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Evaluation of Slow Strain-Rate Stress Corrosion Tests Results
1979Slow strain-rate technique provides a rapid and reliable method to determine stress corrosion cracking (SCC) susceptibility of metals and alloys for a broad range of applications. Procedures are discussed for using the technique to (a) determine if an alloy is susceptible to SCC, (b) express SCC severity quantitatively, (c) rank alloys with respect to ...
JH Payer, WE Berry, WK Boyd
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Multispecimen Test Facility for High Temperature, High Pressure Slow Strain-Rate Testing
1979This paper describes a slow strain-rate test facility in which 6 tension specimens may be tested simultaneously and load-versus-displacement curves for each specimen may be recorded. The facility is designed to operate at a maximum temperature of 500 K (450 °F) and a maximum pressure of 28 MPa (4 ksi). Constant crosshead displacement rates ranging from
FF Lyle, EB Norris
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Corrosion, 1989
A slow strain rate test (SSRT) is effective to survey materials selection for a hostile well such as deep sour gas. In order to use effectively data from different sources, it is necessary to make causes of error or variance clear and minimize data ...
A. Ikeda, M. Ueda, H. Tsuge
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A slow strain rate test (SSRT) is effective to survey materials selection for a hostile well such as deep sour gas. In order to use effectively data from different sources, it is necessary to make causes of error or variance clear and minimize data ...
A. Ikeda, M. Ueda, H. Tsuge
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Status of Standardization Activities on Slow Strain Rate Testing Techniques
1993A brief review of current test method standardization activities for slow strain rate testing will be given. This presentation will include activities involving ASTM Committee G-l .06.05 (Corrosion of Metals/SCC Test Methods/Dynamic Testing) and NACE Task Group T-1F-9 (Metallic Materials Testing Techniques for Sulfide Corrosion Cracking).
RD Kane, SM Wilhelm
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Rippled Strain Rate Test for CRA Sour Service Materials Selection
Corrosion, 1997To ensure economic and reliable materials selection it is necessary to evaluate corrosion resistant alloys (CRAs) under the most severe environmental and mechanical conditions that are realistically anticipated in service.
W.J.R. Nisbet, R. Hartman, G. vd Handel
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A Bursting Tube, Slow Strain-Rate Stress Corrosion Test
1979The construction of a facility to perform slow strain-rate stress corrosion tests by slowly increasing the pressure in a tubular specimen is described. Advantages of this bursting tube stress corrosion test are outlined and preliminary results reported.
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Applications of Slow Strain Rate Testing in the Nuclear Power Industry
1993Slow strain rate (SSR) tests are widely used to evaluate materials for service in the nuclear power industry. The slow strain rate method is used to select new materials and to qualify heats of existing materials for use in components exposed to reactor coolant. Several different modifications of the SSR test have been developed over the
MT Miglin, BP Miglin
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Slow-Strain-Rate Testing of Al 7075-T6 in Controlled Atmospheres
1984The stress-corrosion-cracking (SCC) susceptibility of Al 7075-T6 alloys has been studied in a controlled-atmosphere chamber utilizing the slow-strain-rate technique. The effects of high-humidity air with small additions of sulfur dioxide, nitrogen dioxide, and surface salts in different combinations have been investigated to predict the behavior of ...
M Khobaib, CT Lynch
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Slow strain rate tensile tests on T91 in static lead–bismuth eutectic
Journal of Nuclear Materials, 2006Abstract The embrittlement effect of liquid lead–bismuth eutectic (LBE) on martensitic steel T91 has been studied by performing slow-strain-rate tensile (SSRT) tests in static LBE with about 1 wppm oxygen at temperatures ranging from 250 °C to 425 °C. Two groups of samples were used.
Y. Dai, B. Long, F. Groeschel
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