{"id":500,"date":"2020-06-11T19:21:05","date_gmt":"2020-06-11T17:21:05","guid":{"rendered":"http:\/\/s431178539.onlinehome.fr\/AddimAlliance\/siteWeb\/?page_id=500"},"modified":"2025-04-15T11:08:12","modified_gmt":"2025-04-15T09:08:12","slug":"publications","status":"publish","type":"page","link":"http:\/\/www.addimalliance.fr\/siteWeb\/publications\/","title":{"rendered":"Publications"},"content":{"rendered":"\n\n<table id=\"tablepress-8\" class=\"tablepress tablepress-id-8\">\n<thead>\n<tr class=\"row-1\">\n\t<th class=\"column-1\">Plate-forme, Type publication, Topic<\/th><th class=\"column-2\">Date<\/th><th class=\"column-3\">Topic<\/th><th class=\"column-4\">Titre, Lien Web<\/th>\n<\/tr>\n<\/thead>\n<tbody class=\"row-striping row-hover\">\n<tr class=\"row-2\">\n\t<td class=\"column-1\">LGP<br \/>\nConference<\/td><td class=\"column-2\">2025<\/td><td class=\"column-3\">WLAM Inconel 718<\/td><td class=\"column-4\">Investigation of Process-Geometry-Microstructure-Properties Relationships in Inconel 718 Single-Bead Deposits using Wire Base Laser Metal Deposition. Esaform 2025<\/td>\n<\/tr>\n<tr class=\"row-3\">\n\t<td class=\"column-1\">LGP<br \/>\nArticle<\/td><td class=\"column-2\">2025<\/td><td class=\"column-3\">PBF Ni based Wear resistance<\/td><td class=\"column-4\">Role of crystallographic and morphological textures on wear resistance of an additive-manufactured Ni-based superalloy.  https:\/\/doi.org\/10.1016\/j.wear.2025.205894<\/td>\n<\/tr>\n<tr class=\"row-4\">\n\t<td class=\"column-1\">LGP<br \/>\nArticle<\/td><td class=\"column-2\">2025<\/td><td class=\"column-3\">PBF NiCrBSi self-fluxing nickel alloy<\/td><td class=\"column-4\">Near-Equilibrium Transformation Sequence of NiCrBSi Self-Fluxing Nickel Alloy, https:\/\/doi.org\/10.1007\/s11661-025-07732-5<\/td>\n<\/tr>\n<tr class=\"row-5\">\n\t<td class=\"column-1\">LGP<br \/>\nArticle<\/td><td class=\"column-2\">2025<br \/>\n<\/td><td class=\"column-3\">PBF Ni-based tribology<\/td><td class=\"column-4\">Influence of the scanning strategy on the microstructure and the tribological behavior of a Ni-based superalloy processed by L-PBF additive manufacturing<\/td>\n<\/tr>\n<tr class=\"row-6\">\n\t<td class=\"column-1\">LGP<br \/>\n<br \/>\nPhD<\/td><td class=\"column-2\">2025-<\/td><td class=\"column-3\">LPBF power module optimization<\/td><td class=\"column-4\">Developping new electrical components for power modules.<\/td>\n<\/tr>\n<tr class=\"row-7\">\n\t<td class=\"column-1\">LGP<br \/>\nArticle<\/td><td class=\"column-2\">2024<\/td><td class=\"column-3\">LPBF Gas Shield Inlet Optimization<\/td><td class=\"column-4\">Experimental study of Laser Powder Bed Fusion (L-PBF) Gas Shield Inlet optimization and its effects on part quality<\/td>\n<\/tr>\n<tr class=\"row-8\">\n\t<td class=\"column-1\">LGP<br \/>\nICA<\/td><td class=\"column-2\">2024<\/td><td class=\"column-3\">LPFB re-lasing<\/td><td class=\"column-4\">Effect of re-lasing on the fatigue properties of 316L Stainless Steel Produced by laser powder bed fusion<\/td>\n<\/tr>\n<tr class=\"row-9\">\n\t<td class=\"column-1\">LGP<br \/>\nArticle<\/td><td class=\"column-2\">2023<\/td><td class=\"column-3\">PBF NiCrBSi<\/td><td class=\"column-4\">Material Health of NiCrBSi Alloy Parts Produced via the Laser Powder Bed Fusion Process. https:\/\/doi.org\/10.3390\/met13101669<\/td>\n<\/tr>\n<tr class=\"row-10\">\n\t<td class=\"column-1\">LGP<br \/>\nArticle<\/td><td class=\"column-2\">2023<\/td><td class=\"column-3\">PBF