STP738

    Fatigue Crack Growth Measurement and Data Analysis

    Hudak SJ, Bucci RJ

    Pages: 367

    Published: 1981

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    A comprehensive, authoritative assessment of new developments in fatigue crack growth testing and of problems in the use of fatigue cracks growth rate information in materials’ evaluation, design, and reliability assessment.


    Table of Contents

    Introduction
    Bucci R., Hudak S.

    Discussion

    Appendix I

    Summary
    Bucci R., Hudak S.

    Development of a Proposed ASTM Standard Test Method for Near-Threshold Fatigue Crack Growth Rate Measurement
    Bucci R.

    Influence of Various Parameters on the Determination of the Fatigue Crack Arrest Threshold
    Amzallag C., Bathias C., Benoit D., Rabbe P., Truchon M.

    Specimen Size Considerations in Fatigue Crack Growth Rate Testing
    James L.

    Automatic Decreasing Stress-Intensity Fatigue Crack Growth Rate Testing Using Low-Cost Circuitry
    Brown R., Dowling N.

    An Evaluation of the Round Compact Specimen for Fatigue Crack Growth Rate Testing
    James L., Mills W.

    Procedures for Precision Measurement of Fatigue Crack Growth Rate Using Crack-Opening Displacement Techniques
    Cooley L., Crooker T., Yoder G.

    An Assessment of A-C and D-C Potential Systems for Monitoring Fatigue Crack Growth
    Brazill R., Wei R.

    Quantitative Measurements of the Growth Kinetics of Small Fatigue Cracks in 10Ni Steel
    Gangloff R.

    Detecting Acoustic Emission During Cyclic Crack Growth in Simulated BWR Environment
    Kikuchi M., Nakajima H., Niitsuma H., Shindo M., Shoji T.

    Statistical Analysis of Fatigue Crack Growth
    Bastenaire F., Lieurade H., Régnier L., Truchon M.

    Analysis of Fatigue Crack Growth Rate Data from Different Laboratories
    Dowling N., Fong J.

    Effect of Δa-Increment on Calculating da/dN from a versus N Data
    Hillberry B., Ostergaard D., Thomas J.

    An Analysis of Several Fatigue Crack Growth Rate (FCGR) Descriptions
    Gallagher J., Miller M.

    Prediction of Structural Crack Growth Behavior under Fatigue Loading
    Hopkins S., Rau C.

    A Practical Probabilistic Method for Evaluating the Fail-Safeness of Structures that May Fail Due to Fatigue
    Gebman J., Paris P.

    The Use of Fatigue Crack Growth Technology in Fracture Control Plans for Nuclear Components
    Bamford W., Jones D.

    Fatigue Considerations for Steel Bridges
    Barsom J.

    Index


    Committee: E08

    Paper ID: STP738-EB

    DOI: 10.1520/STP738-EB

    ISBN-EB: 978-0-8031-4804-8

    ISBN-PRINT: 978-0-8031-0717-5

    ASTM International is a member of CrossRef.

    0-8031-0717-X
    978-0-8031-0717-5
    STP738-EB