MARC details
| 000 -LEADER |
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| fixed length control field |
11863cam a22003854i 4500 |
| 001 - CONTROL NUMBER |
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| control field |
14267229 |
| 003 - CONTROL NUMBER IDENTIFIER |
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| control field |
OSt |
| 005 - DATE AND TIME OF LATEST TRANSACTION |
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| control field |
20180726120558.0 |
| 008 - FIXED-LENGTH DATA ELEMENTS--GENERAL INFORMATION |
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| fixed length control field |
060215s2007 flua b 001 0 eng |
| 010 ## - LIBRARY OF CONGRESS CONTROL NUMBER |
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| LC control number |
2006005465 |
| 020 ## - INTERNATIONAL STANDARD BOOK NUMBER |
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| International Standard Book Number |
0849372887 (alk. paper) |
| 020 ## - INTERNATIONAL STANDARD BOOK NUMBER |
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| International Standard Book Number |
9780849372889 |
| 035 ## - SYSTEM CONTROL NUMBER |
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| System control number |
(OCoLC)ocm64427351 |
| 035 ## - SYSTEM CONTROL NUMBER |
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| System control number |
(OCoLC)64427351 |
| 040 ## - CATALOGING SOURCE |
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| Original cataloging agency |
DLC |
| Transcribing agency |
DLC |
| Modifying agency |
BAKER |
| -- |
C#P |
| -- |
YDXCP |
| -- |
OCLCQ |
| -- |
BTCTA |
| -- |
DLC |
| Description conventions |
rda |
| 042 ## - AUTHENTICATION CODE |
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| Authentication code |
pcc |
| 050 00 - LIBRARY OF CONGRESS CALL NUMBER |
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| Classification number |
TJ1185 |
| Item number |
.E448 2007 |
| 082 00 - DEWEY DECIMAL CLASSIFICATION NUMBER |
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| Classification number |
671.35 |
| Edition number |
22 |
| Item number |
E.H.F |
| 100 1# - MAIN ENTRY--PERSONAL NAME |
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| Personal name |
El-Hofy, Hassan, |
| Relator term |
author. |
| 245 10 - TITLE STATEMENT |
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| Title |
Fundamentals of machining processes : |
| Remainder of title |
conventional and nonconventional processes / |
| Statement of responsibility, etc |
Hassan El-Hofy. |
| 264 #1 - PUBLICATION, DISTRIBUTION, ETC. (IMPRINT) |
|---|
| Place of publication, distribution, etc |
Boca Raton, FL : |
| Name of publisher, distributor, etc |
CRC/Taylor & Francis, |
| Date of publication, distribution, etc |
2007. |
| 300 ## - PHYSICAL DESCRIPTION |
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| Extent |
452 pages : |
| Other physical details |
illustartions ; |
| Dimensions |
25 cm |
| 336 ## - CONTENT TYPE |
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| Content type term |
text |
| Source |
rdacontent |
| 337 ## - MEDIA TYPE |
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| Media type term |
unmediated |
| Source |
rdamedia |
| 338 ## - CARRIER TYPE |
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| Carrier type term |
volume |
| Source |
rdacarrier |
| 504 ## - BIBLIOGRAPHY, ETC. NOTE |
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| Bibliography, etc |
Includes bibliographical references (p. 443-445) and index. |
| 505 0# - FORMATTED CONTENTS NOTE |
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| Formatted contents note |
