Materials science and engineering:
Gespeichert in:
| Hauptverfasser: | , |
|---|---|
| Format: | Buch |
| Sprache: | English |
| Veröffentlicht: |
Hoboken, NJ
Wiley
2011
|
| Ausgabe: | 8. ed., SI version |
| Schlagworte: | |
| Online-Zugang: | Inhaltsverzeichnis |
| Beschreibung: | getr. Zähl. Ill., graph. Darst. |
| ISBN: | 9780470505861 |
Internformat
MARC
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| 020 | |a 9780470505861 |9 978-0-470-50586-1 | ||
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| 100 | 1 | |a Callister, William D. |d 1940- |e Verfasser |0 (DE-588)135540461 |4 aut | |
| 245 | 1 | 0 | |a Materials science and engineering |c William D. Callister ; David G. Rethwisch |
| 250 | |a 8. ed., SI version | ||
| 264 | 1 | |a Hoboken, NJ |b Wiley |c 2011 | |
| 300 | |a getr. Zähl. |b Ill., graph. Darst. | ||
| 336 | |b txt |2 rdacontent | ||
| 337 | |b n |2 rdamedia | ||
| 338 | |b nc |2 rdacarrier | ||
| 650 | 4 | |a Materials | |
| 650 | 0 | 7 | |a Werkstoffkunde |0 (DE-588)4079184-1 |2 gnd |9 rswk-swf |
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| 689 | 0 | |5 DE-604 | |
| 700 | 1 | |a Rethwisch, David G. |e Verfasser |4 aut | |
| 856 | 4 | 2 | |m Digitalisierung UB Bayreuth |q application/pdf |u http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=018880849&sequence=000002&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA |3 Inhaltsverzeichnis |
| 943 | 1 | |a oai:aleph.bib-bvb.de:BVB01-018880849 | |
Datensatz im Suchindex
| DE-BY-862_location | 2000 |
|---|---|
| DE-BY-FWS_call_number | 2000/ZM 3000 C162(8) |
| DE-BY-FWS_katkey | 414700 |
| DE-BY-FWS_media_number | 083000504199 |
| _version_ | 1806695512584224768 |
| adam_text |
Contents
List of Symbols
xxi
1.
Introduction
Learning Objectives
2
1.1
Historical Perspective
2
1.2
Materials Science and Engineering
3
1.3
Why Study Materials Science and Engineering?
5
1.4
Classification of Materials
5
Materials of Importance—Carbonated Beverage
Containers
10
1.5
Advanced Materials
11
1.6
Modern Materials' Needs
13
1.7
Processing/Structure/Properties/Performance
Correlations
14
Summary
16
References
17
Question
17
2.
Atomic Structure and Interatomic Bonding
18
Learning Objectives
19
2.1
Introduction
19
Atomic Structure
19
2.2
Fundamental Concepts
19
2.3
Electrons in Atoms
20
2.4
The Periodic Table
26
Atomic Bondinc in Solids
28
2.5
Bonding Forces and Energies
28
2.6
Primary Interatomic Bonds
30
2.7
Secondary Bonding or van
der Waals
Bonding
34
Materials of Importance—Water (Its Volume Expansion Upon
Freezing)
37
2.8
Molecules
38
Summary
38
Equation Summary
39
Processing/Structure/Properties/Performance Summary
40
Important Terms and Concepts
40
References
40
Questions and Problems
41
• xiii
xiv * Contents
3.
