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Cover Art
PRINTED BOOKS
Author Boothroyd, G. (Geoffrey), 1932-

Title Fundamentals of machining and machine tools / Geoffrey Boothroyd, Winston A. Knight.

Published Boca Raton : Taylor and Francis, [2006]
©2006

Copies

Location Call No. Status
 UniM ERC  671.35 BOOT    AVAILABLE
Edition 3rd ed.
Physical description 573 pages : illustrations ; 23 cm.
Series Mechanical engineering.
Mechanical engineering (Marcel Dekker, Inc.) ; 198.
Bibliography Includes bibliographical references and index.
Contents Standardization xix -- Introduction to the International (SI) System of Units xix -- Chapter 1 Machine Tools and Machining Operations 1 -- 1.2 Generating Motions of Machine Tools 2 -- 1.3 Machines Using Single-Point Tools 5 -- 1.4 Machines Using Multipoint Tools 24 -- 1.5 Machines Using Abrasive Wheels 45 -- 1.6 Summary of Machine Tool Characteristics and Machining Equations 57 -- Chapter 2 Mechanics of Metal Cutting 69 -- 2.3 Chip Formation 73 -- 2.4 Forces Acting on the Cutting Tool and Their Measurement 78 -- 2.5 Specific Cutting Energy 81 -- 2.6 Plowing Force and the "Size Effect" 82 -- 2.7 Apparent Mean Shear Strength of the Work Material 84 -- 2.8 Chip Thickness 87 -- 2.9 Friction in Metal Cutting 97 -- 2.10 Analytical Modeling of Machining Operations 100 -- Chapter 3 Temperatures in Metal Cutting 121 -- 3.1 Heat Generation in Metal Cutting 121 -- 3.2 Heat Transfer in a Moving Material 123 -- 3.3 Temperature Distribution in Metal Cutting 124 -- 3.4 Measurement of Cutting Temperatures 134 -- Chapter 4 Tool Life and Tool Materials 141 -- 4.2 Progressive Tool Wear 141 -- 4.3 Forms of Wear in Metal Cutting 142 -- 4.4 Tool Material 154 -- 4.5 Tool Geometries 164 -- 4.6 Work Material 165 -- 4.7 High Speed Machining 168 -- 4.8 Hard Machining 171 -- Chapter 5 Cutting Fluids and Surface Roughness 175 -- 5.1 Cutting Fluids 175 -- 5.2 Action of Coolants 176 -- 5.3 Action of Lubricants 179 -- 5.4 Application of Cutting Fluids 183 -- 5.5 Cutting Fluid Maintenance 186 -- 5.6 Environmental Considerations 187 -- 5.7 Disposal of Cutting Fluids 187 -- 5.8 Dry Cutting and Minimum Quantity Lubrication 189 -- 5.9 Surface Roughness 192 -- 5.10 Tool Geometries for Improved Surface Finish 200 -- 5.11 Burr Formation in Machining 200 -- Chapter 6 Economics of Metal-Cutting Operations 211 -- 6.2 Choice of Feed 212 -- 6.3 Choice of Cutting Speed 213 -- 6.4 Tool Life for Minimum Cost and Minimum Production Time 218 -- 6.5 Estimation of Factors Needed to Determine Optimum Conditions 219 -- 6.6 Example of a Constant-Cutting-Speed Operation 221 -- 6.7 Machining at Maximum Efficiency 223 -- 6.8 Facing Operations 225 -- 6.9 Operations with Interrupted Cuts 228 -- 6.10 Economics of Various Tool Materials and Tool Designs 230 -- 6.11 Machinability Data Systems 234 -- 6.12 Limitations of Available Machinability Data 235 -- Chapter 7 Nomenclature of Cutting Tools 249 -- 7.2 Systems of Cutting-Tool Nomenclature 251 -- 7.3 International Standard 255 -- Chapter 8 Chip Control 267 -- 8.2 Chip Breakers 267 -- 8.3 Prediction of Radius of Chip Curvature 274 -- 8.4 Prediction of Chip Breaking Performance 277 -- 8.5 Tool Wear During Chip Breaking 280 -- Chapter 9 Machine Tool Vibrations 283 -- 9.2 Forced Vibrations 284 -- 9.3 Self-Excited Vibrations (Chatter) 292 -- 9.4 Determination of Frequency Response Loci 305 -- 9.5 Dynamic Acceptance Tests for Machine Tools 310 -- 9.6 Improving Machine Tool Stability 311 -- Chapter 10 Grinding 321 -- 10.2 Grinding Wheel 321 -- 10.3 Effect of Grinding Conditions on Wheel Behavior 329 -- 10.4 Determination of the Density of Active Grains 331 -- 10.5 Testing of Grinding Wheels 331 -- 10.6 Dressing and Truing of Grinding Wheels 332 -- 10.7 Analysis of the Grinding Process 333 -- 10.8 Thermal Effects in Grinding 345 -- 10.9 Cutting Fluids in Grinding 348 -- 10.10 Grinding-Wheel Wear 350 -- 10.11 Nonconventional Grinding Operations 351 -- Chapter 11 Manufacturing Systems and Automation 359 -- 11.2 Types of Production 359 -- 11.3 Types of Facilities Layout 360 -- 11.4 Types of Automation 362 -- 11.5 Transfer Machines 364 -- 11.6 Automatic Machines 369 -- 11.7 Numerically Controlled (NC) Machine Tools 381 -- 11.8 Comparison of the Economics of Various Automation Systems 388 -- 11.9 Handling of Components in Batch Production 389 -- 11.10 Flexible Manufacturing Systems 390 -- Chapter 12 Computer-Aided Manufacturing 401 -- 12.2 Scope of CAD/CAM 401 -- 12.3 Process-Planning Tasks 403 -- 12.4 Computer-Aided Process Planning 406 -- 12.5 Processing of NC Programs 412 -- 12.6 Manual Programming of NC Machines 415 -- 12.7 Computer-Aided NC Processing 423 -- 12.8 Numerical Control Processing Languages 425 -- 12.9 NC Programming Using APT-Based Languages 427 -- 12.10 Graphics-Based NC Processing Systems 434 -- Chapter 13 Design for Machining 439 -- 13.2 Standardization 440 -- 13.3 Choice of Work Material 440 -- 13.4 Shape of Work Material 442 -- 13.5 Shape of Component 444 -- 13.6 Assembly of Components 465 -- 13.7 Accuracy and Surface Finish 466 -- 13.8 Summary of Design Guidelines 471 -- 13.9 Cost Estimating for Machined Components 474 -- Chapter 14 Nonconventional Machining Processes 505 -- 14.2 Range of Nonconventional Machining Processes 506 -- 14.3 Ultrasonic Machining 506 -- 14.4 Water-Jet Machining 511 -- 14.5 Abrasive-Jet Machining 514 -- 14.6 Chemical Machining 516 -- 14.7 Electrochemical Machining 518 -- 14.8 Electrolytic Grinding 524 -- 14.9 Electrical-Discharge Machining 525 -- 14.10 Wire Electrical-Discharge Machining 531 -- 14.11 Laser-Beam Machining 534 -- 14.12 Electron-Beam Machining 541 -- 14.13 Plasma-Arc Cutting 543 -- 14.14 Comparative Performance of Cutting Processes 545.
Other author Knight, W. A. (Winston Anthony), 1941-
Subject Machining.
Machine-tools.
ISBN 1574446592 (alk. paper)