Preface to the 2nd Edition Preface to the 1st Edition Part 1 Fundamentals of Machining Processes Chapter 1 Basic Laws of Metal Cutting Processes 1.1 Basic Concepts of Cutting Processes 1.2 Metallic Deformation of Cutting Processes 1.3 Chip Formation Mechanism and Chip Morphology of Hard and Brittle Non-Metallic Materials 1.4 Cutting Forces and Cutting Powers 1.5 Heat of Cutting and Cutting Temperatures Chapter 2 Basic Knowledge of Cutting Tools Chapter 3 Machining Quality 3.1 Machining Accuracy 3.2 Machining Surface Quality 3.3 Vibration in Machining Chapter 4 Machining Process Specification 4.1 Overview 4.2 Specification of Process Specification 4.3 Technical and Economic Analysis of Machining Programs Chapter 5 Assembly Process and Computer-aided Process Design 5.1 Assembly Technology (GT) 5.2 Assembly Process 5.3 Computer-aided Process Design Chapter 6 Overview of Information Technology Application in Mechanical Manufacturing 6.1 Overview of Information Systems 6.2 Introduction to Commonly Used Information Systems 6.3 Overview of Enterprise Information System Construction Chapter 2 Metal Cutting Machine Tools and Chapter 1 Metal Cutting Machine Tool Models and Graphic Symbols 1.1 Metal Cutting Machine Tool Models 1.2 Metal Cutting Machine Tool Operation Instruction Figurative Symbols 1.3 CNC Machine Tool Operation Instruction Figurative Symbols Chapter 2 Machine Tool Fixtures 2.1 General Overview 2.2 Positioning of Workpieces in Fixtures 2.3 Clamping of Workpieces in Fixtures 2.4 Tool Setting and Guiding Devices 2.5 Fixture Indexing Devices and Clamping Tools 2.6 2.7 Combined fixtures 2.8 Assembled fixtures 2.9 Computer-aided design of machine tool fixtures (CAD for machine tool fixtures) Chapter 3 Machine tool accessories 3.1 Model of machine tool accessories 3.2 Workbench 3.3 Tool holders 3.4 Indexing device 3.5 Clamping device 3.6 Center stand and tool holder 3.7 Other accessories Chapter 3 Cutting Chapter 1 Turning 1.1 Basic characteristics and processing range of turning 1.2 Main process parameters of turning 1.3 Turning accuracy 1.4 Lathe 1.5 Turning tool Chapter 2 Drilling, reaming, reaming 2.1 Characteristics and main process parameters of drilling, reaming and expanding 2.2 Calculation of maneuvering time for drilling, reaming and expanding 2.3 Processing accuracy of drilling, reaming and expanding 2.4 Causes of common problems in drilling, reaming and expanding and solutions to problems in drilling, expanding and reaming 2.5 Drilling of deep holes, small holes and micro-holes 2.6 2.7 Boring tools Chapter 3 Boring 3.1 Characteristics and types of boring 3.2 Boring on horizontal boring machines 3.3 Boring on diamond boring machines (high-speed fine boring) 3.4 Boring on coordinate boring machines 3.5 Boring dosage 3.6 Boring accuracy 3.7 Boring of typical surfaces and parts 3.8 Boring machines 3.9 Boring cutters Chapter 4 Milling 4.1 Characteristics, modes and machining ranges of milling 4.2 Milling dosage 4.3 Methods of increasing milling Methods of improving milling accuracy and milling efficiency 4.4 Milling of typical parts and surfaces 4.5 Trends in milling 4.6 Milling machines 4.7 Milling cutters Chapter 5 Planing, interpolating, and sawing 5.1 Planing 5.2 Interpolating 5.3 Sawing 5.4 Planing, interpolating, and sawing 5.5 Planing and interpolating cutters Chapter 6 Broaching 6.1 Characteristics, types, and modes of broaching 6.2 Broaching dosages, broaching forces, and broaching maneuver times 6.3 Broaching cutting fluids and their pouring methods 6.4 Analysis and solution of common defects in broaching 6.5 Broaching of typical surfaces and parts 6.6 Broaching machines 6.7 Broaching knives Chapter 7 Grinding 7.1 Principles of grinding 7.2 Basic characteristics of grinding and types of grinding 7.3 Selection of common grinding dosage 7.4 Main process parameters of common grinding methods 7.5 Dressing of grinding wheels 7.6 Grinding fluids 7.7 Common causes of grinding defects 7.8 Causes of high-efficiency grinding 7.8 Causes of common grinding defects 7.8 High-efficiency grinding 7.9 Grinding machines 7.10 Selection of abrasives Chapter 8 Gear, worm gear and spline machining 8.1 Cylindrical gear