| 000 | 00893camuu2200277 a 4500 | |
| 001 | 000000590279 | |
| 005 | 20110310175018 | |
| 008 | 881121s1990 njua b 000 0 eng | |
| 010 | ▼a 88038653 | |
| 015 | ▼a GB91-49464 | |
| 020 | ▼a 013340191X | |
| 040 | ▼a DLC ▼c DLC ▼d UKM ▼d 211009 | |
| 049 | 1 | ▼l 421104570 ▼f 과학 |
| 050 | 0 0 | ▼a TA460 ▼b .B23 1990 |
| 082 | 0 4 | ▼a 620.1/6 ▼2 22 |
| 084 | ▼a 620.16 ▼2 DDCK | |
| 090 | ▼a 620.16 ▼b B219f | |
| 100 | 1 | ▼a Bannantine, Julie A. |
| 245 | 1 0 | ▼a Fundamentals of metal fatigue analysis / ▼c Julie A. Bannantine, Jess J. Comer, James L. Handrock. |
| 260 | ▼a Englewood Cliffs, N.J. : ▼b Prentice Hall, ▼c c1990. | |
| 300 | ▼a xiii, 273 p. : ▼b ill. ; ▼c 25 cm. | |
| 504 | ▼a Includes bibliographical references. | |
| 650 | 0 | ▼a Metals ▼x Fatigue. |
| 700 | 1 | ▼a Comer, Jess J. |
| 700 | 1 | ▼a Handrock, James L. |
Holdings Information
| No. | Location | Call Number | Accession No. | Availability | Due Date | Make a Reservation | Service |
|---|---|---|---|---|---|---|---|
| No. 1 | Location Science & Engineering Library/Sci-Info(Stacks2)/ | Call Number 620.16 B219f | Accession No. 421104570 | Availability Available | Due Date | Make a Reservation | Service |
Contents information
Author Introduction
Julie A. Bannantine(지은이)
<피로해석의 기초>
James L. Handrock(지은이)
Jess J. Comer(지은이)
Table of Contents
CONTENTS
FOREWORD = ⅷ
PREFACE = xi
ACKNOWLEDGEMENTS = xiii
1 STRESS-LIFE = 1
1.1 Introduction = 1
1.2 S-N Diagram = 1
1.3 Mean Stress Effects = 5
1.4 Modifying Factors = 11
1.4.1 Size Effect = 11
1.4.2 Loading Effects = 13
1.4.3 Surface Finish = 13
1.4.4 Surface Treatment = 14
Plating = 17
Thermal = 18
Mechanical = 20
1.4.5 Temperature = 25
1.4.6 Environment = 26
1.5 Important Concepts = 28
1.6 Important Equations = 29
2 STRAIN-LIFE = 40
2.1 Introduction = 40
2.2 Material Behavior = 42
2.2.1 Monotonic Stress-Strain Behavior = 42
Basic definitions = 42
True and engineering stress-strain = 43
Stress-strain relationships = 44
2.2.2 Cyclic Stress-Strain Behavior = 46
2.2.3 Transient Behaviro: Cyclic Strain Hardening and Softening = 48
2.2.4 Cyclic Stress-Strain Curve Determination = 52
2.3 Stress-Plastic Strain Power Law Relation = 55
2.4 Strain-Life Curve = 59
2.5 Determination of Fatigue Properties = 63
2.6 Mean Stress Effects = 66
2.7 Important Concepts = 70
2.8 Important Equations = 70
3 FRACTURE MECHANICS = 88
3.1 Introduction = 88
3.2 Linear Elastic Fracture Mechanics Background = 89
3.2.1 Historical Overview = 89
3.2.2 LEFM Assumptions = 90
3.2.3 Loading Modes = 90
3.2.4 Stress Intensity Factor = 91
3.2.5 Plastic Zone Size = 96
Plane stress and plane strain conditions = 96
Monotonic plastic zone size = 97
Cyclic plastic zone size = 97
3.2.6 Fracture Toughness = 98
3.3 Fatigue Crack Growth = 100
3.3.1 Fatigue Crack Growth Curves = 101
3.3.2 Region Ⅱ = 103
3.3.3 Region Ⅰ = 105
3.3.4 Region Ⅲ = 107
3.3.5 Factors Influencing Fatigue Crack Growth = 108
Stress ratio effects = 108
Enviromental effects = 109
3.3.6 Crack Closure = 111
3.4 Important Concepts = 113
3.5 Important Equations = 113
4 NOTCHES = 124
4.1 Introduction = 124
4.2 Stress-Life Approach = 124
4.3 Strain-Life Approach = 135
4.3.1 Notch Root Stresses and STrains = 135
4.3.2 Example of Notch Analysis using Neuber's Rule = 140
4.4 Fracture Mechanics Approaches = 145
4.4.1 Introduction = 145
4.4.2 Transition Crack Length = 145
4.4.3 Stress Intensity Factors near a Notch = 147
4.4.4 Short Crack Growth at Notches = 151
4.5 Combination Methods = 152
4.6 Important Concepts = 155
4.7 Important Equations = 155
5 VARIABLE AMPLITUDE LOADING = 178
5.1 Introduction = 178
5.2 Definition of Fatigue Damage = 178
5.3 Damage Summing Methods for Initiation = 179
5.3.1 Linear Damage Rule = 179
5.3.2 Nonlinear Damage Theories = 181
5.3.3 Conclusions = 182
5.4 Cycle Counting = 184
5.4.1 Early Cycle Counting Procedures = 184
Level-crossing counting = 184
Peak counting = 184
Simple-range counting = 186
5.4.2 Sequence Effects = 187
5.4.3 Rainflow Counting = 189
Rainflow counting ("falling rain" approach) = 190
Rainflow counting (ASTM standard) = 193
5.5 Crack Propagation Under Varibable Amplitude Loading = 196
5.5.1 Introduction = 196
5.5.2 Load Interaction Effects = 197
Observed behavior = 197
Load interaction models = 200
5.5.3 Prediction Methods = 202
Crack-tip plasticcity models = 202
Statistical models = 206
Crack closure models = 207
Block loading = 208
5.6 Dealing with Service Histories = 214
5.6.1 Introduction = 214
5.6.2 SAE Cumulative Damage Test Program = 215
5.7 Important Concepts = 221
5.8 Important Equations = 221
6 COMPARISON OF METHODS = 232
6.1 Introduction = 232
6.2 General Points for Comparison = 232
6.3 Stress-Life (S-N) Approach = 234
6.3.1 Strengths of Method = 234
6.3.2 Weaknesses of Method = 234
6.3.3 Typical Applications = 235
6.4 Strain-Life (E-N) Approach = 235
6.4.1 Strengths of Method = 235
6.4.2 Weaknesses of Method = 236
6.4.3 Typical Applications = 236
6.5 Fracture Mechanics LEFM Approach = 237
6.5.1 Strengths of Method = 237
6.5.2 Weknesses of Method = 237
6.5.3 Typical Applications = 237
6.6 conclusion = 238
7 MULTIAXIAL FATIGUE = 239
7.1 Introduction = 239
7.2 Background = 240
7.2.1 Stress State = 240
7.2.2 Cracking Observations = 244
7.3 Multiaxial Theories = 244
7.3.1 Equivalent Stress/Strain Approaches = 245
7.3.2 Sines' Model and Similar Approaches = 251
Sines' model = 251
Maximum range of shear stress criterion = 253
Equivalent strain range criterion = 254
7.3.3 Critical Plane Approaches = 256
7.4 SAE Notched Shaft Program = 258
7.5 Conclusion = 260
INDEX = 266