Results 191 to 200 of about 6,738 (243)
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Contamination of Stainless Steel Type 316 by Tritium

Fusion Science and Technology, 2002
Tritium 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
openaire   +2 more sources

Electroslag remelting of type 316 stainless steel

JOM, 1973
The Bureau of Mines, in cooperation with the United States Atomic Energy Commission, electroslag remelted two groups of type 316 stainless steel ingots for ultimate conversion to tubing for tests associated with the liquid metal fast-breeder reactor. The reduction in imperfections achieved suggests electroslag remelting as a promising alternative to ...
W. E. Anable   +2 more
openaire   +1 more source

Energy Absorption Capability of Stainless Steel Type 304 and Type 316 [PDF]

open access: yesInternational Journal of Advances in Mechanical & Automobile Engineering, 2015
This study is focusing on analyzing the specific energy absorption base on stainless steel type 316 with thickness of 3 mm and 6 mm and stainless steel 304 with thickness 3 mm. Tensile tests were conducted by using 100 KN load.
Salwani, Mohd Salleh, Muhammad Aiman, S.
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Wedge crack nucleation in Type 316 stainless steel

Journal of Materials Science, 1977
Type 316 austenitic steel has been heat-treated to produce a range of grain sizes and then creep-tested at 625° C at various stresses so as to examine the nucleation and the factors which effect the nucleation of grain-boundary triple point or “wedge” cracks.
D. G. Morris, D. R. Harries
openaire   +1 more source

Diffusion of Manganese in Type 316 Austenitic Stainless Steel

Metal Science, 1975
AbstractThe diffusivity of manganese in T316 austenitic stainless steel was measured by the standard tracer technique and also determined from the concentration profiles obtained by microprobe analysis after vacuum annealing. There was good agreement between the diffusion coefficients obtained from each method; the presence of a depleted layer is ...
A. F. Smitll, R. Hales
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Ductility of Irradiated Type 316 Stainless Steel

1973
The effect of fast reactor irradiation on the ductility of annealed AISI Type 316 stainless steel is described in terms of strain rate, temperature, and neutron fluence. Creep and tensile data obtained after EBR-II irradiations are presented and analyzed in terms of controlling deformation mechanisms.
JJ Holmes, AJ Lovell, RL Fish
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Segregation in a neutron-irradiated Type 316 stainless steel

Proceedings, annual meeting, Electron Microscopy Society of America, 1992
Radiation-induced segregation (RIS) and associated irradiation-assisted stress corrosion cracking (IASCC) of austenitic alloys may be a major factor in limiting component lifetimes in water-cooled nuclear reactors. There are some similarities between radiation-induced sensitization/IASCC and thermally-induced sensitization/intergranular stress ...
E. A. Kenik, M. G. Burke
openaire   +1 more source

Creep in type 316 stainless steel

Acta Metallurgica, 1978
Abstract 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
openaire   +1 more source

Role of Methanol on Pitting of Type 316 Stainless Steel

Corrosion, 2005
This work is aimed at improving the understanding of the localized corrosion of stainless steel in methanolic solutions. Potentiodynamic polarization curves on Type 316 (UNS S31600) were measured in methanol (CH3OH)-water (H2O)-1 M lithium chloride (LiCl) at water concentrations ranging from 1 wt% to 100 wt%. The pitting potential increased from 350 mV
T. Ramgopal, S. Amancherla
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HIGH STRAIN FATIGUE OF A TYPE 316 STAINLESS STEEL

Fatigue & Fracture of Engineering Materials and Structures, 1980
Abstract— High strain fatigue tests of Type 316 stainless steel have been carried out at room temperature and 600°C. Cold work reduces the life relative to the annealed condition when considered in terms of plastic strain per cycle but not when the total strain range is used. It also renders the material far more resistant to cyclically induced changes
W. J. PLUMBRIDGE   +2 more
openaire   +1 more source

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