machining 8.2 Bevel gear machining 8.3 Worm gear machining 8.4 Spline machining 8.5 Gear machine tools 8.6 Gear tools Chapter 9 Threading 9.1 Basic types of threading, their characteristics and scope of application 9.2 Tap tapping and threading 9.3 Thread turning 9.3 Thread turning Threading 9.3 Thread turning 9.4 Thread grinding 9.5 Threading machine tools 9.6 Threading tools Chapter 10 Finishing and finishing 10.1 Honing 10.2 Lapping 10.3 Polishing Chapter 11 Precision and ultra-precision machining 11.1 Overview 11.2 Ultra-precision cutting with diamond tools 11.3 Precision and ultra-precision grinding 11.4 Examples of precision grinding Chapter 12 Cutting of difficult-to-machine materials 12.1 Cutting characteristics of difficult-to-machine materials 12.2 Cutting of high-strength steel 12.3 Cutting of high-manganese steel 12.4 Cutting of hardened steel, cold-hard cast iron and wear-resistant alloy cast iron 12.5 Cutting of stainless steel, high-temperature alloys 12.6 Cutting of engineering ceramics 12.7 Cutting of other difficult-to-cut materials 12.8 Cutting tools for machining of non-metallic materials 13 High-speed machining Machining 13.1 Overview of High-Speed Cutting 13.2 High-Speed Cutting Tools 13.3 High-Speed Cutting Machine Tools 13.4 Application of High-Speed Cutting 13.5 Safety of High-Speed Cutting Chapter 4 CNC Machining Chapter 1 Basic Concepts of CNC Machining and CNC Machining Systems Chapter 2 Basics of CNC Machining Processes Chapter 3 CNC Machining Tooling Systems, Cutting Tools, and Fixtures Chapter 4 Selection of CNC Machining Machines Chapter 5 CNC Machine Tools Commissioning and acceptance Chapter 6 CNC machine tool operation and programming Chapter 7 Typical CNC machine tools Chapter 8 CNC machine tool maintenance and repair basics Chapter 5 Special Processing Chapter 1 General Chapter 2 Electrical Discharge Machining Chapter 3 Electrolytic Machining Chapter 4 High Energy Beam Machining Chapter 5 Ultrasonic Machining Chapter 6 Chemical Machining and Composite Machining Chapter 7 Other Special Processing Chapter 8 Microfabrication Chapter 9 Surface Engineering Technology Chapter 6 Process Automation Chapter 1 General Chapter 2 Introduction to CNC Machining Systems Chapter 3 CNC Machining Tool Systems, Tools and Fixtures Chapter 4 Selection of CNC Machining Tools Chapter 5 CNC Machining Tool Systems, Tools and Fixtures Chapter 6 CNC Machine Tool Operation and Programming Automation Chapter 1 General Introduction Chapter 2 Automated Processing Program Development Chapter 3 Automatic Material Storage and Transportation System Chapter 4 Process Equipment Commonly Used in Mechanical Process Automation Chapter 5 Automatic Inspection and Monitoring in Processing Chapter 6 Acceptance, Evaluation, Use and Maintenance of Automated Processing Equipment Chapter 7 Detection Chapter 1 Geometrical Measurement Basics and Measuring Instruments Chapter 2 Geometrical Measurement Methods Chapter 8 Mechanical Assembly Chapter 1 Mechanical Assembly Process Basics Chapter 2 Assembly Operations Chapter 3 Typical Component Assembly Chapter 4 Automatic Assembly References
Publication Information for 1st Edition
Publisher: Mechanical Industry Press Book Category: Machining Book Name: Machining Craftsman's Handbook Book No.: 978-7-111-09176-9 Author: Yang Shuzi Editor-in-Chief Publication Date: November 2002 Size: 16 Pages: 2162 pages Word count: 3326 thousand words Pricing: 158.00 yuan
1st Edition Introduction
This manual brings together the various major aspects of mechanical manufacturing technology, reflecting the progress of modern advanced manufacturing technology, with concise and practical content, narrative popular, easy to use features, is a high value of machining process manual. This manual is divided into 8 chapters, including: the basis of machining process, metal cutting machine tools, machine tool fixtures and tools, cutting, special machining, machining process automation, testing and mechanical assembly. This handbook can be language in engaged in mechanical manufacturing engineers and technicians as well as engineering colleges and universities mechanical students and teachers use reference.