The Structure of Crystalline Solids
44
3.1
3.2
3.3
3.4
3.5
3.6
3.7
3.8
3.9
3.10
3.11
3.12
3.13
3.14
3.15
3.16
3.17
Learning Objectives
45
Introduction
45
Crystal Structures
46
Fundamental Concepts
46
Unit Cells
47
Metallic Crystal Structures
47
Density Computations
51
Polymorphism and Allotropy
52
Crystal Systems
52
Materials of Importance—Tin
(Its
Allotropie
Transformation)
53
Crystallographic Points, Directions,
an» Planes
55
Point Coordinates
55
Crystallographic Directions
57
Crystallographic Planes
64
Linear and Planar Densities
68
Close-Packed Crystal
Structures
70
Crystalline and Noncrystalline
Materials
72
Single Crystals
72
Polycrystalline Materials
72
Anisotropy
73
Х
-Ray Diffraction: Determination of
Crystal Structures
74
Noncrystalline Solids
79
Summary
80
Equation Summary
82
Processing/Structure/Properties/Performance
Summary
83
Important Terms and Concepts
83
References
83
Questions and Problems
84
4.7
Bulk or Volume Defects
106
4.8
Atomic Vibrations
106
Microscopic Examination
107
4.9
Basic Concepts of Microscopy
107
4.10
Microscopic Techniques
108
4.11
Grain Size Determination
113
Summary
114
Equation Summary
116
Processing/Structure/Properties/Performance
Summary
117
Important Terms and Concepts
118
References
118
Questions and Problems
118
Design Problems
121
5.
Diffusion
122
4.
Imperfections in Solids
90
Learning Objectives
123
5.1
Introduction
123
5.2
Diffusion Mechanisms
125
5.3
Steady-State Diffusion
126
5.4
Nonsteady-State Diffusion
128
5.5
Factors That Influence
Diffusion
132
5.6
Diffusion in Semiconducting
Materials
137
Materials of Importance—Aluminum for
Integrated Circuit Interconnects
140
5.7
Other Diffusion Paths
142
Summary
142
Equation Summary
143
Processing/Structure/Properties/Performance
Summary
144
Important Terms and Concepts
144
References
144
Questions and Problems
145
Design Problems
148
6.
Mechanical Properties of Metals
150
Learning Objectives
91
Learning Objectives
151
4.1
Introduction
91
6.1
Introduction
151
Point Defects
92
6.2
Concepts of Stress and
4.2
Vacancies and Self-Interstitials
92
Strain
152
4.3
Impurities in Solids
93
Elastic Deformation
156
4.4
Specification of Composition
95
6.3
Stress-Strain Behavior
156
Miscellaneous Imperfections
99
6.4
Anelasticity
159
4.5
Dislocations-Linear Defects
99
6.5
Elastic Properties of Materials
160
4.6
Interfacial
Defects
102
Plastic Deformation
162
Materials of Importance—Catalysts (and
6.6
Tensile Properties
162
Surface Defects)
105
6.7
True Stress and Strain
170
Contento
· xv
6.8
Elastic
Recovery
After Plastic
Deformation
173
6.9
Compressive,
Shear, and
Torsionai
Deformations
173
6.10
Hardness
174
Property Variability and Design/Safety
Factors
180
6.11
Variability of Material Properties
180
6.12
Design/Safety Factors
182
Summary
184
Equation Summary
186
Processing/Structure/Properties/Performance
Summary
187
Important Terms and Concepts
188
References
188
Questions and Problems
188
Design Problems
195
7.
Dislocations and Strengthening
Mechanisms
197
8.
Failure
234
Learning Objectives
Introduction
198
198
201
7.1
Dislocations and Plastic
Deformation
199
7.2
Basic Concepts
199
7.3
Characteristics of Dislocations
7.4
Slip Systems
202
7.5
Slip in Single Crystals
204
7.6
Plastic Deformation of Polycrystalline
Materials
208
7.7
Deformation by Twinning
210
Mechanisms of Strengthening in
Metals
211
7.8
Strengthening by Grain Size
Reduction
212
7.9
Solid-Solution Strengthening
213
7.10
Strain Hardening
215
Recovery, Recrystallization, and Grain
Growth
218
7.11
Recovery
219
7.12
Recrystallization
219
7.13
Grain Growth
224
Summary
225
Equation Summary
228
Processing/Structure/Properties/Performance
Summary
228
Important Terms and Concepts
229
References
229
Questions and Problems
229
Design Problems
233
8.1
8.2
8.3
8.4
8.5
8.6
8.7
8.8
8.9
8.10
8.11
8.12
8.13
8.14
8.15
Learning Objectives
235
Introduction
235
Fracture
236
236
Fundamentals of Fracture
Ductile Fracture
236
Brittle Fracture
239
Principles of Fracture Mechanics
242
Fracture Toughness Testing
250
Fatigue
255
Cyclic Stresses
255
The S-N Curve
257
Crack Initiation and Propagation
259
Factors That Affect Fatigue Life
262
Environmental Effects
264
Creep
265
Generalized Creep Behavior
265
Stress and Temperature Effects
266
Data Extrapolation Methods
268
Alloys for High-Temperature Use
269
Summary
270
Equation Summary
273
Important Terms and Concepts
274
References
275
Questions and Problems
275
Design Problems
279
9.
