0000000000025434

AUTHOR

Stéphanie Bissey-breton

showing 6 related works from this author

Impact of Superfinish Turning on Surface Integrity of Pure Copper

2011

Abstract The presented study deals with comprehension of relationships between machining cutting conditions and physical-chemical properties linked with surface integrity. A multi-physics model is presented to calculate residual stress, temperature and dislocation fields in the machined material. This model includes both thermal-mechanical, structural evolution and dynamic recristallisation approaches. The model was applied to pure copper after superfinish turning. Good agreement was found between numerical values and experimental ones. This paper also presents a work on the impact of mechanical and microstructural changes induced by machining on the electrochemical behaviour and corrosion …

Work (thermodynamics)Materials scienceMetallurgyCorrosion resistancechemistry.chemical_elementGeneral MedicineCopperStructural evolutionCorrosionSurface integrityMachiningchemistryResidual stressSuperfinish turningDislocationEngineering(all)Surface integrityProcedia Engineering
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Impact des conditions d'usinage sur la zone du matériau affectée par le procédé

2007

Colloque avec actes et comité de lecture. Internationale.; International audience; Les procédés d'usinage peuvent créer des contraintes résiduelles à la surface des pièces usinées et ainsi modifier la microstructure et la texture de la matière proche de la surface. De tels changements sont importants pour l'étude du comportement des pièces au cours du temps. Il est alors nécessaire de quantifier les contraintes résiduelles, les composantes de texture et de déterminer la microstructure induite par l'usinage pour comprendre et prédire le comportement des surfaces considérées. Dans cette étude, le matériau cuivre pur a été choisi et considéré comme un "système modèle". En tournage, l'influence…

0209 industrial biotechnologyMaterials scienceScanning electron microscopecontraintes02 engineering and technologySurface finishIndustrial and Manufacturing Engineering020901 industrial engineering & automationOpticsMachiningResidual stressGeneral Materials ScienceTexture (crystalline)LubricantComposite materialtournagezone affectéebusiness.industryMechanical EngineeringSurface stress[PHYS.MECA]Physics [physics]/Mechanics [physics]021001 nanoscience & nanotechnologyMicrostructure[PHYS.MECA] Physics [physics]/Mechanics [physics]0210 nano-technologybusiness
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Influence of residual stress, surface roughness and crystallographic texture induced by machining on the corrosion behaviour of copper in salt-fog at…

2012

International audience; The influence of quadratic stress, crystallographic texture, lubrication and surface roughness generated by superfinish turning on the corrosion behaviour of pure copper was quantified in salt-fog atmosphere. This was done using statistical analysis (Pearson's correlation matrix). Three compounds were found after corrosion tests: atacamite/paratacamite and a black layer (mixture of the lubricant and the salt atmosphere). Surface characteristics were classified according to their decreasing influence on the formation of atacamite/paratacamite as follows: surface roughness and quadratic stress. Lubrication and the crystallographic texture have the lowest influence on c…

0209 industrial biotechnologyMaterials sciencePREDICTIONGeneral Chemical EngineeringINHIBITIONchemistry.chemical_element02 engineering and technologyengineering.materialPARAMETERSCorrosionStress (mechanics)MEDIA020901 industrial engineering & automationResidual stressSurface roughnessGeneral Materials ScienceTexture (crystalline)MetallurgyGeneral ChemistrySTAINLESS-STEELS021001 nanoscience & nanotechnologyCopperMODELSOILCrystallographychemistryengineeringLubricationAtacamite0210 nano-technologyRESISTANCE
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The use of linear regression methods and Pearson’s correlation matrix to identify mechanical–physical–chemical parameters controlling the micro-elect…

2008

Abstract Machining introduces residual stresses at the specimen surface and modifies the microstructure and the texture in a small volume close to the surface. Such changes are important in controlling the corrosion behaviour of machined workpieces in the presence of an aggressive environment. In the present paper, the relationships between cutting parameters and the surface and subsurface characteristics of machined copper were first quantified experimentally using a complete plan of L 8 (2 3 ) and a linear regression method. The influence of surface characteristics on the local polarisation curves of machined surfaces was then investigated. The shear-type crystallographic orientation gene…

Stress (mechanics)Materials scienceMachiningResidual stressGeneral Chemical EngineeringMetallurgyLubricationPitting corrosionGeneral Materials ScienceGeneral ChemistrySurface finishTexture (crystalline)CorrosionCorrosion Science
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Mechanical properties and corrosion behaviour of low carbon martensitic stainless steel after machining

2014

The influence of different combinations of cutting conditions on the mechanical behaviour (microhardness), the microstructure and the corrosion behaviour in NaCl solution (using the electrochemical microcell technique and pulse potentiodynamic testing) of a low carbon martensitic stainless steel (grade X4CrNiMo16.5.1 stainless steel) after tempering treatment was studied. Microhardness was increased on the machined surface. In addition, the electrochemical experiments have shown that the machined materials have a heterogeneous electrochemical behaviour. Significant effect of machining on pitting corrosion was noticed. The pitting potential was found to decrease as the microhardness increase…

Materials scienceMechanical EngineeringMetallurgychemistry.chemical_elementMartensitic stainless steelengineering.materialMicrostructureIndentation hardnessIndustrial and Manufacturing EngineeringCorrosionchemistryMachiningMechanics of MaterialsengineeringPitting corrosionTemperingComposite materialCarbonInternational Journal of Machining and Machinability of Materials
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Influence of Post-machining Thermal Treatment on the Corrosion Behaviour of Copper

2014

Abstract In this paper, the influence of a post-machining thermal treatment (PMTT) on the corrosion behaviour of copper was investigated in a salt fog atmosphere. The corrosion behaviour was affected by the presence of a high density of grain boundaries generated during machining or dislocations formed during PMTT under certain conditions. The obtained results showed that it is possible to find PMTT conditions to cancel changes induced by machining and that the critical factor leading to a sharp increase of the percentage of oxidized surface seems to be the density of dislocations near the machined surface.

Materials sciencecorrosionMetallurgymicrostructurechemistry.chemical_elementThermal treatmentCopperhardnessCorrosionAtmosphereMachined surfaceMachiningchemistryGeneral Earth and Planetary SciencesGrain boundaryGeneral Environmental SciencemachiningProcedia CIRP
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