2019
DOI: 10.2172/1669784
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Features that Further Performance Limits of Nuclear Fuel Fabrication: Opportunities for Additive Manufacturing of Nuclear Fuels

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Cited by 6 publications
(5 citation statements)
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“…Several potential applications of additive manufacturing technologies have been identified and are being explored as part of the TCR design and analysis activities [22]. Fuel design [23] and embedded instrumentation [24,25] applications are not included in this discussion, but they are being explored.…”
Section: Core Design Applicationsmentioning
confidence: 99%
“…Several potential applications of additive manufacturing technologies have been identified and are being explored as part of the TCR design and analysis activities [22]. Fuel design [23] and embedded instrumentation [24,25] applications are not included in this discussion, but they are being explored.…”
Section: Core Design Applicationsmentioning
confidence: 99%
“…Although these accomplishments show positive progress toward the use of AM in nuclear reactors, a far greater yet achievable milestone would be deploying an advanced reactor design whose performance is improved through AM features. AM of nuclear fuel-related structures has been an R&D topic in both the TCR program [34] and elsewhere [35][36][37][38]. Some approaches could significantly increase nuclear core performance; however, these newer technologies are likely still years away before they could be adopted for a demonstration reactor.…”
Section: Figure 1 3d Printed Fuel Assembly Brackets Produced By Ornl ...mentioning
confidence: 99%
“…The fuel form for the TCR consists of conventionally-fabricated UN TRISO fuel particles embedded inside a silicon carbide (SiC) matrix [2,3]. These integrated fuel forms are fabricated using AM methods, specifically binderjet printing followed by chemical vapor infiltration [4].…”
Section: Description Of the Tcr Fuel Formmentioning
confidence: 99%
“…While MIT-NRL data will be used to test the normal neutronic behavior of the fuel, INL-TREAT data will facilitate the assessment under the anticipated reactivity insertion accidents via transient testing. Both tests are designed to evaluate advanced manufactured (AM) silicon carbide (SiC) compacts containing conventionally-fabricated UN-TRISO fuel [1][2][3]. This report describes the selection and identification of relevant samples for these tests and provides a brief description of the experiments.…”
Section: Introductionmentioning
confidence: 99%