Phase Diagrams
281
Learning Objectives
282
9.1
Introduction
282
Definitions and Basic Concepts
283
9.2
Solubility Limit
283
9.3
Phases
284
9.4
Microstructure
284
9.5
Phase Equilibria
285
9.6
One-Component (or Unary) Phase
Diagrams
286
Binary Phase Diagrams
287
9.7
Binary Isomorphous Systems
287
9.8
Interpretation of Phase
Diagrams
289
9.9
Development of
Microstructure
in
Isomorphous Alloys
294
9.10
Mechanical Properties of Isomorphous
Alloys
297
9.11
Binary Eutectic Systems
298
Materials of Importance
—
Lead-Free
Solders
304
xvi * Contents
9.12 Development
of
Microstructure
in
Eutectic
Alloys
305
9.13
Equilibrium Diagrams Having
Intermediate Phases or
Compounds
311
9.14
Eutectoid and Peritectic
Reactions
313
9.15
Congruent Phase Transformations
315
9.16
Ceramic and Ternary Phase
Diagrams
316
9.17
The Gibbs Phase Rule
316
The Iron-Carbon System
319
9.18
The Iron-Iron Carbide (Fe-FejC) Phase
Diagram
319
9.19
Development of
Microstructure
in
Iron-Carbon Alloys
322
9.20
The Influence of Other Alloying
Elements
330
Summary
331
Equation Summary
333
Processing/Structure/Properties/Performance
Summary
334
Important Terms and Concepts
335
References
335
Questions and Problems
335
10.
Phase Transformations: Development
of
Microstructure
and Alteration of
Mechanical Properties
342
Learning Objectives
343
10.1
Introduction
343
Phase Transformations
344
10.2
Basic Concepts
344
10.3
The Kinetics of Phase
Transformations
344
10.4
Metastable Versus Equilibrium
States
355
Microstructural
and Property Changes in
Iron-Carbon Alloys
356
10.5
Isothermal Transformation
Diagrams
356
10.6
Continuous Cooling Transformation
Diagrams
367
10.7
Mechanical Behavior of Iron-Carbon
Alloys
370
10.8
Tempered Martensite
375
10.9
Review of Phase Transformations and
Mechanical Properties for Iron-Carbon
Alloys
378
Materials of Importance—Shape-Memory
Alloys
379
Summary
381
Equation Summary
383
Processing/Structure/Properties/Performance
Summary
384
Important Terms and Concepts
385
References
385
Questions and Problems
385
Design Problems
390
11.
Applications and Processing of Metal
Alloys
391
Learning Objectives
392
11.1
Introduction
392
Types of Metal Alloys
393
11.2
Ferrous Alloys
393
11.3
Nonferrous Alloys
406
Materials of Importance—Metal Alloys
Used for Euro Coins
416
Fabrication of Metals
417
11.4
Forming Operations
417
11.5
Casting
419
11.6
Miscellaneous Techniques
420
Thermal Processing of Metals
422
11.7
Annealing Processes
422
11.8
Heat Treatment of Steels
425
11.9
Precipitation Hardening
436
Summary
442
Processing/Structure/Properties/Performance
Summary
444
Important Terms and Concepts
444
References
447
Questions and Problems
447
Design Problems
449
12.
