Spatial variability in the coefficient of thermal expansion induces pre-service stresses in computer models of virgin Gilsocarbon bricks

Spatial variability in the coefficient of thermal expansion induces pre-service stresses in computer models of virgin Gilsocarbon bricks

In this paper, the authors test the hypothesis that tiny spatial variations in material properties may lead to significant pre-service stresses in virgin graphite bricks. To do this, they have customised ParaFEM, an open source parallel finite element package, adding support for stochastic thermo-me...

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Veröffentlicht in:Journal of nuclear materials 2015-10, Vol.465, p.793-804
Hauptverfasser: Arregui-Mena, José David, Margetts, Lee, Griffiths, D.V., Lever, Louise, Hall, Graham, Mummery, Paul M.
Format: Artikel
Sprache:eng
Schlagworte:
Bricks
Computer simulation
Finite element method
Gilsocarbon
Modelling
Monte Carlo Simulation
Nuclear engineering
Nuclear graphite
Nuclear power generation
Nuclear reactor components
Nuclear reactors
Stresses
Thermal expansion
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container_end_page 804
container_issue
container_start_page 793
container_title Journal of nuclear materials
container_volume 465
creator Arregui-Mena, José David
Margetts, Lee
Griffiths, D.V.
Lever, Louise
Hall, Graham
Mummery, Paul M.
description In this paper, the authors test the hypothesis that tiny spatial variations in material properties may lead to significant pre-service stresses in virgin graphite bricks. To do this, they have customised ParaFEM, an open source parallel finite element package, adding support for stochastic thermo-mechanical analysis using the Monte Carlo Simulation method. For an Advanced Gas-cooled Reactor brick, three heating cases have been examined: a uniform temperature change; a uniform temperature gradient applied through the thickness of the brick and a simulated temperature profile from an operating reactor. Results are compared for mean and stochastic properties. These show that, for the proof-of-concept analyses carried out, the pre-service von Mises stress is around twenty times higher when spatial variability of material properties is introduced. The paper demonstrates that thermal gradients coupled with material incompatibilities may be important in the generation of stress in nuclear graphite reactor bricks. Tiny spatial variations in coefficient of thermal expansion (CTE) and Young's modulus can lead to the presence of thermal stresses in bricks that are free to expand. [Display omitted] •Open source software has been modified to include random variability in CTE and Young's modulus.•The new software closely agrees with analytical solutions and commercial software.•Spatial variations in CTE and Young's modulus produce stresses that do not occur with mean values.•Material variability may induce pre-service stress in virgin graphite.
doi_str_mv 10.1016/j.jnucmat.2015.05.058
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subjects Bricks
Computer simulation
Finite element method
Gilsocarbon
Modelling
Monte Carlo Simulation
Nuclear engineering
Nuclear graphite
Nuclear power generation
Nuclear reactor components
Nuclear reactors
Stresses
Thermal expansion
title Spatial variability in the coefficient of thermal expansion induces pre-service stresses in computer models of virgin Gilsocarbon bricks
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