Engineering materials: 1 An introduction to properties, applications, and design
Gespeichert in:
| Hauptverfasser: | , |
|---|---|
| Format: | Buch |
| Sprache: | English |
| Veröffentlicht: |
Oxford [u.a.]
Pergamon Press
2012
|
| Ausgabe: | 4. ed. |
| Schriftenreihe: | International series on materials science and technology.
... |
| Schlagworte: | |
| Online-Zugang: | Inhaltsverzeichnis Klappentext |
| Beschreibung: | Includes bibliographical references (p. 465 - 466) and index Hier auch später erschienene, unveränderte Nachdrucke |
| Beschreibung: | XVIII, 472 S. Ill., zahlr. graph. Darst. |
| ISBN: | 9780080966656 |
Internformat
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| 245 | 1 | 0 | |a Engineering materials |n 1 |p An introduction to properties, applications, and design |c by Michael F. Ashby and David R. H. Jones |
| 250 | |a 4. ed. | ||
| 264 | 1 | |a Oxford [u.a.] |b Pergamon Press |c 2012 | |
| 300 | |a XVIII, 472 S. |b Ill., zahlr. graph. Darst. | ||
| 336 | |b txt |2 rdacontent | ||
| 337 | |b n |2 rdamedia | ||
| 338 | |b nc |2 rdacarrier | ||
| 490 | 0 | |a International series on materials science and technology. |v ... | |
| 500 | |a Includes bibliographical references (p. 465 - 466) and index | ||
| 500 | |a Hier auch später erschienene, unveränderte Nachdrucke | ||
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Datensatz im Suchindex
| DE-BY-862_location | 2000 |
|---|---|
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| DE-BY-FWS_media_number | 083000516341 |
| _version_ | 1806176622993211392 |
| adam_text | Contents
PREFACE
TO THE FOURTH EDITION
..................................................xiii
GENERAL INTRODUCTION
....................................................................xv
CHAPTER
1
Engineering Materials and Their Properties
...................1
1.1
Introduction
...........................................................................1
1.2
Examples of Materials Selection
..........................................3
Part A Price and Availability
CHAPTER
2
The Price and Availability of Materials
.........................15
2.1
Introduction
.........................................................................15
2.2
Data for Material Prices
......................................................15
2.3
The Use-Pattern of Materials
.............................................18
2.4
Ubiquitous Materials
...........................................................19
2.5
Exponential Growth and Consumption
Doubling-Time
.....................................................................20
2.6
Resource Availability
..........................................................21
2.7
The Future
...........................................................................23
2.8
Conclusion
...........................................................................24
Part
В
The Elastic Moduli
CHAPTER
3
The Elastic Moduli
..........................................................29
3.1
Introduction
.........................................................................29
3.2
Definition of Stress
..............................................................30
3.3
Definition of Strain
..............................................................34
3.4
Hooke s Law
........................................................................36
3.5
Measurement of Young s Modulus
....................................36
3.6
Data for Young s Modulus
..................................................38
Worked Example
.................................................................38
A Note on Stresses and Strains in
3
Dimensions
..............42
Contents
Elastic
Bending of Beams
...................................................47
Mode
1
Natural Vibration Frequencies
.............................50
Elastic Buckling of Struts
...................................................52
CHAPTER
4
Bonding between Atoms
................................................55
4.1
Introduction
.........................................................................55
4.2
Primary Bonds
.....................................................................56
4.3
Secondary Bonds
.................................................................61
4.4
The Condensed States of Matter
.......................................62
4.5
Interatomic Forces
..............................................................63
CHAPTER
5
Packing of Atoms in Solids
.............................................67
5.1
Introduction
.......................................................................67
5.2
Atom Packing in Crystals
.................................................68
5.3
Close-Packed Structures and Crystal Energies
...............68
5.4
Crystallography
.................................................................70
5.5
Plane Indices
......................................................................72
5.6
Direction Indices
................................................................72
5.7
Other Simple Important
Crystal Structures
..............................................................74
5.8
Atom Packing in Polymers
................................................75
5.9
Atom Packing in Inorganic Glasses
.................................77
5.10
The Density of Solids
........................................................77
CHAPTER
6
The Physical Basis of Young s Modulus
........................83
6.1
Introduction
.........................................................................83
