MATERIALS PROCEESSING AND MANUFACTURING SCIENCEPDF电子书下载
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- 作 者:RAJIV ASTHANA
- 出 版 社:ELSEVIER
- 出版年份:2006
- ISBN:
- 页数:628 页
图书介绍: 查看图书目录点击购买PDF全本电子书 上一篇:ПРОЕКТИРОВАНИЕ下一篇:Applications of natural products in food 《MATERIALS PROCEESSING AND MANUFACTURING SCIENCE》目录 标签:
1 Materials Behavior1
Introduction1
Process Innovation as Driver of Technological Growth2
Single-Crystal Turbine Blades2
Copper Interconnects for Microelectronic Packages2
Tungsten Filament for Light Bulbs3
Tailor-Welded Blanks3
Atomic Bonding in Materials4
Crystal Structure6
Defects in Crystalline Solids10
Annealing14
Diffusion in Crystalline Solids17
Mechanical Behavior21
Strengthening of Metals26
Fracture Mechanics27
Fatigue31
Creep34
Deformation Processing35
Heat Treatment35
Precipitation Hardening44
Thermal Properties45
Electrical Properties48
Dielectric and Magnetic Properties50
Optical Properties52
2 Casting and Solidification57
Casting Techniques57
Expendable-Mold Casting58
Green Sand Casting58
Thermal Considerations65
Dry Sand and Skin-Dried Molds69
Sodium Silicate-CO2 Process69
Vacuum Molding70
Shell-Molding71
Investment Casting72
Lost-Foam Casting74
Other Expendable Mold Processes75
Multiple-Use Mold Casting75
Permanent Mold Casting75
Die Casting and Semisolid Casting77
Squeeze Casting83
Centrifugal Casting86
Continuous Casting86
Single-Crystal Casting and Directionally Solidified Structure86
Fluidity95
Melt Treatments98
Metallic Foams and Gasars100
Melting Furnaces102
Mold-Filling Time102
Gate and Runner Area Calculation105
Temperature Drop in Metal Flow106
Riser Design111
Naval Research Lab Method113
Riser Size Estimation Using Chvorinov’s Rule116
Solidification Rate119
Sand Mold119
Die Casting122
Stages of Solidication—Nucleation and Growth125
Nucleation125
Homogeneous Nucleation126
Heterogeneous Nucleation130
Nucleation and Grain Refinement133
Growth During Solidification134
Atomic Structure at the Solidification Interface134
Growth in Pure Metals137
Growth of Single-Phase Alloys139
Constitutional Supercooling and Interface Instability142
Eutectic Solidification146
Solidification of Industrial Castings:149
Grain Structure149
Segregation151
Constrained Solidification in Small Regions153
Rapid Solidification and Metallic Glass157
Weld Solidification158
Solidification Under Reduced Gravity160
Interactions of Solidification Front with Insoluble Particles162
3 Powder Metallurgy and Ceramic Forming167
Crystalline Ceramics and Glasses167
Powder Metallurgy172
Powder Production172
Solidification of Atomized Droplets174
Other Methods of Powder Manufacture176
Particle Size and Shape177
Powder Mixing179
Powder Compaction180
Dynamics of Powder Densification181
Isostatic Compaction and Hot Isostatic Compaction(HIP)185
Analysis of Pressure Distribution in Uniaxial Compaction185
Pressure Distribution in an Annular Cylinder187
Powder Injection-Molding(PIM)188
Rheological Considerations in Powder Injection-Molding191
Settling and Segregation in Powder Injection-Molding Slurries195
Sintering197
Mechanism of Sintering198
Other Considerations in Sintering203
Homogenization203
Coarsening205
Ceramic Forming207
Slip-Casting207
Tape-Casting213
Ceramic Extrusion215
Electrolytic and Electrophoretic Deposition216
Glass Forming220
Pore Characterization224
Properties of Ceramics227
Mechanical Properties227
Thermal Properties232
Electrical and Electronic Properties235
Oxidation and Corrosion Resistance237
Bioceramics and Porous Ceramic Foams240
Joining of Ceramics241
4 Surface,Subsurface,and Interface Phenomena247
Surface Forces248
Electrostatic Forces248
Van der Waals Forces250
Contact Angle,Surface Tension,and Young’s Equation251
Grain Boundaries in Polycrystals254
Three-Phase Equilibrium255
Microscopic Angles and Precursor Film257
Roughness and Chemical Inhomogeneity257
Dynamic Contact Angles260
Immersion of Solids in Liquids264
Gas-Solid Attachment and Gas Stabilization268