Structures and Properties of
Ceramics
451
Learning Objectives
452
12.1
Introduction
452
Ceramic Structures
453
12.2
Crystal Structures
453
12.3
Silicate Ceramics
464
12.4
Carbon
468
Materials of Importance—Carbon
Nanotubes
471
12.5
Imperfections in Ceramics
472
12.6
Diffusion in Ionic Materials
476
12.7
Ceramic Phase Diagrams
476
Contents * xvii
Mechanical Properties
480
12.8
Brittle Fracture of Ceramics
480
12.9
Stress-Strain Behavior
485
12.10
Mechanisms of Plastic
Deformation
487
12.11
Miscellaneous Mechanical
Considerations
489
Summary
491
Equation Summary
494
Processing/Structure/Properties/Performance
Summary
494
Important Terms and Concepts
495
References
495
Questions and Problems
495
Design Problems
500
13.
Applications and Processing of
Ceramics
501
Learning Objectives
502
13.1
Introduction
502
Types and
Applications
of Ceramics
503
13.2
Glasses
503
13.3
Glass-Ceramics
503
13.4
Clay Products
505
13.5
Refractories
505
13.6
Abrasives
507
13.7
Cements
508
13.8
Advanced Ceramics
509
Materials of Importance—Piezoelectric
Ceramics
512
Fabrication and Processing of
Ceramics
512
13.9
Fabrication and Processing of Glasses and
Glass-Ceramics
513
13.10
Fabrication and Processing of Clay
Products
518
13.11
Powder Pressing
523
13.12
Tape Casting
525
Summary
526
Processing/Structure/Properties/Performance
Summary
528
Important Terms and Concepts
529
References
530
Questions and Problems
530
Design Problem
531
14.
Polymer Structures
532
Learning Objectives
533
14.1
Introduction
533
14.2
Hydrocarbon Molecules
534
14.3
Polymer Molecules
535
14.4
The Chemistry of Polymer
Molecules
537
14.5
Molecular Weight
541
14.6
Molecular Shape
544
14.7
Molecular Structure
545
14.8
Molecular Configurations
547
14.9
Thermoplastic and Thermosetting
Polymers
550
14.10
Copolymers
551
14.11
Polymer Crystallinity
552
14.12
Polymer Crystals
556
14.13
Defects in Polymers
558
14.14
Diffusion in Polymeric Materials
559
Summary
561
Equation Summary
563
Processing/Structure/Properties/Performance
Summary
564
Important Terms and Concepts
565
References
565
Questions and Problems
565
15.
Characteristics, Applications, and
Processing of Polymers
569
Learning Objectives
570
15.1
Introduction
570
Mechanical Behavior of Polymers
570
15.2
Stress-Strain Behavior
570
15.3
Macroscopic Deformation
573
15.4
Viscoelastic Deformation
574
15.5
Fracture of Polymers
578
15.6
Miscellaneous Mechanical
Characteristics
580
Mechanisms of Deformation and for
Strengthening of Polymers
581
15.7
Deformation of Semicrystalline
Polymers
581
15.8
Factors That Influence the Mechanical
Properties of Semicrystalline
Polymers
582
Materials of Importance—Shrink-Wrap
Polymer Films
587
15.9
Deformation of Elastomers
588
Crystallization, Melting, and Glass
Transition Phenomena in Polymers
590
15.10
Crystallization
590
15.11
Melting
592
15.12
The Glass Transition
592
15.13
Melting and Glass Transition
Temperatures
592
xviii · Contents
15.14
Factors
That Influence Melting and Glass
Transition Temperatures
594
Polymer Types
596
15.15
Plastics
596
Materials of Importance—Phenolic
Billiard Balls
598
15.16
Elastomers
599
15.17
Fibers
601
15.18
Miscellaneous Applications
601
15.19
Advanced Polymeric Materials
603
Poi.ymek Synthesis and Processing
607
15.20
Polymerization
607
15.21
Polymer Additives
610
15.22
Forming Techniques for Plastics
611
15.23
Fabrication of Elastomers
614
15.24
Fabrication of Fibers and Films
614
Summary
616
Equation Summary
619
Processing/Structure/Properties/Performance
Summary
619
Important Terms and Concepts
620
References
620
Questions and Problems
621
Design Questions
625
16.
