Theory and practice in machining systems
This book describes machining technology from a wider perspective by considering it within the machining space. Machining technology is one of the metal removal activities that occur at the machining point within the machining space. The machining space consists of structural configuration entities,...
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| Main Authors | , |
|---|---|
| Format | Electronic eBook |
| Language | English |
| Published |
Cham, Switzerland :
Springer,
2017.
|
| Subjects | |
| Online Access | Full text |
| ISBN | 9783319539010 9783319539003 |
| Physical Description | 1 online resource (xii, 292 pages) : illustrations (some color) |
Cover
Table of Contents:
- Preface; Contents; Fundamentals; Part1; 1 Metal Processing Technology in General-Importance of Hierarchical Classification; 1.1 Various Metal Removal Processing Methods and Available Kinds of Machine Tool; 1.2 Various Metal Non-removal Processing Methods and Their Characteristic Features; 1.3 Phase-Changing Processing; References; 2 Choosing Guide in Form-Generating Movement and New Approaches to Machining Technology-Correlation Diagramme Among Machining Method-Tools-Attachments-Machine Kinds; 2.1 Facing Problems in Choosing Guide for Preferable Machining Method.
- 2.2 Flow of Force and Description of Form-Generating Movement2.2.1 Functional Description of a Machine Tool as a Whole; 2.2.2 Form-Generating Movement in Machining Function-Integrated Kind; 2.3 Trial to Establish Choosing Guide for Kind of Machine Tool and Machining Method; 2.4 Linkage Diagramme of Structural Configuration Entities; References; Determinants for Functional and Performance Specifications of Machining Space; 3 Raw Materials for Work, Engineering Materials and Swarf Discharge; 3.1 Supply of Raw Materials to Machining Space and Material Efficiency.
- 3.2 Engineering Materials in General3.3 Swarf and Its Discharge from Machining Space; 3.3.1 Swarf Generation and Cutting Fluid; 3.3.2 Swarf Discharge from Machining Space; References; 4 Structural Body Components Closely Allocated Around Machining Space-Core for User-oriented Platform System; 4.1 Tapers in General and Facing Engineering Problems; 4.2 Spindle Nose and Tapered Hole; 4.3 Turret Head; 4.4 Linear Travelling Table with Built-in-Rotary Table and Auxiliary Indexing Round Table; References; 5 Work and Tool Holding Devices-Chuck, Centre, Mandrel and Tool Holder; 5.1 Chuck and Concerns.
- 5.1.1 Jaw Chuck5.1.2 Collet Chuck; 5.1.3 Driver; 5.2 Centre and Concerns; 5.3 Mandrel and Milling Chuck; 5.4 Perspective for Research into Jaw and Collet Chucks; References; 6 In-Process and On-the-Machine Measurement; 6.1 In-Process Measurements in General; 6.2 On-the-Machine and In-Process Measurements in Practice; References; 7 Concept of "Platform", Its Application and Modular Tooling System; 7.1 First-Hand View of Whole Concept for Modular Design at Present; 7.2 Some Practical Applications of "Platform Concept"; 7.3 Concept of "Platform-Based Unit Construction."
- 7.3.1 Variants for Practical Use-in Case of "Mill-Turn"7.3.2 First-Hand View for Facing Research and Engineering Subjects; 7.4 Modular Tooling System; References; Practice and Theory at Machining Point; 8 Various Machining Methods and Tools in General; 8.1 Turning; 8.2 Milling; 8.3 Drilling, Reaming and Tapping; 8.4 Planing and Shaping; 8.5 Broaching; 8.6 Gear Machining; 8.7 Grinding; 9 Mechanisms for Metal Cutting and Grinding; 9.1 Cutting; 9.1.1 Cutting Model; 9.1.2 Cutting Force; 9.1.3 Cutting Temperature; 9.1.4 Tool Wear; 9.1.5 Surface Quality; 9.2 Modelling of Grinding.