Foreword to the 1st Edition
In view of the past and the present, looking at the history of mankind, it should be said that materials, energy, information and manufacturing are the four pillars of human civilization. Manufacturing is a general term for all manufacturing-related industries, and it is one of the pillar industries of the national economy. Manufacturing technology is the technology that turns raw materials into products, and it is the key basic technology on which the national economy and society can develop, and on which the manufacturing industry itself depends for its survival. Without the manufacturing industry and the progress of manufacturing technology, there will be no means of production, means of living, scientific and technological means, military equipment and everything else, and there will be no progress in them. Statistics show that in the United States, 68% of the wealth comes from the manufacturing industry, 49% of Japan's gross national product is provided by the manufacturing industry, and China's manufacturing industry also accounts for 40% of the total industrial output. It can be said that without a developed manufacturing industry, it is impossible to have a truly prosperous and strong country, and without the machinery manufacturing industry, there will be no manufacturing industry. Economic competition is ultimately the manufacturing technology and manufacturing capacity competition. Reform and opening up 20 years, China's machinery manufacturing industry to make full use of both domestic and foreign technological resources, and systematically promote the technological transformation of enterprises, and guide enterprises to take the road of relying on scientific and technological progress, so that the manufacturing technology, product quality and level of product quality and economic benefits have undergone significant changes for the prosperity of the domestic market, to expand exports and foreign exchange earnings, and promote the development of the national economy has made a great contribution. In order to adapt to the needs of the development of machinery manufacturing technology, in order to further improve the level of China's machinery manufacturing technology, to strengthen China's electromechanical products in the international market to make a modest contribution to the competitiveness of our mechanical and electrical products in the international market, we in the strong support of the Mechanical Press, the preparation and publication of this handbook. This sub-book brings together the main content of all aspects of machinery manufacturing technology, specifically including the basics of machining technology, metal cutting machine tools, machine tool fixtures and tools, cutting, special machining, machining process automation, testing and assembly. The full manual***8 parts and 60 chapters. This sub-book is characterized by process-based, process method as the main line, process data and process methods are closely integrated; not only discusses the mass production of large quantities of processing and assembly quality, efficiency and cost issues, but also introduces the multi-species, small batch production process characteristics, emphasizing the production of flexible, integrated and rapid reorganization of concepts; concise, practical, and pay attention to reflecting the new advances in modern manufacturing technology; the use of the latest national standards.