6.2
ModuU of Crystals
...............................................................83
6.3
Rubbers and the Glass Transition
Temperature
........................................................................86
6.4
Composites
..........................................................................87
Worked Example
.................................................................90
CHAPTER
7
Case Studies in Modulus-Limited Design
.....................95
7.1
Case Study
1:
Selecting Materials for Racing
Yacht Masts
.........................................................................95
7.2
Case Study
2:
Designing a Mirror for a Large
Reflecting Telescope
...........................................................98
7.3
Case Study
3:
The
ChaĽenger
Space
Shuttle Disaster
.................................................................102
Worked Example
...............................................................108
Contents
Part C Yield Strength, Tensile Strength,
and Ductility
CHAPTER
8
Yield Strength, Tensile Strength, and Ductility
..........115
8.1
Introduction
.......................................................................115
8.2
Linear and Nonlinear Elasticity
........................................116
8.3
Load-Extension Curves for Nonelastic (Plastic)
Behavior
.............................................................................117
8.4
True Stress-Strain Curves for Plastic Flow
.....................119
8.5
Plastic Work
.......................................................................121
8.6
Tensile Testing
..................................................................121
8.7
Data
....................................................................................122
8.8
A Note on the Hardness Test
...........................................125
Revision of Terms and Useful Relations
..........................129
CHAPTER
9
Dislocations and Yielding in Crystals
..........................135
9.1
Introduction
.......................................................................135
9.2
The Strength of a Perfect Crystal
.....................................135
9.3
Dislocations in Crystals
....................................................137
9.4
The Force Acting on a Dislocation
...................................140
9.5
Other Properties of Dislocations
......................................143
CHAPTER
10
Strengthening Methods and Plasticity
of Polycrystals
...............................................................147
10.1
Introduction
.....................................................................147
10.2
Strengthening Mechanisms
............................................148
10.3
Solid Solution Hardening
................................................148
10.4
Precipitate and Dispersion Strengthening
....................149
10.5
Work-Hardening
..............................................................150
10.6
The Dislocation Yield Strength
......................................151
10.7
Yield in Polycrystals
........................................................151
10.8
Final Remarks
..................................................................154
CHAPTER
11
Continuum Aspects of Plastic Flow
.............................157
11.1
Introduction
.....................................................................157
11.2
The Onset of Yielding and the Shear Yield
Strength,
к
.......................................................................158
11.3
Analyzing the Hardness Test
.........................................160
11.4
Plastic Instability: Necking in Tensile
Loading
............................................................................161
Plastic Bending of Beams, Torsion of Shafts,
and Buckling of Struts
....................................................168
Contents
CHAPTER
12
Case Studies in Yield-Limited Design
.........................171
12.1
Introduction
.....................................................................171
12.2
Case Study
1:
Elastic Design
—
Materials
for Springs
........................................................................171
12.3
Case Study
2:
Plastic Design
—
Materials
for Pressure Vessels
........................................................176
12.4
Case Study
3:
Large-Strain Plasticity
—
Metal Rolling
...................................................................178
Part
D
Fast Fracture, Brittle Fracture,
and Toughness
CHAPTER
13
Fast Fracture and Toughness
......................................187
13.1
Introduction
.....................................................................187
13.2
Energy Criterion for Fast Fracture
.................................187
13.3
Data for Gc and
2^...........................................................192
У
Values
...........................................................................198
К
Conversions
..................................................................203
CHAPTER
14
Micromechanisms of Fast Fracture
.............................205
14.1
Introduction
.....................................................................205
14.2
Mechanisms of Crack Propagation
1 :
Ductile Tearing
................................................................206
14.3
Mechanisms of Crack Propagation
2:
Cleavage
..........................................................................208
14.4
Composites, Including Wood
..........................................210
14.5
Avoiding Brittle Alloys
....................................................211