Composites
626
Learning Objectives
627
16.1
Introduction
627
Par ticle-Reinforced Composites
629
16.2
Large-Particle Composites
630
16.3
Dispersion-Strengthened Composites
634
Fiber-Reinforced Composites
634
16.4
Influence of Fiber Length
634
16.5
Influence of Fiber Orientation and
Concentration
636
16.6
The Fiber Phase
645
16.7
The Matrix Phase
646
16.8
Polymer-Matrix Composites
647
16.9
Metal-Matrix Composites
653
16.10
Ceramic-Matrix Composites
655
16.11
Carbon-Carbon Composites
656
16.12
Hybrid Composites
657
16.13
Processing of Fiber-Reinforced
Composites
657
Structural Composites
660
16.14
Laminar Composites
660
16.15
Sandwich Panels
661
Materials of Importance—Nanocomposites
in Tennis Balls
662
Summary
663
Equation Summary
666
Important Terms and Concepts
667
References
667
Questions and Problems
668
Design Problems
671
17.
Corrosion and Degradation of
Materials
673
Learning Objectives
674
17.1
Introduction
674
Corrosion of Metals
675
17.2
Electrochemical Considerations
675
17.3
Corrosion Rates
682
17.4
Prediction of Corrosion Rates
683
17.5
Passivity
690
17.6
Environmental Effects
692
17.7
Forms of Corrosion
692
17.8
Corrosion Environments
700
17.9
Corrosion Prevention
701
17.10
Oxidation
703
Corrosion of Ceramic Materials
706
Degradation of Polymers
707
17.11
Swelling and Dissolution
707
17.12
Bond Rupture
709
17.13
Weathering
710
Summary
711
Equation Summary
713
Important Terms and Concepts
714
References
715
Questions and Problems
715
Design Problems
718
18.
Electrical Properties
719
Learning Objectives
720
18.1
Introduction
720
Electrical Conduction
721
18.2
Ohm's Law
721
18.3
Electrical Conductivity
721
18.4
Electronic and Ionic Conduction
722
18.5
Energy Band Structures in Solids
722
18.6
Conduction in Terms of Band and Atomic
Bonding Models
725
18.7
Electron Mobility
727
18.8
Electrical Resistivity of Metals
728
18.9
Electrical Characteristics of Commercial
Alloys
731
Materials of Importance—Aluminum
Electrical Wires
731
Contents ■ xix
Semiconductivitv
733
18.10
Intrinsic Semiconduction
733
18.11
Extrinsic Semiconduction
736
18.12
The Temperature Dependence of Carrier
Concentration
740
18.13
Factors That Affect Carrier
Mobility
742
18.14
The Hall Effect
746
18.15
Semiconductor Devices
748
Electrical Conduction in Ionic Ceramics
and in polymers
754
18.16
Conduction in Ionic Materials
755
18.17
Electrical Properties of Polymers
756
Diixecthic Behavior
757
18.18
Capacitance
757
18.19
Field Vectors and Polarization
759
18.20
Types of Polarization
762
18.21
Frequency Dependence of the Dielectric
Constant
764
18.22
Dielectric Strength
765
18.23
Dielectric Materials
765
other ki.ectrical characteristics
01
Materials
765
18.24
Ferroelectricity
766
18.25
Piezoelectricity
767
Summary
767
Equation Summary
770
Processing/Structure/Properties/Performance
Summary
772
Important Terms and Concepts
773
References
774
Questions and Problems
774
Design Problems
779
19.
Thermal Properties
781
Learning Objectives
782
19.1
Introduction
782
19.2
Heat Capacity
782
19.3
Thermal Expansion
785
Materials of Importance—Invar
and Other Low-Expansion
Alloys
788
19.4
Thermal Conductivity
789
19.5
Thermal Stresses
792
Summary
794
Equation Summary
795
Important Terms and Concepts
796
References
796
Questions and Problems
796
Design Problems
798
20.
