DeGarmo's Materials and Processes in Manufacturing, 10th Edition,9780470055120

DeGarmo's Materials and Processes in Manufacturing, 10th Edition

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Edition: 10th
ISBN13: 9780470055120
ISBN10: 047005512X
Format: Hardcover
Pub. Date: 2007-03-01
Publisher(s): Wiley
List Price: $230.05

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Summary

Through nine highly successful editions and now a new Tenth Edition, DeGarmo, Black, and Kohser\'s MATERIALS AND PROCESSES IN MANUFACTURING has built a strong reputation for its exceedingly clear presentation and highly practical approach to materials and processes. Completely revised and updated to reflect all current practices, standards, and materials, the Tenth Edition covers manufacturing processes, manufacturing systems, and materials for manufacturing. Through an exclusive arrangement between Society of Manufacturing Engineers and Wiley the Tenth Edition includes a DVD that is a 2 hr collection of video clips abridged from the SME Fundamental Manufacturing Processes video series. It contains approximately 20 clips of 5-6 minutes each.

Author Biography

J.T. Black received his Ph.D. from Mechanical and Industrial Engineering, University of Illinois, Urbana in 1969, an M.S. in Industrial Engineering from West Virginia University in 1963 and his B.S. in Industrial Engineering, Lehigh University in 1960. JT. is Professor Emeritus from Industrial and Systems Engineering in the Samuel Ginn College of Engineering at Auburn University. He was the Chairman and a Professor of Industrial and Systems Engineering at The University of Alabama-Huntsville He also taught at The Ohio State University, the University of Rhode Island, the University of Vermont, the University of Illinois and West Virginia University. JT. is a Fellow in the American Society of Mechanical Engineers, the Institute of Industrial Engineering and the Society of Manufacturing Engineers. J loves to write music (mostly down home country) and Poetry. Co-authoring with Ron Kohser makes this book a success, just as picking his doubles partner in tennis has given him #1 doubles ranking for 65 years olds in the State of Alabama.

Ron Kohser received his Ph.D. from the Lehigh University Institute for Metal Forming in 1975. Ron is currently in his 32nd year on the faculty of the University of Missouri-Rolla, where he is a Professor of Metallurgical Engineering and Dean's Teaching Scholar. While maintaining a full commitment to classroom instruction, he has served as department chair and Associate Dean for Undergraduate Instruction. He currently teaches courses in metallurgy for  Engineers, Introduction to Manufacturing academic responsibilities, Ron and h is wife Barb operate a Miner Indulgence, a bed-and-breakfast in Rolla, Missouri.

