Experimentally validated multiphysics modeling of fracture induced by thermal shocks in sintered UO2 pellets

Author:

McClenny Levi D.ORCID,Butt Moiz I.,Abdoelatef M. GomaaORCID,Pate Michal J.ORCID,Yee Kay L.ORCID,Harikrishnan R.ORCID,Perez-Nunez Delia,Jiang W.ORCID,Ortega Luis H.ORCID,McDeavitt Sean M.,Ahmed Karim

Funder

U.S. Department of Energy

Office of Nuclear Energy

University of Wisconsin-Madison

Texas A and M University

Publisher

Elsevier BV

Subject

Nuclear Energy and Engineering,General Materials Science,Nuclear and High Energy Physics

Reference42 articles.

1. Thermal conductivity of uranium metal and uranium-zirconium alloys fabricated via powder metallurgy;Ortega;J. Nucl. Mater.,2020

2. An experimentally validated mesoscale model of thermal conductivity of a UO2 and BeO composite nuclear fuel”;Badry;J. Mater.,2019

3. Mesoscale modeling of high burn-up structure formation and evolution in UO2;Abdoelatef;J. Mater.,2019

4. Mesoscale Modeling of Grain Refinement in Solids;Abdoelatef,2019

5. B. Spencer, N. Woolstenhulme, L. Emerson, J. Yeh, D. Imholte, C. Hill, D. Chapman, C. Jensen, T. Knight, S. Patnaik, S. McDeavitt, L. Ortega, D. Perez-Nunez, H. Ban, Separate-effects validation experiments for models of fracture in ceramic nuclear fuel, INL/CON-19-52564-Revision-0(2019).

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