Table of Contents of the 1st Edition
Foreword Chapter 1 Basic Machining Processes Chapter 1 Basic Laws of Metal Cutting Processes 1.1 Basic Concepts of Cutting Processes 1.2 Deformation of Metals in the Process of Cutting 1.3 Chip Formation Mechanisms and Cutting Morphology of Hard and Brittle Non-Metallic Materials 1.4 Cutting Forces and Cutting Powers 1.5 Heat of Cutting and Cutting Temperatures Chapter 2 Basic Knowledge of Cutting Tools, Cutting Dosage Selection and Cutting Fluid 2.1 Geometric Angle of Cutting Tool 2.2 Wear of Cutting Tool 2.3 Tool Durability 2.4 Principle of Cutting Dosage Selection 2.5 Cutting Fluid Chapter 3 Machining Quality 3.1 Machining Accuracy 3.2 Machining Surface Quality 3.3 Vibration in Machining Chapter 4 Machining Process Regulation 4.1 Overview 4.2 Formulation of Process Regulations 4.3 Features of NC Machining Process 4.4 Technical and Economic Analysis of Machining Program 4.4 Technical and Economic Analysis of Machining Program 4.5 Cutting Heat and Cutting Temperature Techno-economic analysis of machining program Chapter 5 Assembly process and computer-aided process design 5.1 Assembly technology (GT) 5.2 Assembly machining process 5.3 Computer-aided process design Chapter 2 Metal Cutting Machine Tools Chapter 6 Metal Cutting Machine Tool Models and Graphic Symbols 6.1 Metal Cutting Machine Tool Models 6.2 Metal Cutting Machine Tool Operation Instruction Graphic Symbols 6.3 CNC Machine Operation Instruction Graphic Symbols Chapter 7 CNC Machine Tool Operation Instruction Graphic Symbols Chapter 7 CNC machine tools and machining centers 7.1 CNC machine tools 7.2 Machining centers Chapter 8 Lathes 8.1 Horizontal lathes 8.2 Vertical lathes 8.3 Turret and rotary lathes 8.4 Imitation lathes 8.5 Chuck multi-tool lathes 8.6 Single-axis automatic lathes 8.7 Multi-axis automatic lathes 8.8 CNC lathes and turning centers 8.9 Crankshaft lathes Chapter 9 Drilling machines 9.1 Types of drilling machines and scope of application 9.2 Benchtop drilling machines 9.2 Benchtop drilling machines 9.3 Vertical drilling machines 9.4 Rocker arm drilling machines 9.5 Deep-hole drilling machines 9.6 CNC drilling machines Chapter 10 Boring machines 10.1 Horizontal milling and boring machines 10.2 Coordinate boring machines 10.3 Precision boring machines 10.4 Deep-hole boring machines and deep-hole drilling machines Chapter 11 Milling machines 11.1 Elevating and lowering table milling machines 11.2 Tool milling machines, rocker arm milling machines, and slide milling machines 11.3 Bed milling machines 11.4 Gantry Milling Machines and CNC Gantry Boring and Milling Machines 11.5 Profiling Milling Machines and CNC Profiling Milling Machines Chapter 12 Planing, Inserting, Broaching and Sawing Machines 12.1 Inserting of Planing Machines 12.2 Broaching Machines 12.3 Sawing Machines Chapter 13 Grinding Machines 13.1 Overview 13.2 Cylindrical Grinding Machines 13.3 Internal Cylindrical Grinding Machines 13.4 Surface Grinding Machines 13.5 Specialized Grinding Machines 13.6 Other Grinding Machines 13.7 CNC Grinding Machines Chapter 14 Gear processing machines 14.1 Overview 14.2 Gear hobbing machines 14.3 Gear shaping machines 14.4 Gear shaving machines 14.5 Gear honing machines 14.6 Gear grinding machines 14.7 Spline-shaft milling machines 14.8 Numerically controlled gear processing machines 14.9 Bevel gear processing machines Chapter 15 Threading machines 15.1 Thread lathes 15.2 Thread milling machines 15.3 Thread grinding machines 15.4 Tapping machines 15.5 Thread rolling machines 15.6 Thread rolling machines Chapter 16 Machine accessories 16.1 Types of machine accessories 16.2 Workbench 16.3 Tool holders 16.4 Indexing devices 16.5 Clamping devices 16.6 Center holders and followers 16.7 Other accessories Chapter 3 Machine tool fixtures and cutting tools Chapter 17 Machine tool fixtures 