Magnetic Properties
800
Learning Objectives
801
20.1
Introduction
801
20.2
Basic Concepts
801
20.3
Diamagnetism and Paramagnetism
805
20.4
Ferromagnetism
807
20.5
Antiferromagnetism
and Ferrimagnetism
809
20.6
The Influence of Temperature on
Magnetic Behavior
813
20.7
Domains and Hysteresis
814
20.8
Magnetic Anisotropy
818
20.9
Soft Magnetic Materials
819
Materials of Importance—An Iron-Silicon
Alloy That Is Used in Transformer
Cores
821
20.10
Hard Magnetic Materials
822
20.11
Magnetic Storage
825
20.12
Superconductivity
828
Summary
832
Equation Summary
834
Important Terms and Concepts
835
References
835
Questions and Problems
835
Design Problems
839
21.
Optical Properties
840
Learning Objectives
841
21.1
Introduction
841
Basic Concepts
841
21.2
Electromagnetic Radiation
841
21.3
Light Interactions with Solids
843
21.4
Atomic and Electronic Interactions
844
Optfcai. Properties of Metals
845
Optical Properties of Nosmetals
846
21.5
Refraction
846
21.6
Reflection
848
21.7
Absorption
849
21.8
Transmission
852
21.9
Color
853
21.10
Opacity and Translucency in
Insulators
854
Applications of Optical Phenomena
8оЛ
21.11
Luminescence
855
Materials of Importance —Light-Emitting
Diodes
856
21.12
Photoconductivity
858
21.13
Lasers
858
XX
Contents
21.14
Optical Fibers in Communications
863
Summary
865
Equation Summary
868
Important Terms and Concepts
869
References
869
Questions and Problems
869
Design Problem
871
22.
Economic, Environmental, and
Societal Issues in Materials
Science and Engineering
872
Learning Objectives
873
22.1
Introduction
873
Economic Considerations
873
22.2
Component Design
874
22.3
Materials
874
22.4
Manufacturing Techniques
875
Environmental and Societal
Considerations
875
22.5
Recycling Issues in Materials Science
and Engineering
878
Materials of Importance—Biodegradable
and Biorenewable Polymers/
Plastics
881
Summary
884
References
884
Design Questions
885
Appendix A The International System of
Units
(SI) Al
Appendix
В
Properties of Selected Engineering
Materials
A3
B.I Density
A3
B.2 Modulus of Elasticity A6
B.3 Poisson's Ratio
AIO
B.4 Strength and Ductility All
B.5 Plane Strain Fracture Toughness
Al
6
B.6 Linear Coefficient of Thermal
Expansion
Al
7
B.7 Thermal Conductivity A21
B.8 Specific Heat A24
B.9 Electrical Resistivity A26
B.10 Metal Alloy Compositions A29
Appendix
С
Costs and Relative Costs for
Selected Engineering Materials
АЗІ
Appendix
D
Repeat Unit Structures for
Common Polymers
A36
Appendix
E
Glass Transition and Melting
Temperatures for Common Polymeric
Materials A40
Mechanical Engineering Online
Support Module
Biomaterials
Online Support
Module
Glossary GI
Answers to Selected Problems SO
Index
ƒ/ |
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| discipline | Physik Werkstoffwissenschaften Werkstoffwissenschaften / Fertigungstechnik |
| edition | 8. ed., SI version |
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| indexdate | 2024-08-07T04:51:46Z |
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| isbn | 9780470505861 |
| language | English |
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| spellingShingle | Callister, William D. 1940- Rethwisch, David G. Materials science and engineering Materials Werkstoffkunde (DE-588)4079184-1 gnd |
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| title | Materials science and engineering |
| title_auth | Materials science and engineering |
| title_exact_search | Materials science and engineering |
| title_full | Materials science and engineering William D. Callister ; David G. Rethwisch |
| title_fullStr | Materials science and engineering William D. Callister ; David G. Rethwisch |
| title_full_unstemmed | Materials science and engineering William D. Callister ; David G. Rethwisch |
| title_short | Materials science and engineering |
| title_sort | materials science and engineering |
| topic | Materials Werkstoffkunde (DE-588)4079184-1 gnd |
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Inhaltsverzeichnis
THWS Schweinfurt Zentralbibliothek Lesesaal
| Signatur: |
2000 ZM 3000 C162(8) |
|---|---|
| Exemplar 1 | ausleihbar Verfügbar Bestellen |