Agglomeration268
Capillary Flow273
Capillary Pressure273
Capillary Rise275
Wettability and Capillary Rise at High Temperatures280
Effect of Oxide on Liquid280
Alloying and Surface Coatings282
Reactive Infiltration283
Reactive Penetration285
Capillary Flow with Unsteady Contact Angle and Pore Size286
Joining289
Adhesion296
Capillarity in Miscellaneous Other Processes298
Wear,Friction,and Lubrication301
Corrosion307
5 Coatings and Surface Engineering313
Design and Development of Coatings313
Surface Pretreatments314
Coating Techniques316
Vapor-Phase Deposition316
Nucleation and Growth in Vapor Condensation320
Ion-Nitriding324
Thermal Spray-Coating325
Physical Considerations in Thermal Spraying326
Structure,Properties,and Applications of Thermal Spray Coatings332
Electroplating338
Physical Considerations338
Plating Practice339
Electroless Plating343
Anodizing345
Coatings on Powders and Fibers348
Organic Coatings—Paints and Powders348
Powder Coatings351
Electrostatic Powder Spray351
Electrocoating352
Conversion Coatings353
Vitreous Ceramic Coatings353
Surface Hardening355
Selective Hardening355
Diffusion Hardening357
Laser Surface-Engineering361
Laser-Materials Interaction361
Types of Lasers362
Lasers as Surface-Engineering Tools363
Characteristics of Laser Surface Engineering364
Laser Surface Heating368
Laser Surface Melting372
Solidification Structure374
Laser Surface Alloying377
Laser-Induced Ceramic Coating381
Laser-Cladding382
Laser-Induced Combustion Synthesis387
Laser Surface-Vaporization387
Laser Surface-Texturing388
Laser Surface Cleaning390
Laser Surface-Marking391
Laser Surface-Shocking391
Miscellaneous Laser Processes391
Residual Stress State of Laser-Treated Surface392
Promise of Lasers in Surface-Engineering394
6 Composite Materials397
Definition and Classification397
Fibers398
Glass399
Boron399
Carbon Fiber400
Organic Fibers402
Metallic Fibers402
Ceramic Fibers403
Interface406
Fiber Strengthening409
Polymer-Matrix Composites410
Matrix410
Properties of Polymeric Matrices414
Polymer Composites414
Ceramic-Matrix Composites418
Carbon-Carbon Composites423
Chemical Vapor Infiltration425
Metal-Matrix Composites429
Heat-Resistant Composites429
Dispersion-Strengthened Composites429
In Situ Composites433
Particulate and Fiber-Reinforced High-Temperature Alloys436
Fabrication of Metal-Matrix Composites439
Solid-State Fabrication440
Liquid-State Fabrication445
Infiltration445
Reactive Infiltration448
Stirring Techniques453
Low-Cost Composites by Casting455
Other Liquid-Phase Techniques457
Wettability and Bonding458
Ni-Base Composites458
Properties460
Interface Strength460
Fiber Strength467
Stiffness,Strength,and Ductility469
Fatigue and Fracture Toughness475
Other Properties476
Creep476
Vibration Damping477
Wear and Friction477
Thermal Properties480
Thermal Fatigue482
Oxidation Resistance483
7 Semiconductor Manufacturing485
Introduction485
Integrated Circuit Applications and Market485
Feature Size and Wafer Size486
Technology Trends489
Fundamentals of Semiconductors489
Crystal Structure of Silicon489
Energy Band Theory493
The Fermi Level495
Intrinsic Semiconductor495
Extrinsic Semiconductor497
Dopant Concentration and Conductivity498
Diodes498
Bipolar Junction Transistors(BJT)500
Metal Oxide Field Effect Transistors(MOSFET)503
Crystal Growth and Wafer Preparation504
Czokhralski Method505
Floating-Zone Method506
Defects507
Wafer Preparation510
Initial Steps510
Wafer Slicing510
Postslicing Polishing and Cleaning511
Oxidation512
Properties of Silicon Dioxide512
Oxidation Techniques512
Oxidation Furnaces and Factors Affecting Oxide Growth514
Characterization of Oxide Films515
Simulation517
Diffusion517
Fick’s Diffusion Equations518
Constant Source Diffusion519
Limited Source Diffusion519
Diffusion Coefficient520
Concentration-Dependent Diffusion520
Lateral Diffusion521
Junction Depth521
Sheet Resistance521
Simulation522
Ion Implantation522