Table of Contents

Prefacep. vii
Introduction to DeGarmo's Materials and Processes in Manufacturingp. 1
Materials, Manufacturing, and the Standard of Livingp. 1
Manufacturing and Production Systemsp. 3
Case Study: Famous Manufacturing Engineersp. 27
Properties of Materialsp. 28
Introductionp. 28
Static Propertiesp. 30
Dynamic Propertiesp. 42
Temperature Effects (Both High and Low)p. 47
Machinability, Formability, and Weldabilityp. 50
Fracture Toughness and the Fracture Mechanics Approachp. 50
Physical Propertiesp. 52
Testing Standards and Concernsp. 53
Case Study: Separation of Mixed Materialsp. 55
Nature of Metals and Alloysp. 56
Structure-Property-Processing-Performance Relationshipsp. 56
The Structure of Atomsp. 57
Atomic Bondingp. 57
Secondary Bondsp. 59
Atom Arrangements in Materialsp. 59
Crystal Structures of Metalsp. 59
Development of a Grain Structurep. 61
Elastic Deformationp. 62
Plastic Deformationp. 63
Dislocation Theory of Slippagep. 64
Strain Hardening or Work Hardeningp. 64
Plastic Deformation in Polycrystalline Metalsp. 65
Grain Shape and Anisotropic Propertiesp. 66
Fracture of Metalsp. 66
Cold Working, Recrystallization, and Hot Workingp. 66
Grain Growthp. 68
Alloys and Alloy Typesp. 68
Atomic Structure and Electrical Propertiesp. 68
Equilibrium Phase Diagrams and the Iron-Carbon Systemp. 71
Introductionp. 71
Phasesp. 71
Equilibrium Phase Diagramsp. 71
Iron-Carbon Equilibrium Diagramp. 79
Steels and the Simplified Iron-Carbon Diagramp. 80
Cast Ironsp. 82
Case Study: The Blacksmith Anvilsp. 88
Heat Treatmentp. 89
Introductionp. 89
Processing Heat Treatmentsp. 89
Heat Treatments Used to Increase Strengthp. 92
Strengthening Heat Treatments for Nonferrous Metalsp. 93
Strengthening Heat Treatments for Steelp. 96
Surface Hardening of Steelp. 109
Furnacesp. 112
Heat Treatment and Energyp. 114
Case Study: A Carpenter's Claw Hammerp. 116
Ferrous Metals and Alloysp. 118
Introduction to History-Dependent Materialsp. 118
Ferrous Metalsp. 118
Ironp. 119
Steelp. 120
Stainless Steelsp. 132
Tool Steelsp. 134
Alloy Cast Steels and Ironsp. 136
Case Study: Interior Tub of a Top-Loading Washing Machinep. 138
Nonferrous Metals and Alloysp. 139
Introductionp. 139
Copper and Copper Alloysp. 140
Aluminum and Aluminum Alloysp. 144
Magnesium and Magnesium Alloysp. 152
Zinc-Based Alloysp. 154
Titanium and Titanium Alloysp. 155
Nickel-Based Alloysp. 157
Superalloys and Other Metals Designed for High-Temperature Servicep. 157
Lead and Tin, and Their Alloysp. 158
Some Lesser Known Metals and Alloysp. 159
Metallic Glassesp. 159
Graphitep. 160
Case Study: Nonsparking Wrenchp. 161
Nonmetallic Materials: Plastics, Elastomers, Ceramics, and Compositesp. 162
Introductionp. 162
Plasticsp. 163
Elastomersp. 173
Ceramicsp. 175
Composite Materialsp. 182
Case Study: Two-Wheel Dolly Handlesp. 194
Material Selectionp. 195
Introductionp. 195
Material Selection and Manufacturing Processesp. 197
The Design Processp. 199
Procedures for Material Selectionp. 200
Additional Factors to Considerp. 203
Consideration of the Manufacturing Processp. 204
Ultimate Objectivep. 205
Materials Substitutionp. 207
Effect of Product Liability on Materials Selectionp. 207
Aids to Material Selectionp. 208
Case Study: Material Selectionp. 212
Measurement and Inspection and Testingp. 213
Introductionp. 213
Standards of Measurementp. 214
Allowance and Tolerancep. 220
Inspection Methods for Measurementp. 227
Measuring Instrumentsp. 229
Vision Systems for Measurementp. 238
Coordinate Measuring Machinesp. 240
Angle-Measuring Instrumentsp. 240
Gages for Attributes Measuringp. 242
Testingp. 245
Visual Inspectionp. 247
Liquid Penetrant Inspectionp. 247
Magnetic Particle Inspectionp. 248
Ultrasonic Inspectionp. 250
Radiographyp. 252
Eddy-Current Testingp. 253
Acoustic Emission Monitoringp. 255
Other Methods of Nondestructive Testing and Inspectionp. 256
Dormant versus Critical Flawsp. 257
Case Study: Measuring An Anglep. 261
Fundamentals of Castingp. 262
Introduction to Materials Processingp. 262
Introduction to Castingp. 263
Casting Terminologyp. 265
The Solidification Processp. 266
Patternsp. 276
Design Considerations in Castingsp. 278
The Casting Industryp. 280
Case Study: The Cast Oil-Field Fittingp. 282
Expendable-Mold Casting Processesp. 283
Introductionp. 283
Sand Castingp. 283
