SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2003752156> ?p ?o ?g. }

Showing items 1 to 100 of ±141 with 100 items per page.

W2003752156 endingPage "6001" @default.
W2003752156 startingPage "5989" @default.
W2003752156 abstract "A novel high-aluminum austenitic stainless steel has been produced in the laboratory with the aim of developing a lean-alloyed material with a high resistance to hydrogen environment embrittlement. The susceptibility to hydrogen environment embrittlement was evaluated by means of tensile tests at a slow strain rate in pure hydrogen gas at a pressure of 40 MPa and a temperature of −50 °C. Under these conditions, the yield strength, tensile strength and elongation to rupture are not affected by hydrogen in comparison to companion tests carried out in air. Moreover, a very high ductility in hydrogen is evidenced by a reduction of area of 70% in the high-pressure and low-temperature hydrogen environment. The lean degree of alloying is reflected in the molybdenum-free character of the material and a nickel content of 8.0 wt.%. With regard to the alloy concept, a combination of high-carbon, high-manganese, and high-aluminum contents confer an extremely high stability against the formation of strain-induced martensite. This aspect was investigated by means of in-situ magnetic measurements and ex-situ X-ray diffraction. The overall performance of the novel alloy was compared with two reference materials, 304L and 316L austenitic stainless steels, both industrially produced. Its capability of maintaining a fully austenitic structure during tensile testing has been identified as a key aspect to avoid hydrogen environment embrittlement." @default.
W2003752156 created "2016-06-24" @default.
W2003752156 creator A5005928846 @default.
W2003752156 creator A5021965768 @default.
W2003752156 creator A5047712887 @default.
W2003752156 creator A5067670922 @default.
W2003752156 creator A5089985237 @default.
W2003752156 date "2013-05-01" @default.
W2003752156 modified "2023-09-27" @default.
W2003752156 title "Development of a stable high-aluminum austenitic stainless steel for hydrogen applications" @default.
W2003752156 cites W1521378483 @default.
W2003752156 cites W1966257175 @default.
W2003752156 cites W1972223072 @default.
W2003752156 cites W1980702153 @default.
W2003752156 cites W1981540474 @default.
W2003752156 cites W1992959849 @default.
W2003752156 cites W1993924206 @default.
W2003752156 cites W1993985913 @default.
W2003752156 cites W1997197467 @default.
W2003752156 cites W1999050609 @default.
W2003752156 cites W2005654760 @default.
W2003752156 cites W2007576010 @default.
W2003752156 cites W2013612909 @default.
W2003752156 cites W2013711368 @default.
W2003752156 cites W2014532724 @default.
W2003752156 cites W2014673626 @default.
W2003752156 cites W2015219298 @default.
W2003752156 cites W2019175824 @default.
W2003752156 cites W2022420522 @default.
W2003752156 cites W2024270180 @default.
W2003752156 cites W2027434199 @default.
W2003752156 cites W2027783893 @default.
W2003752156 cites W2032527956 @default.
W2003752156 cites W2034846698 @default.
W2003752156 cites W2036216665 @default.
W2003752156 cites W2037689801 @default.
W2003752156 cites W2039476634 @default.
W2003752156 cites W2041407267 @default.
W2003752156 cites W2045700656 @default.
W2003752156 cites W2047067756 @default.
W2003752156 cites W2057072993 @default.
W2003752156 cites W2058276858 @default.
W2003752156 cites W2058626395 @default.
W2003752156 cites W2059729153 @default.
W2003752156 cites W2060833593 @default.
W2003752156 cites W2063058708 @default.
W2003752156 cites W2066991450 @default.
W2003752156 cites W2070282991 @default.
W2003752156 cites W2077986237 @default.
W2003752156 cites W2080940316 @default.
W2003752156 cites W2081635597 @default.
W2003752156 cites W2081920671 @default.
W2003752156 cites W2083406352 @default.
W2003752156 cites W2085359931 @default.
W2003752156 cites W2085870126 @default.
W2003752156 cites W2090039681 @default.
W2003752156 cites W2090064473 @default.
W2003752156 cites W2092369691 @default.
W2003752156 cites W2092374860 @default.
W2003752156 cites W2123506729 @default.
W2003752156 cites W2566130807 @default.
W2003752156 cites W2949534944 @default.
W2003752156 cites W4238566195 @default.
W2003752156 cites W4239610818 @default.
W2003752156 doi "https://doi.org/10.1016/j.ijhydene.2013.02.127" @default.
W2003752156 hasPublicationYear "2013" @default.
W2003752156 type Work @default.
W2003752156 sameAs 2003752156 @default.
W2003752156 citedByCount "25" @default.
W2003752156 countsByYear W20037521562013 @default.
W2003752156 countsByYear W20037521562014 @default.
W2003752156 countsByYear W20037521562015 @default.
W2003752156 countsByYear W20037521562016 @default.
W2003752156 countsByYear W20037521562017 @default.
W2003752156 countsByYear W20037521562018 @default.
W2003752156 countsByYear W20037521562019 @default.
W2003752156 countsByYear W20037521562020 @default.
W2003752156 countsByYear W20037521562021 @default.
W2003752156 countsByYear W20037521562022 @default.
W2003752156 countsByYear W20037521562023 @default.
W2003752156 crossrefType "journal-article" @default.
W2003752156 hasAuthorship W2003752156A5005928846 @default.
W2003752156 hasAuthorship W2003752156A5021965768 @default.
W2003752156 hasAuthorship W2003752156A5047712887 @default.
W2003752156 hasAuthorship W2003752156A5067670922 @default.
W2003752156 hasAuthorship W2003752156A5089985237 @default.
W2003752156 hasConcept C112950240 @default.
W2003752156 hasConcept C142282041 @default.
W2003752156 hasConcept C149912024 @default.
W2003752156 hasConcept C178790620 @default.
W2003752156 hasConcept C182508753 @default.
W2003752156 hasConcept C185592680 @default.
W2003752156 hasConcept C191897082 @default.
W2003752156 hasConcept C192562407 @default.
W2003752156 hasConcept C20625102 @default.
W2003752156 hasConcept C2776512210 @default.
W2003752156 hasConcept C2779229422 @default.
W2003752156 hasConcept C2780026712 @default.