Ion Implanter522
Channeling523
Implantation Damage524
Annealing524
Rapid Thermal Annealing524
Photolithography524
Introduction524
Optical Lithography526
The Clean Room526
The Pattern Transfer Process527
Exposure Systems530
Masks and Resists532
Thin Film Deposition532
Vacuum Deposition Techniques532
Physical Vapor Deposition532
Evaporation533
Sputtering534
Reactive Sputtering535
Radio Frequency(RF)Sputtering535
Magnetron Sputtering535
Collimated Sputtering535
Ionized Magnetron Sputtering536
Chemical Vapor Deposition536
Epitaxy537
Molecular Beam Epitaxy537
Nonvacuum Deposition Techniques537
Chemical Bath Deposition537
Spin-On Deposition538
Etching538
Introduction538
Etching Types538
Wet Etching538
Dry Etching539
Ion Beam Milling539
Plasma Etching540
Reactive Ion Etching540
Metallization540
Ohmic Contacts540
Metals and Alloys541
Junction Spiking541
Electromigration542
Copper Metallization542
Damascene Technology543
Chemical Mechanical Polishing(CMP)544
Silicide544
Packaging546
Traditional Packaging546
Advanced Packaging547
Yield and Reliability548
Yield548
Processing Effects548
Circuit Sensitivities548
Point Defects549
Reliability549
8 Nanomaterials and Nanomanufacturing551
Introduction551
Nanotubes,Nanoparticles,and Nanowires552
Methods Using Solid Precursors554
Inert Gas Condensation554
Pulsed Laser Ablation555
Ion Sputtering557
Methods Using Liquid or Vapor Precursor557
Chemical Vapor Synthesis557
Laser Pyrolysis557
Synthesis of Nanopaicles by a Chemical Methods557
Nanoparticles:Biomedical Applications558
Tissue Engineering560
Manipulation of Cells and Biomolecules561
Protein Detection562
Cancer Therapy562
Semiconductor Nanowires563
General Synthetic Strategies563
Fabrication of Semiconductor Nanowires565
Fabrication of Metal Nanowires569
Electrochemical Fabrication of Metal Nanowires571
Negative Template Methods571
Anodic porous Alumina572
Fabrication of Metal Nanowires573
Positive Template Method575
Carbon Nanotube Template575
DNA Template575
Polymer Templates576
Applications of the Nanowires579
Magnetic Materials and Devices579
Optical Applications580
Biological Assays580
Chemical Sensors581
Carbon Nanotubes581
Structure of the Carbon Nanotube583
Synthesis of Carbon Nanotubes585
Growth Mechanisms of Carbon Nanotubes587
Carbon Nanotube Composite Materials588
Polymer NanoComposites590
Ceramic NanoComposites591
Ceramic Nanotube Composite Systems593
Ceramic-Coated MWNTs and SWNTs594
Conductive Ceramics595
Nanostructured Metals and Metal Composites595
Solid-State Powder-Based Processing596
Liquid-Phase Processing597
Surface,Interface,Nucleation and Reactivity599
Agglomeration,Dispersion and Sedimentation601
Properties602
Strength and Modulus602
Nanotribology603
Carbon Nanotubes:Biosensor Applications603
FET-Based Biosensors604
Aligned Nanoelectrode Array-Based Electronic Chips605
Index615
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摘要:本文以《MATERIALS PROCEESSING AND MANUFACTURING SCIENCE.pdf电子书版文档下载》为中心,从文档内容、应用领域、下载途径和未来发展趋势四个方面进行了详细阐述,旨在为读者提供全面了解该文档的途径和方法。
1、文档内容
《MATERIALS PROCEESSING AND MANUFACTURING SCIENCE.pdf》是一本关于材料加工与制造科学的电子书,涵盖了材料加工的基本原理、工艺方法、设备应用以及制造过程中的质量控制等方面。该书内容丰富,图文并茂,适合从事材料加工与制造领域的研究人员、工程师和大学生阅读。
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此外,该书还介绍了国内外材料加工与制造领域的研究动态和发展趋势,为读者提供了广阔的视野。
2、应用领域
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3、下载途径
《MATERIALS PROCEESSING AND MANUFACTURING SCIENCE.pdf》的电子书版可以通过以下途径下载:
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4、未来发展趋势
随着科技的不断发展,材料加工与制造科学在未来将呈现出以下发展趋势:
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(3)个性化:个性化定制将成为材料加工与制造领域的新趋势,满足消费者多样化的需求。
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总结:
《MATERIALS PROCEESSING AND MANUFACTURING SCIENCE.pdf》是一本关于材料加工与制造科学的优秀电子书,内容丰富、实用性强。本文从文档内容、应用领域、下载途径和未来发展趋势四个方面对该书进行了详细阐述,旨在为读者提供全面了解该书的途径和方法。
随着科技的不断发展,材料加工与制造科学将在未来发挥更加重要的作用。该书为广大从事材料加工与制造领域的研究人员、工程师和大学生提供了宝贵的参考资料。
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