2015
DOI: 10.1016/j.jnucmat.2015.10.019
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Development and property evaluation of nuclear grade wrought FeCrAl fuel cladding for light water reactors

Abstract: Development of nuclear grade, iron-based wrought FeCrAl alloys has been initiated for light water reactor (LWR) fuel cladding to serve as a substitute for zirconium-based alloys with enhanced accident tolerance. Ferritic alloys with sufficient chromium and aluminum additions can exhibit significantly improved oxidation kinetics in high-temperature steam environments when compared to zirconium-based alloys. In the first phase, a set of model FeCrAl alloys containing 10-20Cr, 3-5Al, and 0-0.12Y in weight percent… Show more

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Cited by 417 publications
(162 citation statements)
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“…Initially, coupons (~1 × 2 × 0.15cm) of an austenitic stainless steel (310SS), a commercial ferritic alloy (E-Brite), and a commercial FeCrAl alloy (APMT) were exposed alongside disks from a Zircaloy-4 rod used as reference material for a period of three months. Following those exposures, six model FeCrAl alloys prepared at ORNL [30] underwent immersion testing for a period of one year. The six alloys consisted of five distinct compositions with the intention of exploring the effect of major alloying elements (i.e.…”
Section: Methodsmentioning
confidence: 99%
“…Initially, coupons (~1 × 2 × 0.15cm) of an austenitic stainless steel (310SS), a commercial ferritic alloy (E-Brite), and a commercial FeCrAl alloy (APMT) were exposed alongside disks from a Zircaloy-4 rod used as reference material for a period of three months. Following those exposures, six model FeCrAl alloys prepared at ORNL [30] underwent immersion testing for a period of one year. The six alloys consisted of five distinct compositions with the intention of exploring the effect of major alloying elements (i.e.…”
Section: Methodsmentioning
confidence: 99%
“…Four systems have been studied: 1) silicon-carbide (SiC)-based composites [16][17][18], 2) iron-chromium-aluminum (Fe-Cr-Al) alloys [19,[21][22][23], 3) coated zirconium [24], and 4) molybdenum (Mo) [25]. These four systems were chosen as balanced compromise among the application's requirements.…”
Section: Case Study: Materials Selection Criteria For Accident-toleramentioning
confidence: 99%
“…The addition of around 20 wt.% Cr (known as third element effect, TEE) reduces the amount of Al needed to establish the protective alumina scale [14]. However, high Cr content in these alloys may trigger potential irradiation embrittlement at typical LWR operating temperatures during service [15,16]. In order to optimize the chemical composition of the FeCrAl-based alloys to make them suitable for nuclear fission application while maintaining their excellent oxidation resistance, the straightforward solution consisting in increasing the Al content and simultaneously decreasing the Cr content is not acceptable due to the pronounced Al negative effect on the workability and mechanical properties (especially ductility) [17].…”
Section: Introductionmentioning
confidence: 99%
“…In order to optimize the chemical composition of the FeCrAl-based alloys to make them suitable for nuclear fission application while maintaining their excellent oxidation resistance, the straightforward solution consisting in increasing the Al content and simultaneously decreasing the Cr content is not acceptable due to the pronounced Al negative effect on the workability and mechanical properties (especially ductility) [17]. Current studies are focused on preserving a delicate balance between Cr and Al content in conjunction with minor additions of other elements that eliminate or manipulate undesirable attributes [15,[18][19][20].…”
Section: Introductionmentioning
confidence: 99%