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SEDL / STP / STP798-EB
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STP798
Probabilistic Fracture Mechanics and Fatigue Methods: Applications for Structural Design and Maintenance
Bloom JM, Ekvall JC
Pages: 219
Published: 1983
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STP 798 represents the state of the art application of probabilistic aspects of fracture mechanics and fatigue. The papers comprising this publication's contents have been divided into two general categories: probabilistic fracture mechanics and statistical aspects of fatigue.
Table of Contents
Introduction
Bloom J., Ekvall J.
Discussion
Summary
Bloom J., Ekvall J.
Probabilistic Evaluation of Conservatisms Used in Section III, Appendix G, of the ASME Code
Jouris G.
Applications of a Probabilistic Fracture Mechanics Model to the Influence of In-Service Inspection on Structural Reliability
Harris D., Lim E.
Statistical Scatter in Fracture Toughness and Fatigue Crack Growth Rate Data
Johnston G.
Probabilistic Defect Size Analysis Using Fatigue and Cyclic Crack Growth Rate Data
Johnson C., Trantina G.
Statistical Methods for Estimating Crack Detection Probabilities
Berens A., Hovey P.
Characterization of the Variability in Fatigue Crack Propagation Data
Hillberry B., Ostergaard D.
Exploratory Study of Crack-Growth-Based Inspection Rationale
Walker E.
Cumulative Damage: Reliability and Maintainability
Bogdanoff J., Kozin F.
Method for Determining Probability of Structural Failure from Aircraft Counting Accelerometer Tracking Data
Larson C., Shawver W.
Analysis of Structural Failure Probability Under Spectrum Loading Conditions
Bronn C.
S-N Fatigue Reliability Analysis of Highway Bridges
Albrecht P.
Index
Committee: E08
Paper ID: STP798-EB
DOI: 10.1520/STP798-EB
ISBN-EB: 978-0-8031-4864-2
 ASTM International is a member of CrossRef.
0-8031-0242-9
978-0-8031-0242-2
STP798-EB
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