Fatigue Strength of Welded Structures

Name: Fatigue Strength of Welded Structures
Price: $244.76 USD
Availability: InStock
Author: Maddox
ISBN: 9781855730137

by Maddox

ISBN13:
9781855730137
ISBN10:
1855730138
eBook ISBN(s):
9781845698799
Edition: 2nd
Format: Hardcover
Copyright: 1991-01-01
Publisher: Elsevier Science
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Summary

The key to avoidance of fatigue, which is the main cause of service failures, is good design. In the case of welded joints, which are particularly susceptible to fatigue, design rules are available. However, their effective use requires a good understanding of fatigue and an appreciation of problems concerned with their practical application. Fatigue Strength of Welded Structures incorporates up-to-date design rules with high academic standards while still achieving a practical approach to the subject. The book presents design recommendations which are based largely on those contained in recent British standards and explains how they are applied in practice. Attention is also focused on the relevant aspects of fatigue in welded joints which are not yet incorporated in codes thus providing a comprehensive aid for engineers concerned with the design or assessment of welded components or structures. Background information is given on the fatigue lives of welded joints which will enable the engineer or student to appreciate why there is such a contrast between welded and unwelded parts, why some welded joints perform better than others and how joints can be selected to optimize fatigue performance.

Foreword

Part 1 Welded joints under fatigue loading

Fatigue failure

(16)

Fatigue loading

(4)

Fatigue test data

(5)

Stress concentrations

(4)

Significant features of welds in relation to fatigue

(11)

Stress concentrations caused by weld shape

(2)

Stress concentrations caused by discontinuities

(2)

Residual stress

(5)

Practical implications

(1)

Factors which affect fatigue of welded joints

(8)

Stress relief

(1)

Material properties

(1)

Weld quality

(2)

Size effects

(4)

Fatigue of welded joints

(32)

Transverse butt welds

(7)

Longitudinal butt welds

(4)

Fillet welded connections

(17)

Welded structures

(4)

Conclusions

(9)

Part 2 Design rules

Fatigue design rules for welded steel joints

(27)

Basis of rules

(1)

Joint classification

(18)

Unclassified joints

(1)

Design S-N curves

100

(2)

Effect of welded joint dimensions

102

(4)

Stresses used with the fatigue design rules

106

(9)

Nominal stress

106

(1)

Combined stresses

107

(1)

Welds in regions of stress concentration

108

(7)

Practical application of the rules

115

(17)

General design procedure

115

(1)

Joints subjected to constant range loading

115

(1)

Random loading and cumulative damage

116

(8)

Design of transverse load-carrying fillet welds

124

(1)

Stress-relieved joints

125

(1)

High strength and special steels

126

(2)

Welded joints in aluminium alloys

128

(1)

Effect of environment

128

(4)

Significance of weld imperfections

132

(12)

ECA procedures for weld imperfections

132

(1)

Quality categories

133

(2)

Shape imperfections

135

(4)

Planar flaws

139

(5)

Improving the fatigue strength of welded joints

144

(12)

Reducing stress concentration effects

144

(4)

Introduction of compressive residual stresses

148

(7)

High strength steels

155

(1)

Typical service failures

156

(14)

Conclusions

170

(2)

Appendix I Cumulative damage calculations using Miner's rule

172

(3)

Appendix II Cycle counting

175

(6)

Appendix III Fracture mechanics analysis of fatigue

181

(12)

Stress intensity factor

181

(2)

Fatigue crack propagation

183

(2)

Integration of fatigue crack propagation law

185

(1)

Calculating the S-N curve

186

(1)

Crack propagation under variable range loading

187

(3)

Cracks in welded joints

190

(1)

Practical applications

191

(2)

Bibliography

193

(2)

Index

195

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