STP970

    The Use of Synthetic Environments for Corrosion Testing

    Francis PE, Lee TS

    Pages: 304

    Published: 1988

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    STP 970 will help the user to better assess the credibility and relevance of laboratory corrosion test data as it relates to ultimate materials performance in the final engineering application. This book summarizes experiences in the conduct of corrosion tests using synthesized environments designed to evaluate materials for use in "real" production of natural environments.


    Table of Contents

    Introduction
    Francis P., Lee T.

    Discussion

    Discussion

    Discussion

    Discussion

    Discussion

    Summary
    Francis P., Lee T.

    Corrosion Studies in Complex Environments
    Koch G., Spangler M., Thompson N.

    Simulating Automotive Exposure for Corrosion Testing of Trim Material
    Baboian R., Haynes G.

    The Effects of SO2 Scrubber Chemistry on Corrosion of Structural Materials
    Jeanjaquet S., Mansfeld F.

    Testing Methods for Indoor and Outdoor Atmospheric Corrosion
    Fiaud C.

    Review of Corrosion Studies of Metal Containers Using Synthetic Media
    Murphy T., Pape G.

    Synthetic Environments for the Testing of Metallic Biomaterials
    Kuhn A., Neufeld P., Rae T.

    Laboratory Evaluation of Materials for Resistance to Anaerobic Corrosion by Sulfate-Reducing Bacteria: Philosophy and Practical Design
    King R., Skerry B., Stott J.

    Comparison and Control of Microbial Spoilage of Metal-Working Fluids and Associated Corrosion
    Hill E., Hill G., Robbins D.

    Alloy Ranking for Corrosion Resistance Laboratory Tests Versus Field Exposures
    Corey S., Kolts J., Silence W.

    Synthetic Solutions and Environment Sensitive Fracture
    Parkins R.

    Intergranular Corrosion of Austenitic Stainless Steels—An Electrochemical, Potentiokinetic Test Method
    Johns D.

    Ammonia Test for Stress Corrosion Resistance of Copper Alloys
    Hassel L., Holm R., Mattsson E.

    A Synthetic Environment to Simulate the Pitting Corrosion of Copper in Potable Waters
    Goodman P., Lucey V., Maselkowski C.

    The Use of Synthetic or Natural Seawater in Studies of the Corrosion of Copper Alloys
    Aladjem A., Castle J., Chamberlain A., Garner B., Parvizi M.

    The Effect of Dissolved Copper on the Erosion-Corrosion of Copper Alloys in Flowing ASTM Seawater
    Cheung W., Thomas J.

    Synthetic Versus Natural Marine Environments for Corrosion Testing
    Kain R., Money K.

    Laboratory Solutions for Studying Corrosion of Aluminum Alloys in Seawater
    Dexter S.

    Particle Containing Formation Water for the Study of Erosion Corrosion
    Heitz E., Kohley T.

    Pitting of AISI 410 Stainless Steel in CO2-Saturated Synthetic Seawater and Condensate
    McIntyre D.

    Simulating the Pitting Corrosion of Steel Reinforcement in Concrete
    Balkwill P., Sykes J.

    The Electrochemistry of Steel Corrosion in Concrete Compared to Its Response in Pore Solution
    Dawson J., Langford P.

    Materials Performance for Residential High Efficiency Condensing Furnaces
    Agrawal A., Hindin B.

    Author Index

    Subject Index


    Committee: G01

    Paper ID: STP970-EB

    DOI: 10.1520/STP970-EB

    ISBN-EB: 978-0-8031-5042-3

    ISBN-PRINT: 978-0-8031-0977-3

    ASTM International is a member of CrossRef.

    0-8031-0977-6
    978-0-8031-0977-3
    STP970-EB