17.1 General information 17.2 Positioning of workpieces in fixtures 17.3 Clamping of workpieces in fixtures 17.4 Tool setting and guiding devices 17.5 Fixtures 17.5 Tool setting and guiding devices 17.6 Tool setting and guiding devices 17.7 Tool setting and guiding devices 17.8 Tool setting and guiding devices 17.8 Tool setting and guiding devices 17.9 Thread rolling machines 17.5 Fixture indexing and clamping points 17.6 Design methods for special fixtures 17.7 Combined fixtures 17.8 Assembled fixtures 17.9 CNC machine beds 17.10 Computer-aided design of machine tool fixtures (CAD for machine tool fixtures) Chapter 18 Cutting tool materials 18.1 Carbon and alloy tool steels 18.2 High-speed tool steels 18.3 Cemented carbide 18.4 Ceramics for cutters 18.5 Superhard tool materials Chapter 19 Cutting tools 19.1 Turning tools 19.2 Ceramic, guillotine and cubic boron nitride turning tools 19.3 Forming turning tools 19.4 Planing and plunge cutters Chapter 20 Holemaking tools 20.1 Types of holemaking tools and their uses 20.2 Twist drills 20.3 Tungsten carbide shallow-hole drills 20.4 Expanding and countersinking drills 20.5 Reamers 20.6 Center and flat drills 20.7 Deep-hole drills 20.8 Boring cutters 20.9 Composite holemaking tools Chapter 21 Milling cutters 21.1 Types and uses of milling cutters 21.2 Milling cutters with HSS pointed teeth 21.3 Milling cutters with HSS spade teeth 21.4 Sleeve milling cutters 21.5 Milling cutters with cemented carbide Chapter 22 Broaching cutters 22.1 Types of broaching cutters 22.2 Structural and geometrical parameters of broaching cutters 22.3 Broaching cutters in use Chapter 23 Gear cutters 23.1 Gear 23.1 Gear milling cutters 23.2 Gear hobbing cutters 23.3 Gear shaping cutters 23.4 Gear shaping cutters 23.5 Non-involute spreading cutters 23.6 Worm gear cutters 23.7 Bevel gear cutters Chapter 24 Threaded cutters 24.1 Types of threaded cutters 24.2 Threaded turners and combs 24.3 Taps 24.4 Slabs 24.5 Threaded endmills 24.6 Threaded cutters 24.7 Threaded hobbing tools Chapter 25 Cutters for automation 25.1 Types of rigid automation 25.2 Structure and geometrical parameters of cutters 22.3 Use of broach cutters Tools for automated machining 25.1 Rigid automated tools 25.2 Tools for CNC machines and flexible automated machining Chapter 26 Tools for machining non-metallic materials 26.1 Tools for wood machining 26.2 Tools for plastics machining 26.3 Equipment and tools for stone sawing Chapter 4 Cutting Processes Chapter 27 Turning 27.1 Basic features and machining ranges of turning 27.2 Turning process parameters 27.3 Turning accuracy Chapter 28 Drilling, expanding, and cutting tools Chapter 29 Turning tools for automated machining 28 drilling, reaming, reaming 28.1 characteristics of drilling, reaming, reaming and the main process parameters 28.2 drilling, reaming, reaming machining maneuvering time calculation 28.3 drilling, reaming, reaming machining accuracy 28.4 drilling, reaming, reaming processing in the common problems of the causes and solutions 28.5 deep holes, small holes and micro-hole drilling 29 Chapter 29 Boring 29.1 characteristics and types of boring 29.2 Horizontal boring machine boring 29.3 Boring on a gold guillotine boring machine 29.4 Boring on a coordinate boring machine 29.5 Boring dosage 29.6 Boring accuracy 29.7 Boring of typical surfaces and parts Chapter 30 Milling 30.1 Characteristics of milling, modes and plus ranges 30.2 Milling dosage 30.3 Methods of improving milling accuracy and milling efficiency 30.4 Milling of typical parts and surfaces 30.5 Trends in the development of milling Chapter 31 Planing, Inserting and sawing 31.1 Planing 31.2 Inserting 31.3 Sawing Chapter 32 Broaching 32.1 Characteristics, types and methods of broaching 32.2 Broaching dosage, broaching force and broaching maneuvering time 32.3 Broaching fluids and their