AbstractThe influence of nitrogen content on the high temperature mechanical properties of 316LN stainless steel has been studied at nitrogen levels of 0.07, 0.11, 0.14 and 0.22wt. %. These studies have shown that 316LN SS containing 0.14wt. % nitrogen has optimum mechanical properties. Detailed creep studies were carried out on 316LN SS at 823K, 873K and 923K at stress levels ranging from 140 to 300MPa. The longest rupture life in this study was 32,500hours. Creep strength was found to increase substantially with increase in nitrogen content. Metallographic studies were performed on creep tested specimens to understand the influence of nitrogen content on the evolution of creep damage. The extent of internal and surface creep damage decrea...
The addition of nitrogen to stainless steel improves mechanical and corrosion properties. Nitrogen-b...
The addition of nitrogen to stainless steel improves mechanical and corrosion properties. Nitrogen-b...
The influence of nitrogen on the mechanical properties of two high Ni containing advanced austenitic...
AbstractThe influence of nitrogen content on the high temperature mechanical properties of 316LN sta...
AbstractEffect of nitrogen on the creep deformation behaviour and the dislocation substructure devel...
Nitrogen alloyed low carbon grade 316L(N) stainless steel (SS) is a major structural material for hi...
The creep properties of a nuclear-grade type 316(L) stainless steel (SS) alloyed with nitrogen (316L...
AbstractIn the present investigation J-R curves have been determined for SS 316 LN with nitrogen con...
Creep properties of a nuclear grade type 316 stainless steel (SS) weld metal containing ~0.08 wt% of...
AbstractThe effect of nitrogen alloying (0.078% to 0.22%) in 316 LN stainless steel has been investi...
AbstractFatigue crack growth (FCG) tests were carried out at ambient temperature in air for 316 L (N...
MasterType 316L stainless steel is widely used as the bipolar plate in MCFC fuel cells due to its ex...
The development of nitrogen enriched austenitic stainless steels has been a source of recent interes...
Type 316L(N) stainless steel (SS) containing 0.02–0.03 wt% carbon and 0.06–0.08 wt% nitrogen is used...
The development of nitrogen enriched austenitic stainless steels has been a source of recent interes...
The addition of nitrogen to stainless steel improves mechanical and corrosion properties. Nitrogen-b...
The addition of nitrogen to stainless steel improves mechanical and corrosion properties. Nitrogen-b...
The influence of nitrogen on the mechanical properties of two high Ni containing advanced austenitic...
AbstractThe influence of nitrogen content on the high temperature mechanical properties of 316LN sta...
AbstractEffect of nitrogen on the creep deformation behaviour and the dislocation substructure devel...
Nitrogen alloyed low carbon grade 316L(N) stainless steel (SS) is a major structural material for hi...
The creep properties of a nuclear-grade type 316(L) stainless steel (SS) alloyed with nitrogen (316L...
AbstractIn the present investigation J-R curves have been determined for SS 316 LN with nitrogen con...
Creep properties of a nuclear grade type 316 stainless steel (SS) weld metal containing ~0.08 wt% of...
AbstractThe effect of nitrogen alloying (0.078% to 0.22%) in 316 LN stainless steel has been investi...
AbstractFatigue crack growth (FCG) tests were carried out at ambient temperature in air for 316 L (N...
MasterType 316L stainless steel is widely used as the bipolar plate in MCFC fuel cells due to its ex...
The development of nitrogen enriched austenitic stainless steels has been a source of recent interes...
Type 316L(N) stainless steel (SS) containing 0.02–0.03 wt% carbon and 0.06–0.08 wt% nitrogen is used...
The development of nitrogen enriched austenitic stainless steels has been a source of recent interes...
The addition of nitrogen to stainless steel improves mechanical and corrosion properties. Nitrogen-b...
The addition of nitrogen to stainless steel improves mechanical and corrosion properties. Nitrogen-b...
The influence of nitrogen on the mechanical properties of two high Ni containing advanced austenitic...