Automated Test Methods for Fracture and Fatigue Crack Growth

    Cullen WH
    Published: 1985

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    Researchers describe their techniques for using automated systems to conduct fracture and fatigue tests. They discuss how they qualify their systems to assure that the data conform to existing ASTM standard tests.

    Table of Contents

    Cullen W.

    New Developments in Automated Materials Testing Systems
    Dittmer D., Miller N., Socie D.

    An Inexpensive, Multiple-Experiment Monitoring, Recording, and Control System
    Bayles R., Denney P., Meyn D., Moore P.

    Development of an Automated Fatigue Crack Propagation Test System
    Chen G., Connelly G., Hertzberg R., Jablonski D., Lee B., Newton C., Roberts R., Vecchio R.

    The Reversing D-C Electrical Potential Method
    Catlin W., Coffin L., Lord D., Prater T.

    Crack Shape Monitoring Using A-C Field Measurements
    Dover W., Topp D.

    A Low-Cost Microprocessor-Based Data Acquisition and Control System for Fatigue Crack Growth Testing
    Hoeppner D., Sooley P.

    An Automatic Fatigue Crack Monitoring System and Its Application to Corrosion Fatigue
    Endo T., Kondo Y.

    Experience with Automated Fatigue Crack Growth Experiments
    Futato R., Van Der Sluys W.

    Potential-Drop Monitoring of Cracks in Surface-Flawed Specimens
    Richardson T., VanStone R.

    A Microprocessor-Based System for Determining Near-Threshold Fatigue Crack Growth Rates
    Keating J., McGowan J.

    Krak-Gages for Automated Fatigue Crack Growth Rate Testing: A Review
    Hartmann H., Liaw P., Logsdon W., Roth L.

    Automated Test Methods for Fatigue Crack Growth and Fracture Toughness Tests on Irradiated Stainless Steels at High Temperature
    Schaap B., Tjoa G., van den Broek F.

    An Automated Fatigue Crack Growth Rate Test System
    Cheng Y., Read D.

    An Automated Method of Computer-Controlled Low-Cycle Fatigue Crack Growth Testing Using the Elastic-Plastic Parameter Cyclic J
    Joyce J., Sutton G.

    Automated Technique for R-Curve Testing and Analysis
    Jolles M.

    A Computer-Interactive System for Elastic-Plastic Fracture Toughness Testing
    Saarelma H., Saario T., Törrönen K., Valkonen A., Wallin K.

    Computerized Single-Specimen J-R Curve Determination for Compact Tension and Three-Point Bend Specimens
    Jablonski D.

    Author Index

    Subject Index

    Committee: E08

    DOI: 10.1520/STP877-EB

    ISBN-EB: 978-0-8031-4942-7

    ISBN-13: 978-0-8031-0421-1

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