Cores and Core Makingp. 298
Other Expendable-Mold Processes with Multiple-Use Patternsp. 302
Expendable-Mold Processes Using Single-Use Patternsp. 304
Shakeout, Cleaning, and Finishingp. 310
Summaryp. 310
Case Study: Movable and Fixed Jaw Pieces for a Heavy-Duty Bench Visep. 312
Multiple-Use-Mold Casting Processesp. 313
Introductionp. 313
Permanent-Mold Castingp. 313
Die Castingp. 316
Squeeze Casting and Semisolid Castingp. 320
Centrifugal Castingp. 322
Continuous Castingp. 324
Meltingp. 325
Pouring Practicep. 328
Cleaning, Finishing, and Heat Treating of Castingsp. 329
Automation in Foundry Operationsp. 330
Process Selectionp. 330
Case Study: Baseplate for a Household Steam Ironp. 333
Fabrication of Plastics, Ceramics, and Compositesp. 334
Introductionp. 334
Fabrication of Plasticsp. 334
Processing of Rubber and Elastomersp. 346
Processing of Ceramicsp. 347
Fabrication of Composite Materialsp. 351
Case Study: Fabrication of Lavatory Wash Basinsp. 362
Fundamentals of Metal Formingp. 363
Introductionp. 363
Forming Processes: Independent Variablesp. 364
Dependent Variablesp. 366
Independent-Dependent Relationshipsp. 366
Process Modelingp. 367
General Parametersp. 368
Friction and Lubrication under Metalworking Conditionsp. 369
Temperature Concernsp. 371
Case Study: Repairs to a Damaged Propellerp. 380
Bulk Forming Processesp. 381
Introductionp. 381
Classification of Deformation Processesp. 381
Bulk Deformation Processesp. 382
Rollingp. 382
Forgingp. 389
Extrusionp. 401
Wire, Rod, and Tube Drawingp. 406
Cold Forming, Cold Forging, and Impact Extrusionp. 409
Piercingp. 413
Other Squeezing Processesp. 414
Surface Improvement by Deformation Processingp. 416
Case Study: Handle and Body of a Large Ratchet Wrenchp. 420
Sheet-Forming Processesp. 421
Introductionp. 421
Shearing Operationsp. 421
Bendingp. 430
Drawing and Stretching Processesp. 437
Alternative Methods of Producing Sheet-Type Productsp. 451
Pipe Weldingp. 451
Pressesp. 452
Case Study: Fabrication of a One-Piece Brass Flashlight Casep. 459
Powder Metallurgyp. 460
Introductionp. 460
The Basic Processp. 461
Powder Manufacturep. 461
Rapidly Solidified Powder (Microcrystalline and Amorphous)p. 463
Powder Testing and Evaluationp. 463
Powder Mixing and Blendingp. 463
Compactingp. 464
Sinteringp. 468
Hot-Isostatic Pressingp. 469
Other Techniques to Produce High-Density P/M Productsp. 470
Metal Injection Molding (MIM) or Powder Injection Molding (PIM)p. 471
Secondary Operationsp. 473
Properties of P/M Productsp. 475
Design of Powder Metallurgy Partsp. 476
Powder Metallurgy Productsp. 478
Advantages and Disadvantages of Powder Metallurgyp. 478
Process Summaryp. 480
Case Study: Impeller for an Automobile Water Pumpp. 483
Electronic Electrochemical Chemical and Thermal Machining Processesp. 484
Introductionp. 484
Chemical Machining Processesp. 485
Electrochemical Machining Processesp. 504
Electrical Discharge Machiningp. 510
Case Study: Fire Extinguisher Pressure Gagep. 522
Fundamentals of Machining/Orthogonal Machiningp. 523
Introductionp. 523
Fundamentalsp. 524
Energy and Power in Machiningp. 533
Orthogonal Machining (Two Forces)p. 538
Merchant's Modelp. 542
Mechanics of Machining (Statics)p. 543
Shear Strain [Gamma] and Shear Front Angle [phi]p. 545
Mechanics of Machining (Dynamics)p. 547
Summaryp. 556
Case Study: Orthogonal Plate Machining Experiment at Auburn Universityp. 559
Cutting Tools for Machiningp. 560
Introductionp. 560
Cutting-Tool Materialsp. 565
Tool Geometryp. 577
Tool Coating Processesp. 578
Tool Failure and Tool Lifep. 582
Flank Wearp. 583
Economics of Machiningp. 588
Cutting Fluidsp. 591
Case Study: Comparing Tool Materials Based on Tool Lifep. 597
Turning and Boring Processesp. 598
Introductionp. 598
Fundamentals of Turning, Boring, and Facing Turningp. 600
Lathe Design and Terminologyp. 607
Cutting Tools for Lathesp. 614
Workholding in Lathesp. 619
Case Study: Estimating the Machining Time for Turningp. 627
Drilling and Related Hole-Making Processesp. 628
Introductionp. 628
Fundamentals of the Drilling Processp. 629
Types of Drillsp. 631
Tool Holders for Drillsp. 643
Workholding for Drillingp. 645
Machine Tools for Drillingp. 645
Cutting Fluids for Drillingp. 649
Counterboring, Countersinking, and Spot Facingp. 650
Reamingp. 651