pouring methods 32.4 Solutions to common defects in broaching 32.5 Broaching of typical surfaces and parts Chapter 33 Grinding 33.1 Principles of grinding 33.2 Basic features and types of grinding 33.3 Selection of abrasives 33.4 Selection of general grinding dosage 33.5 Main process parameters of common grinding methods 33.6 Dressing of grinding wheels 33.7 Grinding fluids 33.8 Causes of common defects in grinding 33.9 Efficient grinding Chapter 34 Finishing and polishing 34.1 Honing 34.2 Lapping 34.3 Polishing Chapter 35 Precision and ultra-precision processing 35.1 Overview 35.2 Ultra-precision cutting with diamond tools 35.3 Examples of precision and ultra-precision grinding 35.4 Examples of precision grinding Chapter 36 Cutting and machining of difficult-to-machine materials 36.1 Cutting characteristics of difficult-to-machine materials 36.2 Cutting and machining of high-strength steels 36.3 Cutting and machining of high-manganese steels 36.4 Cutting and machining of hardened steels, cold-hardened cast iron and wear-resistant alloy cast iron 36.5 Stainless steel, High-temperature alloys 36.6 Cutting of engineering ceramics 36.7 Cutting of other difficult-to-cut materials Chapter 37 Cylindrical Gear and Worm Gear Machining 37.1 Cylindrical Gear Machining Methods and Process Design 37.2 Hobbing 37.3 Shaping 37.4 Shaving 37.5 Honing 37.6 Grinding 37.7 Cold Extrusion 37.8 Chamfering of Gear Teeth 37.9 Heavy Duty Gear Machining Processes 37.10 CAPP for Gear Processing 37.11 Worm Sub-Machining Chapter 38 Bevel Gear Processing 38.1 Overview 38.2 Straight Bevel Gear Processing 38.3 Curved Tooth Bevel Gear Processing 38.4 Bevel Gear Grinding 38.5 Bevel Gear Inspection and Contact Zone Correction Chapter 39 Spline Processing 39.1 Characteristics of Spline Processing 39.2 Main Methods of Spline Processing Chapter 40 Threading 40.1 Basic Types, Characteristics, and Features of Thread Processing 40.1 Basic types, characteristics and scope of application of threading 40.2 Tapping threads with taps, threading with plate teeth 40.3 Thread turning 40.4 Thread grinding Chapter 5 Special Processing 41 Chapter 41 General 41.1 Concepts and roles of special processing technologies 41.2 Special processing methods and classification and performance comparison 41.3 Characteristics and selection principles of special processing technologies Chapter 42 EDM 42.1 Basic principles of EDM 42.2 EDM 42.3 Special processing methods and classification and performance comparison 42.4 Special processing technologies and selection principles 42.2 EDM equipment system 42.3 EDM process and application 42.4 EDM machine tool common faults and abnormal phenomena in processing Chapter 43 EDM wire cutting 43.1 Principle and characteristics of wire cutting 43.2 Development of domestic and foreign EDM wire cutting 43.3 EDM wire cutting machine tools and models 43.4 Programming 43.5 Typical processing examples 43.6 EDM wire cutting other applications Chapter 44 Electrolytic machining 44.1 Basic principles and characteristics of electrolytic machining 44.2 Electrolytic machining equipment 44.3 Factors affecting the quality of electrolytic machining and its control methods 44.4 Electrolytic machining of the cathode design 44.5 Mixed-gas electrolytic machining 44.6 Electrolytic machining applications 44.7 CNC exhibition electrolytic machining technology Chapter 45 High-energy beam plus 45.1 High-energy beam plus 45.1 High-energy beam plus 45.2 Electrolytic machining machine tools and models 43.4 Program preparation Chapter 45 High Energy Beam Processing 45.1 Laser Processing 45.2 Electron Beam Processing 45.3 Ion Beam Processing Chapter 46 Ultrasonic Processing 46.1 Principles and Characteristics of Ultrasonic Processing 46.2 Ultrasonic Processing Equipment and Variable Amplitude Rods 46.3 Basic Processing Laws of Ultrasonic Processing 