Chapter 1 Machining Processes <br/>1.1 Introduction <br/>1.2 Historical background <br/>1.3 Classification of machining processes <br/> 1.3.1 Machining by cutting <br/> 1.3.2 Machining by abrasion <br/> 1.3.3 Machining by erosion <br/> 1.3.3.1 Chemical and electrochemical machining <br/> 1.3.3.2 Thermal machining <br/> 1.3.4 Combined machining <br/> 1.3.5 Micromachining <br/>1.4 Review questions <br/>Chapter 2 Cutting Tools<br/>2.1 Introduction <br/>2.2 Tool geometry <br/> 2.2.1 American (ASA) system <br/> 2.2.2 Orthogonal system <br/> 2.2.3 Relationship between ASA and orthogonal systems\ <br/> 2.2.4 Effect of tool setting <br/> 2.2.5 Effect of tool feed <br/> 2.2.6 Solved example <br/>2.3 Tool materials <br/> 2.3.1 Requirements of tool materials <br/> 2.3.2 Classification of tool materials <br/> 2.3.2.1 Ferrous tool materials <br/> 2.3.2.2 Nonferrous tool materials <br/> 2.3.2.3 Nanocoated tools <br/>2.4 Problems <br/>2.5 Review questions <br/>Chapter 3 Mechanics of Orthogonal Cutting<br/>3.1 Introduction <br/>3.2 Chip formation <br/> 3.2.1 Discontinuous chip <br/> 3.2.2 Continuous chip <br/> 3.2.3 Continuous chip with built up edge <br/>3.3 Orthogonal cutting <br/> 3.3.1 Force diagram <br/> 3.3.2 Shear angle <br/> 3.3.3 Shear stress <br/> 3.3.4 Velocity relations <br/> 3.3.5 Shear strain <br/> 3.3.6 Rate of strain <br/> 3.3.7 The theory of Ernst and Merchant <br/> 3.3.8 The theory of Lee and Shaffer <br/> 3.3.9 Experimental verification <br/> 3.3.10 Energy considerations <br/> 3.3.11 Solved example <br/>3.4 Problems <br/>3.4 Review questions <br/>Chapter 4 Economics of Machining by Cutting<br/>4.1 Heat generation in metal cutting <br/> 4.1.1 Introduction <br/> 4.1.2 Cutting temperature <br/> 4.1.3 Temperature at shear plane <br/> 4.1.4 Factors affecting tool temperature <br/> 4.1.4.1 Machining conditions <br/> 4.1.4.2 Cutting tool <br/> 4.1.4.3 Cutting fluids <br/> 4.1.5 Temperature measurements <br/> 4.1.6 Solved example <br/>4.2 Tool wear <br/> 4.2.1 Introduction <br/> 4.2.2 Forms of tool wear <br/> 4.2.2.1 Crater wear <br/> 4.2.2.2 Flank wear <br/> 4.2.3 Impact of tool wear <br/>4.3 Tool life <br/> 4.3.1 Formulation of tool life equation <br/> 4.3.2 Criteria for judging the end of tool life <br/> 4.3.3 Factors affecting tool life <br/> 4.3.3.1 Cutting conditions <br/> 4.3.3.2 Tool geometry <br/> 4.3.3.3 Built up edge formation <br/> 4.3.3.4 Workpiece material <br/> 4.3.4 Solved example <br/>4.4 Economics of metal cutting <br/> 4.4.1 Cutting speed for minimum cost <br/> 4.4.2 Cutting speed for minimum time <br/> 4.4.3 Cutting speed for maximum profit rate <br/> 4.4.4 Solved example <br/>4.5 Problems <br/>4.6 Review questions <br/>Chapter 5 Cutting Cylindrical Surfaces<br/> <br/>5.1 Introduction <br/>5.2 Turning <br/> 5.2.1 Cutting tools <br/> 5.2.2 Cutting speed, feed , and time <br/> 5.2.3 Elements of undeformed chip <br/> 5.2.4 Cutting forces, power, and removal rate <br/> 5.2.5 Factors affecting turning forces <br/> 5.2.5.1 Factors related to the tool <br/> 5.2.5.2 Factors related to the workpiece <br/> 5.2.5.3 Factors related to cutting conditions <br/> 5.2.6 Surface finish <br/> 5.2.7 Assigning cutting variables <br/> 5.2.8 Solved example <br/>5.3 Drilling <br/> 5.3.1 Drilling tool <br/> 5.3.2 Elements of the undeformed chip <br/> 5.3.3 Cutting forces, torque and power <br/> 5.3.4 Factors affecting forces and torque <br/> 5.3.4.1 Factors related to the workpiece <br/> 5.3.4.2 Factors related to the drill geometry <br/> 5.3.4.3 Factors related to drilling conditions <br/> 5.3.5 Drilling time <br/> 5.3.6 Dimensional accuracy <br/> 5.3.7 Surface quality <br/> 5.3.8 Selection of drilling conditions <br/> 5.3.9 Solved example <br/>5.4 Reaming <br/> 5.4.1 Finish reamers <br/> 5.4.2 Elements of undeformed chip <br/> 5.4.3 Forces, torque and power <br/> 5.4.4 Reaming time <br/> 5.4.5 Selection of reamer diameter <br/> 5.4.6 Selection of reaming conditions <br/>5.5 Problems <br/>5.6 Review questions <br/>Chapter 6 Cutting Flat Surfaces<br/> <br/>6.1 Introduction <br/>6.2 Shaping and planing <br/> 6.2.1 Cutting tools <br/> 6.2.2 Elements of the undeformed chip <br/> 6.2.3 Cutting forces, power, and removal rate <br/> 6.2.4 Shaping time <br/> 6.2.5 Selection of cutting variables <br/> 6.2.6 Solved example <br/>6.3 Milling <br/> 6.3.1 Horizontal (plain) milling <br/> 6.3.1.1 Plain milling cutters <br/> 6.3.1.2 Cutting speed and feed rate <br/> 6.3.1.3 Elements of the undeformed chip <br/> 6.3.1.4 Forces, power, and removal rate <br/> 6.3.1.5 Surface roughness in plain milling <br/> 6.3.1.6 Milling time <br/> 6.3.1.7 Factors affecting cutting forces <br/> 6.3.1.8 Solved example <br/> 6.3.2 Face milling <br/> 6.3.2.1 Face milling cutters <br/> 6.3.2.2 Elements of the undeformed chip <br/> 6.3.2.3 Cutting forces and power <br/> 6.3.2.4 Surface roughness <br/> 6.3.2.5 Milling time <br/> 6.3.2.6 Solved example <br/> 6.3.3 Selection of milling conditions <br/>6.4 Broaching <br/> 6.4.1 Broach tool <br/> 6.4.2 Chip formation in broaching <br/> 6.4.3 Broaching forces and power <br/> 6.4.4 Broaching time <br/> 6.4.5 Accuracy and surface finish <br/> 6.4.6 Broach design <br/> 6.4.7 Solved example <br/>6.5 Problems <br/>6.6 Review questions <br/>Chapter 7 High Speed Machining<br/> <br/>7.1 Introduction <br/>7.2 History of HSM <br/>7.3 Chip formation in HSM <br/>7.4 Characteristics of HSM <br/>7.5 Applications <br/>7.6 Advantages of HSM <br/>7.7 Limitations of HSM <br/>7.8 Review questions <br/>Chapter 8 Machining by Abrasion <br/>8.1 Introduction <br/>8.2 Grinding <br/> 8.2.1 Grinding wheels <br/> 8.2.1 Abrasive material <br/> 8.2.2 Grain size <br/> 8.2.3 Wheel bond <br/> 8.2.4 Wheel grade <br/> 8.2.5 Wheel structure <br/> 8.2.6 Grinding wheel designation <br/> 8.2.7 Wheel Shapes <br/> 8.2.8 Selection of grinding wheels <br/> 8.2.9 Wheel balancing <br/> 8.2.10 Truing and dressing <br/> 8.2.11 Temperature in grinding <br/> 8.2.2 Wheel wear <br/> 8.2.3 Economics of grinding <br/> 8.2.4 Surface roughness <br/>8.3 Surface Grinding <br/> 8.3.1 Elements of undeformed chip <br/> 8.3.2 Cutting forces, power, and removal rate <br/> 8.3.3 Factors affecting the grinding forces <br/> 8.3.4 Grinding time <br/> 8.3.5 Solved example <br/> 8.3.6 Surface grinding operations <br/> 8.3.6.1 Plain (periphery) and face grinding with reciprocating feed <br/> 8.3.6.2 Surface grinding with a rotating table <br/> 8.3.6.3 Creep feed grinding <br/>8.4 Cylindrical Grinding <br/> 8.4.1 Elements of undeformed chip <br/> 8.4.2 Forces, power, and removal rate <br/> 8.4.3 Factors affecting the grinding forces <br/> 8.4.4 Factors affecting surface roughness <br/> 8.4.5 Solved example <br/> 8.4.6 Cylindrical grinding operations <br/> 8.4.6.1 External cylindrical grinding <br/> 8.4.6.2 External Centerless grinding <br/> 8.4.6.3 Internal cylindrical grinding <br/> 8.4.6.4 Internal centerless grinding <br/>8.5 Wheel speed and workpiece feed <br/>8.6 Problems <br/>8.7 Review questions <br/>Chapter 9 Abrasive Finishing Processes<br/>9.1 Introduction <br/>9.2 Honing <br/> 9.2.1 Honing kinematics <br/> 9.2.2 Process components <br/> 9.2.3 Process description <br/> 9.2.4 Process characteristics <br/>9.3 Lapping <br/> 9.3.1 Process components <br/> 9.3.2 Mechanics of lapping <br/> 9.3.3 Process characteristics <br/> 9.3.4 Lapping operations <br/>9.4 Superfinishing <br/> 9.4.1 Kinematics of superfinishing <br/> 9.4.2 Process characteristics <br/>9.5 Polishing <br/>9.6 Buffing <br/>9.7 Review questions <br/>Chapter 10 Modern Abrasive Processes<br/>10.1 Ultrasonic machining <br/> 10.1.1 Mechanism of material removal <br/> 10.1.2 Solved example <br/> 10.1.3 Factors affecting material removal rate <br/> 10.1.4 Dimensional accuracy <br/> 10.1.5 Surface quality <br/> 10.1.6 Applications <br/>10.2 Abrasive jet machining <br/> 10.2.1 Material removal rate <br/> 10.2.2 Applications <br/>10.3 Abrasive water jet machining <br/> 10.3.1 Process characteristics <br/>10.4 Abrasive flow machining <br/>10.5 Magnetic abrasive machining <br/> 10.5.1 Process characteristics <br/> 10.5.2 Applications <br/>10.6 Problems <br/>10.7 Review questions <br/>Chapter 11 Machining by Electrochemical Erosion<br/> <br/>11.1 Introduction <br/>11.2 Principles of ECM <br/>11.3 Advantages and disadvantages of ECM <br/>11.4 Material removal rate by ECM <br/>11.5 Solved example <br/>11.6 ECM equipment <br/>11.7 Process characteristics <br/>11.8 Economics of ECM <br/>11.9 ECM applications <br/>11.10 Chemical machining <br/>11.11 Problems <br/>11.12 Review questions <br/>Chapter 12 Machining by Thermal Erosion<br/> <br/>12.1 Introduction <br/>12.2 Electrodischarge machining <br/> 12.2.1 Mechanism of material removal <br/> 12.2.2 EDM machine <br/> 12.2.3 Material removal rates <br/> 12.2.4 Surface integrity <br/> 12.2.5 Heat affected zone <br/> 12.2.6 Applications <br/>12.3 Laser beam machining <br/> 12.3.1 Material removal mechanism <br/> 12.3.2 Applications <br/>12.4 Electron beam machining <br/> 12.4.1 Material removal process <br/> 12.4.2 Applications <br/>12.5 Ion beam machining <br/>12.6 Plasma beam machining <br/> 12.6.1 Material removal rate <br/> 12.6.2 Applications <br/>12.7 Problems <br/>12.8 Review questions <br/>Chapter 13 Combined Machining Processes<br/> <br/>13.1 Introduction <br/>13.2 Electrochemical assisted processes <br/> 13.2.1 Electrochemical grinding <br/> 13.2.2 Electrochemical honing <br/> 13.2.3 Electrochemical superfinishing <br/> 13.2.4 Electrochemical buffing <br/> 13.2.5 Ultrasonic assisted electrochemical machining <br/>13.3 Thermal assisted processes <br/> 13.3.1 Electro erosion dissolution machining <br/> 13.3.2 Abrasive electrodischarge grinding <br/> 13.3.3 Abrasive electrical discharge machining\ <br/> 13.3.4 EDM with ultrasonic assistance <br/> 13.3.5 Electrochemical discharge grinding: <br/> 13.3.6 Brush erosion dissolution mechanical machining <br/>13.4 Problems <br/>13.5 Review questions <br/>Chapter 14 Micromachining <br/> <br/>14.1 Introduction <br/>14.2 Micromachining by cutting <br/> 14.2.1 Diamond micro turning <br/> 14.2.2 Micro drilling <br/>14.3 Abrasive micromachining <br/> 14.3.1 Micro grinding <br/> 14.3.2 Magnetic abrasive micromachining and finishing <br/> 14.3.3 Micro superfinishing <br/> 14.3.4 Micro lapping <br/> 14.3.5 Microultrasonic machining <br/>14.4 Nonconventional micromachining <br/> 14.4.1 Micromachining by thermal erosion <br/> 14.4.1.1 Micro EDM <br/> 14.4.1.2 Laser micromachining <br/> 14.4.2 Micromachining by electrochemical erosion <br/> 14.4.3 Combined micromachining processes <br/>14.5 Review questions <br/>15 References <br/>16 Subject index |
| 520 ## - SUMMARY, ETC. |
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| Summary, etc |
Fundamentals of Machining Processes is the first book to collect all of the major conventional and nonconventional machining methods into a single reference, from cutting and abrasive processes to erosion, hybrid, and micromachining processes. It begins with an introduction to the various machining processes, followed by the mechanics and economics of cutting, abrasive, erosion, and micromachining processes. The author discusses the advantages, limitations, and applications for each process along with the factors influencing its economics. Extensive worked examples, illustrations, and exercises reinforce a practical understanding of the concepts presented throughout the book.<br/><br/> |
| 650 #0 - SUBJECT ADDED ENTRY--TOPICAL TERM |
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| Topical term or geographic name as entry element |
Machining. |
| 856 41 - ELECTRONIC LOCATION AND ACCESS |
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| Materials specified |
Table of contents only |
| Uniform Resource Identifier |
<a href="http://www.loc.gov/catdir/toc/ecip069/2006005465.html">http://www.loc.gov/catdir/toc/ecip069/2006005465.html</a> |
| 856 42 - ELECTRONIC LOCATION AND ACCESS |
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| Materials specified |
Publisher description |
| Uniform Resource Identifier |
<a href="http://www.loc.gov/catdir/enhancements/fy0654/2006005465-d.html">http://www.loc.gov/catdir/enhancements/fy0654/2006005465-d.html</a> |
| 906 ## - LOCAL DATA ELEMENT F, LDF (RLIN) |
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| a |
7 |
| b |
cbc |
| c |
orignew |
| d |
1 |
| e |
ecip |
| f |
20 |
| g |
y-gencatlg |
| 942 ## - ADDED ENTRY ELEMENTS (KOHA) |
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| Source of classification or shelving scheme |
Dewey Decimal Classification |
| Koha item type |
Books |