Case Study: Bolt-down Leg on a Castingp. 655
Millingp. 656
Introductionp. 656
Fundamentals of Milling Processesp. 656
Milling Tools and Cuttersp. 663
Machines for Millingp. 669
Case Study: HSS versus Tungsten Carbide Millingp. 676
Workholding Devices for Machine Toolsp. 677
Introductionp. 677
Conventional Fixture Designp. 677
Design Stepsp. 680
Clamping Considerationsp. 682
Chip Disposalp. 683
Unloading and Loading Timep. 684
Example of Jig Designp. 684
Types of Jigsp. 686
Conventional Fixturesp. 688
Modular Fixturingp. 690
Setup and Changeoverp. 691
Clampsp. 694
Other Workholding Devicesp. 694
Economic Justification of Jigs and Fixturesp. 698
Case Study: Fixture versus No Fixture in Millingp. 701
Numerical Control (NC) and the A(4) Level of Automationp. 702
Introductionp. 702
Basic Principles of Numerical Controlp. 710
Machining Center Features and Trendsp. 721
Ultra-High-Speed Machining Centers (UHSMCs)p. 725
Summaryp. 726
Case Study: Process Planning for the MfEp. 730
Other Machining Processesp. 731
Introductionp. 731
Introduction to Shaping and Planingp. 731
Introduction to Broachingp. 736
Fundamentals of Broachingp. 737
Broaching Machinesp. 742
Introduction to Sawingp. 743
Introduction to Filingp. 751
Case Study: Cost Estimating-Planing vs. Millingp. 755
Abrasive Machining Processesp. 756
Introductionp. 756
Abrasivesp. 757
Grinding Wheel Structure and Gradep. 763
Grinding Wheel Identificationp. 767
Grinding Machinesp. 771
Honingp. 780
Superfinishingp. 781
Free Abrasivesp. 783
Case Study: Overhead Crane Installationp. 789
Thread and Gear Manufacturingp. 790
Introductionp. 790
Thread Makingp. 795
Internal Thread Cutting-Tappingp. 798
Thread Millingp. 803
Thread Grindingp. 805
Thread Rollingp. 805
Gear Makingp. 808
Gear Typesp. 811
Gear Manufacturingp. 812
Machining of Gearsp. 813
Gear Finishingp. 821
Gear Inspectionp. 823
Case Study: Bevel Gear for a Riding Lawn Mowerp. 826
Fundamentals of Joiningp. 827
Introduction to Consolidation Processesp. 827
Classification of Welding and Thermal Cutting Processesp. 828
Some Common Concernsp. 828
Types of Fusion Welds and Types of Jointsp. 829
Design Considerationsp. 832
Heat Effectsp. 832
Weldability or Joinabilityp. 839
Summaryp. 840
Gas Flame and Arc Processesp. 842
Oxyfuel-Gas Weldingp. 842
Oxygen Torch Cuttingp. 846
Flame Straighteningp. 848
Arc Weldingp. 849
Consumable-Electrode Arc Weldingp. 851
Nonconsumable-Electrode Arc Weldingp. 859
Welding Equipmentp. 864
Arc Cuttingp. 865
Metallurgical and Heat Effects in Thermal Cuttingp. 867
Case Study: Bicycle Frame Construction and Repairp. 870
Resistance and Solid-State Welding Processesp. 871
Introductionp. 871
Theory of Resistance Weldingp. 871
Resistance Welding Processesp. 874
Advantages and Limitations of Resistance Weldingp. 879
Solid-State Welding Processesp. 879
Case Study: Field Repair to a Power Transformerp. 888
Other Welding Processes, Brazing and Solderingp. 889
Introductionp. 889
Other Welding and Cutting Processesp. 889
Surface Modification by Welding-Related Processesp. 898
Brazingp. 901
Solderingp. 909
Adhesive Bonding, Mechanical Fastening, and Joining of Nonmetalsp. 915
Adhesive Bondingp. 915
Mechanical Fasteningp. 924
Joining of Plasticsp. 927
Joining of Ceramics and Glassp. 929
Joining of Compositesp. 929
Case Study: Golf Club Heads with Insertp. 932
Surface Engineeringp. 933
Introductionp. 933
Mechanical Cleaning and Finishing Blast Cleaningp. 940
Chemical Cleaningp. 946
Coatingsp. 948
Vaporized Metal Coatingsp. 958
Clad Materialsp. 958
Textured Surfacesp. 959
Coil-Coated Sheetsp. 959
Edge Finishing and Burrsp. 959
Surface Integrityp. 961
Case Study: Dana Lynn's Fatigue Lessonp. 968
Quality Engineeringp. 969
Introductionp. 969
Determining Process Capabilityp. 970
Inspection to Control Qualityp. 981
Process Capability Determination from Control Chart Datap. 985
Determining Causes for Problems in Qualityp. 986
Summaryp. 996
Case Study: Boring QC Chart Blundersp. 1000
Manufacturing Automation (web-based chapter) (www.wiley.com/college/DeGarmo)
The Enterprise (web-based chapter) (www.wiley.com/college/DeGarmo)
Rapid Prototyping, Tooling And Fabrication (web-based chapter) (www.wiley.com/college/DeGarmo)
Selected References for Additional Study (web-based)
Indexp. 1001
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