Standardization of Fretting Fatigue Test Methods and Equipment

Front Cover
 

Contents

Overview
1
A Historical Introduction to Fretting Fatigue
8
The Problems of Fretting Fatigue Testing
13
Mechanisms of FrettingFatigue and Their Impact on Test Methods Development
23
A Critical Appraisal
33
Fretting and Contact Fatigue Studied with the Aid of Fretting Maps
49
Are There 50 of Them?
60
The Development of a Fretting Fatigue Experiment with WellDefined Characteristics
68
Techniques for the Characterization of Fretting Fatigue Damage
170
The Influence of Fretting Corrosion on Fatigue Strength of Nodular Cast Iron and Steel under Constant Amplitude and Load Spectrum Tests
178
Adaptation of a Servohydraulic Testing Machine to Investigate the Life of Machine Components Operating under Fretting Conditions
190
Improving Fretting Fatigue Strength at Elevated Temperatures by Shot Peening in Steam Turbine Steel
197
The Fretting Fatigue Properties of a Blade Steel in Air and Vapor Environments
210
The Application of Electrochemical Techniques to Evaluate the Role of Corrosion in Fretting Fatigue of a High Strength Low Alloy Steel
217
ACSR Electrical Conductor Fretting Fatigue at Spacer Clamps
231
Fretting Fatigue of Carbon FiberReinforced Epoxy Laminates
243

Determination and Control of Contact Pressure Distribution in Fretting Fatigue
85
Fretting Fatigue Analysis of Strength Improvement Models with Grooving or Knurling on a Contact Surface
101
Effect of Contact Pressure on Fretting Fatigue of High Strength Steel and Titanium Alloy
115
A Critical Review of Fretting Fatigue Investigations at the Royal Aerospace Establishment
127
Experiments Analysis and Integrity Assessment
153
Current Practice and Future Prospects for Standardization
262
Author Index
276
Subject Index
277
Copyright

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