An Explicit Solution for Stresses in Pyrocarbon-Coated Fuel Particles
- 1 March 1971
- journal article
- research article
- Published by Taylor & Francis in Nuclear Technology
- Vol. 10 (3) , 301-306
- https://doi.org/10.13182/nt71-a30962
Abstract
An explicit solution for stresses and strains in pyrolytic-carbon coatings on spherical fuel particles is presented. The resulting model is a modification of the Prados-Scott model which accounts for stresses arising due to anisotropic, radiation-induced dimensional change and the buildup of internal fission gas pressure, and for stress relaxation due to radiation-induced creep. Finite displacements are shown to amplify the effects of anisotropic dimensional changes. The use of the explicit solution allows a reduction in computation time by several orders of magnitude. The reduction in computation time makes feasible the use of Monte Carlo analyses (which have previously been precluded by high computation costs) to establish the effects of random variations in coated-particle parameters.Keywords
This publication has 8 references indexed in Scilit:
- Prediction of the Irradiation Performance of Coated Particle Fuels by Means of Stress-Analysis ModelsNuclear Technology, 1971
- Interpretation of Dimensional Changes Caused in Pyrolytic Carbon by High-Fluence Neutron IrradiationJournal of Applied Physics, 1970
- On irradiation-induced creep of pyrolytic carbon in a general state of stressJournal of Nuclear Materials, 1970
- A mathematical model for calculating stresses in a four-layer carbon-silicon-carbide-coated fuel particleJournal of Nuclear Materials, 1969
- A mathematical model for calculating stresses in a pyrocarbon- and silicon carbide-coated fuel particleJournal of Nuclear Materials, 1969
- The Influence of Pyrolytic-Carbon Creep on Coated-Particle Fuel PerformanceNuclear Applications, 1967
- Mathematical Model for Predicting Coated-Particle BehaviorNuclear Applications, 1966
- Accelerating convergence of iterative processesCommunications of the ACM, 1958