading and Running AutoLISP Programs
6.2.5 VLISP Programming Demonstrations
6.3 VBA-Based Parametric Programming for AutoCAD
6.3.1 How VBA Differs from AutoLISP ~
6.3.2 Visual Basic versus Visual Basic for Applications
6.3.3 The AutoCAD VBA Environment
6.3.4 VBA Programming Demonstrations
6.3.5 VBA Advanced Programming Demonstration
6.4 ObjectARX-based Parametric Programming for AutoCAD
6.4.1 ObjectARX Overview
6.4.2 “Hello,World!” Program
6.4.3 Some Useful Functions
Chapter 7 Computer Aided Engineering
7.1 Finite Element Analysis
7.2 Virtual Prototyping
7.3 CAE Softwares
7.3.1 ANSYS
7.3.2 SolidWorks Simulation
7.3.3 ADAMS
7.4 Projects of CAE Software Application
7.4.1 Stress Analysis and Optimization of Gear Teeth for Crown Gear Based on Limited Length Contact Theory in ANSYS Environment
7.4.2 Kinematics Simulation to Manipulator of Welding Robot Based on ADAMS
Chapter 8 Virtual Reality
8.1 Features of Virtual Reality Systems
8.1.1 Virtual Reality Immersion
8.1.2 Virtual Reality Ambience and Atmosphere
8.2 Interactive Devices for Virtual Reality
8.2.1 Head Mounted Display
8.2.2 Data Glove
8.2.3 Data Suit/Clothing
8.2.4 Joysticks
8.3 VR-Based Training System Development for HDD Rig
8.3.1 Development of Software Part
8.3.2 Development of Hardware Part
Chapter 9 Advanced CAM Technology
9.1 Computer Numerical Control
9.2 Directed Numerical Control
9.3 Distributed Numerical Control
9.4 Group Technology
9.5 Flexible Manufacturing
9.6 Rapid Prototyping and Manufacturing
9.7 Computer-Aided Process Planning
9.8 Computer-Aided Production Management
9.9 Virtual Manufacturing
9.10 Application of CAM Software: SolidCAM
9.10.1 Introduction to SolidCAM
9.10.2 Basic Concepts
9.10.3 Process Overview
9.10.4 Description of SolidCAM Modules
Chapter 10 CAD/CAM Software Development
10.1 Development Principal
10.2 Development Process
10.2.1 Planning
10.2.2 Implementation, Testing and Documenting
10.2.3 Deployment and Maintenance
10.3 Data Processing for Engineering Manuals
10.3.1 Programming for Numerical Tables
10.3.2 Programming for Line Graph
10.4 Projects of CAD/CAM Software Development
10.4.1 CAD Software Development for Automated Design of Chuck of Core Drilling Rig
10.4.2 CAM Software Development for CNC Cutting Machine
Reference
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