Worked Example
.............................................................212
CHAPTER
15
Probabilistic Fracture of Brittle Materials
...................219
15.1
Introduction
.....................................................................219
15.2
The Statistics of Strength
...............................................220
15.3
The Weibull Distribution
................................................222
15.4
The Modulus of Rupture
.................................................224
Worked Example
.............................................................225
CHAPTER
16
Case Studies in Fracture
..............................................229
16.1
Introduction
.....................................................................229
16.2
Case Study
1:
Fast Fracture of an Ammonia
Tank
.................................................................................229
16.3
Case Study
2:
Explosion of
a
Perspex
Pressure
Window During Hydrostatic Testing
.............................233
Contents
16.4
Case Study
3:
Cracking of a Foam Jacket
on a Liquid Methane Tank
.............................................235
Worked Example
.............................................................240
Part
E
Fatigue Failure
CHAPTER
17
Fatigue Failure
..............................................................249
17.1
Introduction
.....................................................................249
17.2
Fatigue of Uncracked Components
................................250
17.3
Fatigue of Cracked Components
....................................254
17.4
Fatigue Mechanisms
.......................................................255
Worked Example
.............................................................259
CHAPTER
18
Fatigue Design
..............................................................265
18.1
Introduction
.....................................................................265
18.2
Fatigue Data for Uncracked
Components
.....................................................................266
18.3
Stress Concentrations
.....................................................266
18.4
The Notch Sensitivity Factor
..........................................267
18.5
Fatigue Data for Welded Joints
......................................269
18.6
Fatigue Improvement Techniques
.................................270
18.7
Designing Out Fatigue Cycles
.......................................272
Worked Example
.............................................................274
CHAPTER
19
Case Studies in Fatigue Failure
...................................287
19.1
CaseStudy
1:
The Comet Air Disasters
........................287
19.2
Case Study
2:
The
Eschede
Railway Disaster
..............................................................293
19.3
Case Study
3:
The Safety of the Stretham
Engine
..............................................................................298
Part
F
Creep Deformation and Fracture
CHAPTER
20
Creep and Creep Fracture
............................................311
20.1
Introduction
.....................................................................311
20.2
Creep Testing and Creep Curves
...................................315
20.3
Creep Relaxation
.............................................................318
20.4
Creep Damage and Creep Fracture
...............................319
20.5
Creep-Resistant Materials
..............................................320
Worked Example
.............................................................321
Contents
CHAPTER
21
Kinetic Theory of
Diffusion...........................................325
21.1
Introduction
.....................................................................325
21.2
Diffusion and Fick s Law
................................................326
21.3
Data for Diffusion Coefficients
.......................................332
21.4
Mechanisms of Diffusion
................................................334
CHAPTER
22
Mechanisms of Creep and Creep-Resistant
Materials
........................................................................337
22.1
Introduction
.....................................................................337
22.2
Creep Mechanisms: Metals and Ceramics
....................338
22.3
Creep Mechanisms: Polymers
........................................343
22.4
Selecting Materials to Resist Creep
...............................345
Worked Example
.............................................................345
CHAPTER
23
The Turbine Blade—A Case Study
in Creep-Limited Design
..............................................351
23.1
Introduction
.....................................................................351
23.2
Properties Required of a Turbine
Blade
................................................................................352
23.3
Nickel-Based Super-Alloys
..............................................354
23.4
Engineering Developments
—
Blade
Cooling
.............................................................................357
23.5
Future Developments: High-Temperature
Ceramics
..........................................................................359
23.6
Cost Effectiveness
...........................................................359
Worked Example
.............................................................361
Part
G
Oxidation and Corrosion
CHAPTER
24
Oxidation of Materials
..................................................367
24.1
Introduction
.....................................................................367
