@Article{icces.2023.09220,
AUTHOR = {Qiqing Liu, Yin Yu, Y.L. Hu},
TITLE = {Peridynamic Simulation of Pellet-Clad Mechanical Interaction in Nuclear Fuel Rods},
JOURNAL = {The International Conference on Computational \& Experimental Engineering and Sciences},
VOLUME = {27},
YEAR = {2023},
NUMBER = {3},
PAGES = {1--1},
URL = {http://www.techscience.com/icces/v27n3/55164},
ISSN = {1933-2815},
ABSTRACT = {The thermomechanical response and potential cracking in nuclear fuel rods are extremely important for 
nuclear safety analysis. The Pellet-Clad Mechanical Interaction (PCMI) is a significant factor for the 
thermomechanical behaviors of pellet and clad. This study presents a PCMI model based on ordinary statebased peridynamic (OSB-PD) theory, which considering the heat transfer through the gap and contact heat 
transfer between pellet and clad. The two-dimensional (2D) models are constructed through irregular nonuniform discretization. The pellet model includes the random variability of the critical stretch of each bond 
based on normal distribution. The contact model with non-uniform discretization is proposed in this paper, 
and its accuracy is validated against the Finite Element Method (FEM) results. Subsequently, the behavior 
of PCMI and crack patterns of fuel pellet are studied at different power levels. Also, the role of friction 
coefficient between pellet and clad on the pellet cracking is explored with a constant power level. The results 
show that the thermomechanical response and damage possibility of clad increase with the power level raise 
up, as well as the pellet damage. The pellet-clad friction has an important influence on the pellet crack 
distribution, and the number of cracks is positively correlated with the friction coefficient.},
DOI = {10.32604/icces.2023.09220}
}