46.4 Ultrasonic Turning 46.5 Ultrasonic Drilling 46.6 Other Applications of Ultrasonic Processing Chapter 47 Chemical Processing and Composite Machining 47.1 Chemical Processing 47.2 Composite Processing Chapter 48 Other Special Processing 48.1 Water Jet Cutting 48.2 Abrasive Jet Processing 48.3 Magnetic Grinding 48.4 Extrusion Honing 48.5 Electrochemical Polishing 48.6 Rapid Prototyping Technology Chapter 6 Automation of Machining Processes Chapter 49 Overview 49.1 Significance, Tasks, and Main Contents of Automation of Machining Processes 49.2 Strategies for Automated Machining 49.3 Automated machining system and its composition 49.4 Development trend of machining process automation Chapter 50 Automatic material storage and transportation system 50.1 Overview 50.2 Rigid automated material storage and transportation system 50.3 Flexible automated material storage and transportation system 50.4 Chip and cutting fluid handling system Chapter 51 Automated machining process program development 51.1 Characteristics of automated machining process 51.2 Application of assembly technology in 51.3 Automated machining process plan 51.4 Cutting volume selection 51.5 Auxiliary tools 52 Process equipment commonly used in the automation of machining process 52.1 Main types of process equipment commonly used in the automation of machining process and their applications 52.2 Special requirements for automated machining equipment and its realization 52.3 Automation of cutting process by automated stand-alone machines 52.4 Combined machine tools and their applications 52.5 Machining automated lines and their applications 52.6 Flexible manufacturing systems and their applications 52.7 Control of machining automated lines and flexible manufacturing systems 53.1 Automatic identification of workpieces and tools 53.2 Automatic measurement of workpiece dimensions 53.3 Tool dimensional control system 53.4 Detection and fingerprinting of tool wear and breakage. Chapter 54 Acceptance, Evaluation, Use and Maintenance of Automated Machining Equipment 54.1 Installation, Commissioning and Acceptance 54.2 Level Evaluation 54.3 Use and Maintenance Chapter 7 Inspection Chapter 55 Basics of Geometric Measurement and Measuring Instruments 55.1 Basics of Geometric Measurement 55.2 Commonly Used Measuring Instruments 56 Geometric Measurement Methods 56.1 Length Measurement 56.2 Angle Measurement 56.3 Measurement of Shape and Positional Error 56.4 Measurement of Surface Roughness 56.4 Measurement of Surface Roughness 56.4 Surface roughness measurement 56.5 Thread measurement 56.6 Cylindrical gear measurement 56.7 Worm Worm wheel measurement Chapter 8 Mechanical Assembly Chapter 57 Basics of Mechanical Assembly Processes 57.1 Overview 57.2 Mechanical Assembly Processes 57.2 Matching Methods 57.3 Formulation of Mechanical Assembly Processes Chapter 58 Assembly 58.1 Cleaning 58.2 Mechanical Assembly Measurements and Environmental Conditions 58.3 Equilibrium 58.4 Measurement and Control 58.4 Measurement and Control 58.4 Measurement of Mechanical Assembly 58.3 Balancing 58.4 Fixed connections Chapter 59 Typical component assembly 59.1 Assembly of belt-driven components 59.2 Assembly of chain-driven components 59.3 Assembly of gear and worm-driven components 59.4 Assembly of screw-nut assemblies 59.5 Assembly of couplings, clutches, and brakes 59.6 Assembly of hydraulic systems 59.7 Assembly of seals 59.8 Assembly of support components Chapter 60 Automatic assembly 60.1 Automatic assembly devices 60.1 Automatic assembly devices 60.2 Fitting methods for mechanical assembly processes 57.3 Development of mechanical assembly process specifications Chapter 60 Assembly operations Automated Assembly 60.1 Automated Assembly Devices 60.2 Automated Assembly Processes and Procedures 60.3 Assembly Machines, Assembly Lines, and Their Design