24.2
The Energy of Oxidation
................................................368
24.3
Rates of Oxidation
...........................................................368
24.4
Data
..................................................................................371
24.5
Micromechanisms
...........................................................372
CHAPTER
25
Case Studies in Dry Oxidation
.....................................377
25.1
Introduction
.....................................................................377
25.2
Casestudy
1:
Making Stainless Alloys
.........................377
25.3
Case Study
2:
Protecting Turbine Blades
.....................378
25.4
A Note on Joining Operations
........................................382
Contents
CHAPTER
26
Wet Corrosion of Materials
...........................................385
26.1
Introduction
.....................................................................385
26.2
Wet Corrosion
..................................................................386
26.3
Voltage Differences as the Driving Force for
Wet Oxidation
..................................................................387
26.4
Pourbaix (Electrochemical Equilibrium)
Diagrams
..........................................................................388
26.5
Some Examples
...............................................................390
26.6
A Note on Standard Electrode Potentials
......................394
26.7
Localized Attack
..............................................................395
Rates of Uniform Metal Loss
..........................................399
CHAPTER
27
Case Studies in Wet Corrosion
.....................................401
27.1
Case Study
1:
Protecting Ships Hulls
from Corrosion
.................................................................401
27.2
Case Study
2:
Rusting of a Stainless Steel
Water Filter
......................................................................405
27.3
Case Study
3:
Corrosion in Reinforced
Concrete
...........................................................................408
27.4
A Note on Small Anodes and Large Cathodes
..............410
Worked Example
.............................................................411
Part
H
Friction, Abrasion, and Wear
CHAPTER
28
Friction and Wear
..........................................................417
28.1
Introduction
.....................................................................417
28.2
Friction between Materials
............................................418
28.3
Data for Coefficients of Friction
.....................................420
28.4
Lubrication
.......................................................................422
28.5
Wear of Materials
............................................................423
28.6
Surface and Bulk Properties
...........................................425
CHAPTER
29
Case Studies in Friction and Wear
..............................431
29.1
Introduction
.....................................................................431
29.2
Case Study
1 :
The Design of Journal
Bearings
...........................................................................431
29.3
Case Study
2:
Materials for Skis and
Sledge Runners
...............................................................437
29.4
Case Study
3:
High-Friction Rubber
..............................438
Contents
CHAPTER
30
Final Case Study: Materials and Energy
in Car Design
.................................................................443
30.1
Introduction
.....................................................................443
30.2
Energy and Carbon Emissions
.......................................444
30.3
Ways of Achieving Energy Economy
.............................444
30.4
Material Content of a Car
...............................................445
30.5
Alternative Materials
......................................................445
30.6
Production Methods
........................................................451
30.7
Conclusions
.....................................................................453
APPENDIX Symbols and Formulae
.................................................455
REFERENCES
.........................................................................................465
INDEX
.....................................................................................................467
MICHAEL F. ASHBY / DAVID R. H. JONES
FOURTH EDITION
AN
INTRODUCTION TO PROPERTIES,
APPLICATIONS, AND DESIGN
Widely adopted around the world, Engineering Materials
1
is a core materials science and engineering text
for third- and fourth-year undergraduate students; it provides a broad introduction to the mechanical and
environmental properties of materials used in a wide range of engineering applications. The text is deliberately
concise, with each chapter designed to cover the content of one lecture. As in previous editions, chapters
are arranged in groups dealing with particular classes of properties, each group covering property definitions,
measurement, underlying principles, and materials selection techniques. Every group concludes with a chapter
of case studies that demonstrate practical engineering problems involving materials.
Engineering Materials
1,
Fourth Edition, is perfect as a stand-alone text for a one-semester course in engineering
materials or a first text with its companion Engineering Materials
2:
An Introduction to
Microstructures
and
Processing, Fourth Edition, in a two-semester course or sequence.
