Results 201 to 210 of about 12,788 (251)
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Neon bubbles in 316 stainless steel
Radiation Effects, 1984Abstract Neon bubbles have been created in stainless steel by implantation and annealing. They have been shown to behave in a similar way to helium bubbles in the same material. Apparent differences in growth rate are attributed to differences in the bubble density immediately after bubble nucleation.
N. Marachov, P. J. Goodhew
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An investigation on boriding kinetics of AISI 316 stainless steel
Vacuum, 2008Abstract Boronizing was performed by using a solid medium of Ekabor powders at 1073, 1148 and 1223 K for 2, 4 and 8 h. After boronizing, the major dominant phase was found to be Fe 2 B and the minors were CrB and Ni 2 B. Boride coating resulted in smooth and dense feature confirmed by optical and SEM. The thickness of boride layer varied from 7 to 87
O. Ozdemir +5 more
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Corrosion Resistance of Three 316 Stainless Steels
Advanced Materials Research, 2014316L stainless steel is a well known advanced material for its good corrosion resistance in many aggressive situations. As the quality of different manufacturer of the stainless steel may vary in some degree, this paper studied the corrosion resistances of three 316L stainless steels which supplied by three manufacturers.
Jan Shu Lu, Qin Song Lu, Jin Xue
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Contamination of Stainless Steel Type 316 by Tritium
Fusion Science and Technology, 2002Tritium distribution in stainless steel type 316 exposed to hydrogen containing 32% of tritium at room and elevated temperatures was studied using thermal desorption, analysis of bremsstrahlung spectrums and acid etching techniques. All samples exhibit a large fraction of the overall tritium inventory concentrated in a thin sub-surface layer of 15μm ...
A. Perevezentsev +3 more
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Deuterium trapping in irradiated 316 stainless steel
Journal of Nuclear Materials, 1978Abstract Linear ramp thermal desorption measurements were conducted on 316 stainless steel samples implanted at 296 K with 1–10 keV D + to fluences of 10 17 –10 19 D + /cm 2 . Samples were held 1–100 h at 296 K prior to desorbing. The desorption data were shown to arise from two dominant mechanisms: bulk migration of mobile deuterium atoms with ~0 ...
K.L. Wilson, M.I. Baskes
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Creep in type 316 stainless steel
Acta Metallurgica, 1978Abstract Dislocation creep rates at 625°C have been examined in Type 316 stainless steel in both the solution treated condition and after pre-straining to the secondary creep state at several initial stresses. The application of particle-induced internal stress ideas does not provide a completely satisfactory interpretation of the creep behaviour and
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Oxidation of 316 stainless steel in supercritical water
Corrosion Science, 2009The oxide scales of 316 stainless steel (316 SS) have been examined after exposure to supercritical water (SCW) with 2.0% H(2)O(2) for up to 250 h. The exposed samples were analyzed using weight measurement, scanning electron microscopy (SEM), and X-ray diffraction analysis (XRD).
Mingcheng Sun +3 more
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316 stainless steel cavity swelling in a PWR
Journal of Nuclear Materials, 1995Abstract Swelling was measured on a cold-worked (CW) 316 stainless steel (SS) flux-thimble tube irradiated in a Pressurized Water Reactor (PWR) plant. The measured swelling was approximately 0.03% (in the range of 0.01 to 0.09%). The sample was irradiated at a temperature between 305 and 315°C to a calculated dose of about 35 dpa.
Foster, John Paul +4 more
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Serrated yielding in AISI 316 stainless steel
Acta Metallurgica, 1988Abstract Serrated yielding behaviour of a type AISI 316 stainless steel is investigated in the temperature range 300–923 K. Detailed observations have been made on the effect of prior ageing in the temperature range (823–1323 K) for different periods of time on the serrated yielding behaviour at 923 K.
K.G Samuel, S.L Mannan, P Rodriguez
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Splitting of AISI 316 Austenitic Stainless Steel
Canadian Metallurgical Quarterly, 2001AbstractThe main aim of the present work is to determine the transition conditions for the occurrence of splitting in AISI 316 austenitic stainless steel. In the investigation, tensile testing light microscopy (LM), scanning electron microscopy (SEM), transmission electron microscopy (TEM), energy dispersive X-ray (EDX) and electron diffraction ...
J. Janovec +4 more
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