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Zouari, Ahmed
Laboratoire Angevin de Mécanique, Procédés et InnovAtion
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Publications (10/10 displayed)
- 2024Experimental and digital twinning in ZnAlMg coatingscitations
- 2023Biaxial expansion due to compression experiments for measuring the failure strain of tubular samples
- 2021The effect of strain biaxiality on the fracture of zirconium alloy fuel claddingcitations
- 2020Changes in physical and biochemical properties of spray dried camel and bovine milk powders.citations
- 2020Behavior of zirconium alloy cladding under thermo-mechanical conditions representative of an RIA accident
- 2020Effect of pH on the physicochemical characteristics and the surface chemical composition of camel and bovine whey protein’s powderscitations
- 2019Effect of outlet drying temperature and milk fat content on the physicochemical characteristics of spray-dried camel milk powdercitations
- 2018Experimental and simulation results of Expansion-Due-to-Compression tests with different strain biaxiality ratios on Zircaloy-4 cladding for RIA situation
- 2016Creep age forming of Al-Cu-Li alloy: Application to thick sheet forming of double curvature aircraft panel
- 2016Creep age forming of Al-Cu-Li alloy: Application to thick sheet forming of double curvature aircraft panel
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document
Experimental and simulation results of Expansion-Due-to-Compression tests with different strain biaxiality ratios on Zircaloy-4 cladding for RIA situation
Abstract
This paper presents an assessment of the mechanical behavior of nuclear fuel cladding in a Reactivity-Initiated Accident (RIA). Experimental data from past experiments in research reactor programs simulating RIA's show that the cladding undergoes a multiaxial loading state characterized by both hoop strain (et949;et952;et952;) and axial strain (et949;zz).The strain biaxiality ratio et949;_zz/et949;_et952;et952;extends between plane-strain (no axial strain in the cladding tube) and equal-biaxial tension (equal tensile strains in the hoop and axial directions). In this study, Expansion Due to Compression (EDC) tests were conducted in order to reproduce the mechanical conditions during the low temperature phase of the power transient in the reactor, also called the Pellet Cladding Mechanical Interaction (PCMI) phase. The tests are intended to reproduce, as closely as possible, the loading mode and macroscopic failure aspects that have been observed during integral RIA tests performed on fuel rods. Different kinds of EDC tests with varying stress biaxiality conditions have been performed in order to study the evolution of the circumferential strain at failure as a function of the strain biaxiality. Three EDC configurations are tested with different values of biaxiality. The first configuration consists of axially compressing, between two pistons, a polymer pellet inserted into a cladding sample with free ends (free-end EDC test). The diametrical expansion of the pellet is imposed on the cladding. In this configuration, the sample contracts in the axial direction. In the second configuration, the ends of the sample are fixed to prevent axial contraction of the cladding tube (fixed-end EDC test), thereby producing plane strain conditions in the sample. The finalconfiguration will be to impose a tensile load on the cladding while simultaneously compressing the pellet with the pistons, thereby producing both axial and circumferential tensile strains in the sample. For each method, the strain field in the sample is measured using a stereo-correlation image analysis technique. The results of the experiments are discussed for each biaxiality ratio and compared with Finite Element Method (FEM) modeling using CAST3M.