NEW AND KEY FEATURES INCLUDE:
•
Many new design case studies and design-based examples
•
Revised and expanded treatments of stress-strain, fatigue,
creep, and corrosion
•
Additional worked examples
—
to consolidate, develop, and
challenge
•
Compendia of results for elastic beams, plastic moments,
and stress intensity factors
•
Many new photographs and links to Google Earth, websites,
and video clips
•
Accompanying companion site with access to instructors
resources, including a suite of interactive materials science
tutorials, a solutions manual, and an ¡mage bank of figures
from the book
RELATED TITLES
Ashby and Jones: Engineering Materials
2:
An Introduction
to Microstnictures and Processing, Fourth Edition I
9780080966687
(publishing in
2012)
Ashby: Materials Selection in Mechanical Design,
Fourth
Й/Оол/
9781856176637
Ashby
et al.:
Materials: engineering, science, processing
and design. Second Edition
/ 9781856177436
MICHAEL F. ASHBY
Royal Society Research Professor Emeritus, University of
Cambridge, and Former Visiting Professor of Design at the
Royal College of Art, London
DAVID R. H. JONES
President. Christ s College, University of Cambridge
ELSEVIER
Butterworth-Heinemann
An imprint of
Elsevier
elsevierdirect.com
ENGINEERING/MATERIALS SCIENCE
ISBN:
9H780080H966656
90000
|
| any_adam_object | 1 |
| author | Ashby, Michael F. 1935- Jones, David R. H. 1945- |
| author_GND | (DE-588)128979690 (DE-588)122837371 |
| author_facet | Ashby, Michael F. 1935- Jones, David R. H. 1945- |
| author_role | aut aut |
| author_sort | Ashby, Michael F. 1935- |
| author_variant | m f a mf mfa d r h j drh drhj |
| building | Verbundindex |
| bvnumber | BV039959813 |
| classification_rvk | UQ 8000 |
| ctrlnum | (OCoLC)767774863 (DE-599)GBV686540727 |
| discipline | Physik |
| edition | 4. ed. |
| format | Book |
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| id | DE-604.BV039959813 |
| illustrated | Illustrated |
| indexdate | 2024-08-01T11:24:14Z |
| institution | BVB |
| isbn | 9780080966656 |
| language | English |
| lccn | 2012359120 |
| oai_aleph_id | oai:aleph.bib-bvb.de:BVB01-024817573 |
| oclc_num | 767774863 |
| open_access_boolean | |
| owner | DE-83 DE-703 DE-573 DE-1050 DE-M347 DE-862 DE-BY-FWS DE-706 DE-92 |
| owner_facet | DE-83 DE-703 DE-573 DE-1050 DE-M347 DE-862 DE-BY-FWS DE-706 DE-92 |
| physical | XVIII, 472 S. Ill., zahlr. graph. Darst. |
| publishDate | 2012 |
| publishDateSearch | 2012 |
| publishDateSort | 2012 |
| publisher | Pergamon Press |
| record_format | marc |
| series2 | International series on materials science and technology. |
| spellingShingle | Ashby, Michael F. 1935- Jones, David R. H. 1945- Engineering materials Werkstoffkunde (DE-588)4079184-1 gnd Werkstoff (DE-588)4065579-9 gnd |
| subject_GND | (DE-588)4079184-1 (DE-588)4065579-9 |
| title | Engineering materials |
| title_auth | Engineering materials |
| title_exact_search | Engineering materials |
| title_full | Engineering materials 1 An introduction to properties, applications, and design by Michael F. Ashby and David R. H. Jones |
| title_fullStr | Engineering materials 1 An introduction to properties, applications, and design by Michael F. Ashby and David R. H. Jones |
| title_full_unstemmed | Engineering materials 1 An introduction to properties, applications, and design by Michael F. Ashby and David R. H. Jones |
| title_short | Engineering materials |
| title_sort | engineering materials an introduction to properties applications and design |
| topic | Werkstoffkunde (DE-588)4079184-1 gnd Werkstoff (DE-588)4065579-9 gnd |
| topic_facet | Werkstoffkunde Werkstoff |
| url | http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=024817573&sequence=000003&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=024817573&sequence=000004&line_number=0002&func_code=DB_RECORDS&service_type=MEDIA |
| volume_link | (DE-604)BV002374154 |
| work_keys_str_mv | AT ashbymichaelf engineeringmaterials1 AT jonesdavidrh engineeringmaterials1 |
Inhaltsverzeichnis
Schweinfurt Zentralbibliothek Lesesaal
| Signatur: |
2000 ZM 3000 A823 E5 |
|---|---|
| Exemplar 1 | ausleihbar Verfügbar Bestellen |