STP1049

    Environmentally Assisted Cracking: Science and Engineering

    Lisagor WB, Crooker TW, Leis BN
    Published: 1990


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    Environmentally assisted cracking is one of the most serious causes of structural failure over a broad range of industrial applications. STP 1049 will help you understand and control this phenomenon, by providing you with a sampling of the latest research in corrosion-fatigue and stress-corrosion cracking science and technologies.


    Table of Contents

    Overview
    Crooker T., Leis B., Lisagor W.

    Influence of Strain on Hydrogen Assisted Cracking of Cathodically Polarized High-Strength Steel
    Moran P., Scully J.

    Thermomechanical Treatments and Hydrogen Embrittlement of Ferritic Stainless Steels with Different Interstitial Contents
    Hehemann R., Iyer R., Troiano A.

    Influence of Overload and Temperature on Stress Corrosion Crack Growth Behavior in a Low-Alloy Steel
    Putatunda S., Venugopal V.

    Role of the Oxide Film in the Transgranular Stress Corrosion Cracking of Copper
    Cassagne T., Kruger J., Pugh E.

    Coherency Stress and Transgranular Stress Corrosion Cracking of Cu-18Au Alloy
    Fritz J., Parks B., Pickering H.

    Role of Selective Dissolution in Transgranular Stress-Corrosion Cracking: Studies of Transient and Steady-State Dealloying in Copper-Gold Alloys
    Flanagan W., Lee J., Lichter B., Massinon D., Zhu M.

    Effects of Electrochemical Potential on the Slow Strain Rate Fracture of 4340 Steel in a Combustion Product Residue
    Daniels R., Kennelley K., Magner M., Sadarangani A.

    Environmental Acceleration of Fatigue Crack Growth in Reactor Pressure Vessel Materials and Environments
    Emanuelson R., Van Der Sluys W.

    Interactive Effects of Cold Work, Yield Strength, and Temperature on Sulfide Stress Cracking
    Hess J., Joosten M., Murali J.

    Sensitivity to Sulfide-Stress Cracking at Welds in Line-Pipe Steels
    Cialone H., Williams D.

    Factors Affecting the Susceptibility of Carbon-Manganese Steel Welds to Cracking in Sour Environments
    Pargeter R.

    A Mechanics-Based Analysis of Stress-Corrosion Cracking of Line-Pipe Steel in a Carbonate-Bicarbonate Environment
    Leis B., Walsh W.

    A Model for Environmentally Assisted Crack Growth Rate
    Gabetta G., Pozzi D., Rinaldi C.

    Modeling of Sulfide Inclusion Distributions in Relation to the Environmentally Assisted Cracking of Low-Alloy Steels in a Pressurized Water Reactor Environment
    Chapman O., Swan D.

    Effects of Stress and Stress History on the Magnitude of the Environmental Attack in Renè 80
    Balsone S., Khobaib M., Nicholas T.

    Role of Environment in Elevated Temperature Crack Growth Behavior of Renè N4 Single Crystal
    Khobaib M., Nicholas T., Ram S.

    Environmental and Microstructural Influence on Fatigue Propagation of Small Surface Cracks
    Petit J., Zeghloul A.

    Environmentally Induced Fatigue Crack Propagation Under Variations in the Loading Conditions
    Lütjering G., Nowack H., Schulte K.

    Environmental Influence on the Effect of a Single Overload on the Fatigue Crack Growth Behavior on a High-Strength Aluminum Alloy
    de Fouquet J., Petit J., Quintard M., Ranganathan N.

    Evaluation of KISCC and da/dt Measurements for Aluminum Alloys Using Precracked Specimens
    Domack M.

    Influence of Experimental Variables on the Measurement of Stress Corrosion Cracking Properties of High-Strength Steels
    Crooker T., Hauser J., Judy R., King W.

    Keyhole Compact Tension Specimen Fatigue of Selected High-Strength Steels in Seawater
    Hartt W., Rajpathak S.

    Cyclic Tension Corrosion Fatigue of High-Strength Steels in Seawater
    Blackie A., Jones W.

    Fatigue Crack Growth Behavior of Different Stainless Steels in Pressurized Water Reactor Environments
    Amzallag C., Maillard J.

    Environmentally Assisted Cracking Behavior of a High-Level Nuclear Waste Container Alloy
    Duncan D., James L.

    Corrosion Fatigue Cracking of Chromium-Containing Steels
    Harty B., Noël R.

    Evaluation of Cavitation-Erosion Resistance of Ion-Plated Titanium Nitride Coating
    Ebara R., Hatano M., Kobayashi T., Matsumura M., Odohira T., Oka Y., Wada T.

    Author Index

    Subject Index


    Committee: G01

    Paper ID: STP1049-EB

    DOI: 10.1520/STP1049-EB

    ISBN-EB: 978-0-8031-5114-7

    ISBN-13: 978-0-8031-1276-6

    ASTM International is a member of CrossRef.

    0-8031-1276-9
    978-0-8031-1276-6
    STP1049-EB