Mechanistic verification of empirical UO2 fuel fracture models

Author:

Gamble K.A.,Knight T.W.,Roberts E.,Hales J.D.,Spencer B.W.

Funder

Office of Nuclear Energy

University of South Carolina

U.S. Department of Energy

Publisher

Elsevier BV

Subject

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

Reference33 articles.

1. An assessment of the fuel pulverization threshold during LOCA-type temperature transients;J. A. Turnbull and S. K. Yagnik and M. Hirai and D. M. Staicu and C. T. Walker;Nucl. Sci. Eng.,2015

2. Restructuring in high burnup UO2 studied using modern electron microscopy;T.J. Gerczak and C.M. Parish and P.D. Edmondson and C.A. Baldwin and K.A. Terrani;J. Nucl. Mater.,2018

3. A semi-empirical model for the formation and depletion of the high burnup structure in UO2;D. Pizzocri and F. Cappia and L. Luzzi and G. Pastore and V. V. Rondinella and P. Van Uffelen;J. Nucl. Mater.,2017

4. Mechanistic model for the fragmentation of the high-burnup structure during LOCA;K. Kulacsy;J. Nucl. Mater.,2015

5. Models for axial relocation of fragmented and pulverized fuel pellets in distending fuel rods and its effects on fuel rod heat load;L. O. Jernkvist and A. Massih,2015

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