Archivio Istituzionale della RicercaThe properties of three austenitic stainless steels (AISI316L, AMCR0033 and VA64) are examined from a fusion point of view, and a new composition for a low-activity austenitic stainless steel is suggested. Some important properties of the three alloys are compared; some outstanding properties of the age-hardenable high-Mn stainless steel VA64 are stressed. Induced radioactivity in the three alloys for various times after shutdown is calculated; as far as long-term radioactivity is concerned, VA64 suffers its relatively high Mo and Nb content. Elemental substitutions on VA64 are examined, and a new composition, giving a low-activity version of VA64, is suggested. Effects of elemental substitution on the properties of VA64 are predicted; the new alloy is a possible good candidate first wall material for fusion reactors.
A study of the prospects for development of a new low activity austenitic stainless steel for fusion applications / Zucchetti, Massimo; Zublena, M.. - STAMPA. - 2:(1989), pp. 991-996. (Intervento presentato al convegno 15th Symposium on Fusion Technology tenutosi a Utrecht (Paesi Bassi) nel 19-23 Sep 1988) [10.13140/RG.2.1.2927.4643].
A study of the prospects for development of a new low activity austenitic stainless steel for fusion applications
ZUCCHETTI, MASSIMO;
1989
Abstract
The properties of three austenitic stainless steels (AISI316L, AMCR0033 and VA64) are examined from a fusion point of view, and a new composition for a low-activity austenitic stainless steel is suggested. Some important properties of the three alloys are compared; some outstanding properties of the age-hardenable high-Mn stainless steel VA64 are stressed. Induced radioactivity in the three alloys for various times after shutdown is calculated; as far as long-term radioactivity is concerned, VA64 suffers its relatively high Mo and Nb content. Elemental substitutions on VA64 are examined, and a new composition, giving a low-activity version of VA64, is suggested. Effects of elemental substitution on the properties of VA64 are predicted; the new alloy is a possible good candidate first wall material for fusion reactors.
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https://hdl.handle.net/11583/2629396
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