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SEDL / STP / STP1194-EB
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STP1194
Application of Accelerated Corrosion Tests to Service Life Prediction of Materials
Cragnolino G, Sridhar N
Pages: 401
Published: 1994
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Discusses a variety of approaches to life prediction (across a full range of industries and applications); accuracy of prediction techniques versus actual performance; and the appropriateness of various accelerated corrosion tests to life prediction. 23 peer-reviewed papers cover laboratory and field analysis techniques in various applications, and experimental techniques.
Table of Contents
Relationship Among Statistical Distributions, Accelerated Testing and Future Environments
Staehle R.
Life Prediction of Ammonia Storage Tanks Based on Laboratory Stress Corrosion Crack Data
Nyborg R., Lunde L.
Corrosion Prediction from Accelerated Tests in the Chemical Process Industries
Silverman D.
Composite Modeling of Atmospheric Corrosion Penetration Data
McCuen R., Albrecht P.
Application of Service Examinations to Transuranic Waste Container Integrity at the Hanford Site
Duncan D., Burbank D., Anderson B., Demiter J.
High Level Nuclear Waste Management in U.S.A.
Verink E.
The Development of an Experimental Data Base for the Lifetime Predictions of Titanium Nuclear Waste Containers
Ikeda B., Bailey M., Quinn M., Shoesmith D.
Deterministic Predictions of Corrosion Damage to High Level Nuclear Waste Canisters
Macdonald D., Urquidi-Macdonald M., Lolcama J.
Approaches to Life Prediction for High-Level Nuclear Waste Containers in the Tuff Repository
Beavers J., Thompson N., Durr C.
Crack Growth Behavior of Candidate Waste Container Materials in Simulated Underground Water
Park J., Shack W., Diercks D.
Prediction of Localized Corrosion Using Modeling and Experimental Techniques
Sridhar N., Cragnolino G., Walton J., Dunn D.
Corrosion Aspects of Copper in a Crystalline Bedrock Environment - with Regard to Life Prediction of a Container in a Nuclear Waste Repository
Sjöblom R.
Correlation of Autoclave Testing of Zircaloy-4 to In-Reactor Corrosion Performance
Parkins R., Shann S.
The Importance of Subtle Materials and Chemical Considerations in the Development of Accelerated Tests for Service Performance Predictions
Palumbo G., Brennenstuhl A., Gonzalez F.
Corrosion Life Prediction of Oil and Gas Production Processing Equipment
Kolts J., Buck E.
Values of Corrosion Rate of Steel in Concrete to Predict Service Life of Concrete Structures
Andrade C., Alonso M.
A New Index for the Crevice Corrosion Resistance of Materials
Xu Y., Pickering H.
Acceleration of Stress-Corrosion Cracking Test for High-Temperature, High-Purity Water Environments by Means of Artificial Crevice Application
Akashi M.
Application of a Multipotential Test Method for Rapid Screening of Austenitic Stainless Steels in Process Environments
Aaltonen P., Pohjanne P., Tähtinen S., Hänninen H.
Spot-Welded Specimen Maintained Above the Crevice-Repassivation Potential to Evaluate Stress Corrosion Cracking Susceptibility of Stainless Steels in NaCl Solutions
Tsujikawa S., Shinohara T., Lichang W.
Constant Extension Rate Testing and Predictions of In-Service Behavior: The Effect of Specimen Dimensions
Louthan M., Porr W.
Applications of Electrochemical Potentiokinetic Reactivation Test to On-Site Measurements on Stainless Steels
Verneau M., Charles J., Dupoiron F.
New Electrochemical Method to Evaluate the Atmospheric Corrosion Resistance of Stainless Steels
Muto I., Sato E., Ito S.
Author Index
Subject Index
Committee: G01
Paper ID: STP1194-EB
DOI: 10.1520/STP1194-EB
ISBN-EB: 978-0-8031-5265-6
 ASTM International is a member of CrossRef.
0-8031-1853-8
978-0-8031-1853-9
STP1194-EB
STP 1194
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