Al-Zn-Mg-Cu-Zr<\/td><td class=\"column-4\">Influence of heat treatments on microstructure and hardness of a high-strength Al-Zn-Mg-Cu-Zr alloy processed by laser powder bed fusion<\/td>\n<\/tr>\n<tr class=\"row-11\">\n\t<td class=\"column-1\">LGP<br \/>\nArticle<\/td><td class=\"column-2\">2023<\/td><td class=\"column-3\">PBF Ni-based<\/td><td class=\"column-4\">Performance evaluation of Charpy impact tests to investigate and detect process defects of a Ni-based superalloy elaborated by laser powder bed fusion. https:\/\/doi.org\/10.1016\/j.jmrt.2023.07.064<\/td>\n<\/tr>\n<tr class=\"row-12\">\n\t<td class=\"column-1\">LGP<br \/>\nArticle<\/td><td class=\"column-2\">2023<\/td><td class=\"column-3\">PBF AlSi10Mg<\/td><td class=\"column-4\">In Situ Ageing with the Platform Preheating of AlSi10Mg Alloy Manufactured by Laser PowderBed Fusion Process. https:\/\/doi.org\/10.3390\/met12122148<\/td>\n<\/tr>\n<tr class=\"row-13\">\n\t<td class=\"column-1\">LGP<br \/>\n<br \/>\nPhD<\/td><td class=\"column-2\">2023-<\/td><td class=\"column-3\">LPBF surface roughness<\/td><td class=\"column-4\">Modeling surface roughness in LPBF<\/td>\n<\/tr>\n<tr class=\"row-14\">\n\t<td class=\"column-1\">LGP<\/td><td class=\"column-2\">2023<\/td><td class=\"column-3\">LPBF multiscale simulation modelling<\/td><td class=\"column-4\">Global-to-local simulation of the thermal history in the laser powder bed fusion process based on a multiscale finite element approach<\/td>\n<\/tr>\n<tr class=\"row-15\">\n\t<td class=\"column-1\">LGP<\/td><td class=\"column-2\">2023<\/td><td class=\"column-3\">LPBF Powder contamination<\/td><td class=\"column-4\"> Identifying main contamination factors of laser powder bed fusion reactive powders<\/td>\n<\/tr>\n<tr class=\"row-16\">\n\t<td class=\"column-1\">LGP<br \/>\nSubmitted article<\/td><td class=\"column-2\">2023<\/td><td class=\"column-3\">Design,<br \/>\nHeat Echanger,<br \/>\nCFD topological optimization<\/td><td class=\"column-4\">Topological optimization of an inlet heat exchanger for additive manufacturing, and comparizon of 3 methods.<\/td>\n<\/tr>\n<tr class=\"row-17\">\n\t<td class=\"column-1\">ICA<br \/>\nPhD<\/td><td class=\"column-2\">2023-<\/td><td class=\"column-3\">Lattices<\/td><td class=\"column-4\">Etude et caract\u00e9risation du comportement dynamique de structures lattices m\u00e9talliques obtenues par Fabrication Additive (proc\u00e9d\u00e9 LBM)<\/td>\n<\/tr>\n<tr class=\"row-18\">\n\t<td class=\"column-1\">LGP<br \/>\nConference<\/td><td class=\"column-2\">2022<\/td><td class=\"column-3\">Education in metal additive manufacturing<\/td><td class=\"column-4\">A collaborative approach for the effective training of engineers in Metal Additive Manufacturing for the die and mould sector, EAEEIE<\/td>\n<\/tr>\n<tr class=\"row-19\">\n\t<td class=\"column-1\">LGP<br \/>\n<br \/>\nPhD<\/td><td class=\"column-2\">2022-<\/td><td class=\"column-3\">LPBF in situ defect detection<\/td><td class=\"column-4\">Detection of LPBF process defects using AI and ultrasonic \/ photodiode sensors<\/td>\n<\/tr>\n<tr class=\"row-20\">\n\t<td class=\"column-1\">ICA<br \/>\nPhD<\/td><td class=\"column-2\">2022-<\/td><td class=\"column-3\">Micromilling<\/td><td class=\"column-4\">Micromilling of titanium alloys: a comparison between workpieces produced by casting, ecap and 3d printing (slm)<\/td>\n<\/tr>\n<tr class=\"row-21\">\n\t<td class=\"column-1\">ICA<br \/>\nPhD<\/td><td class=\"column-2\">2022-<\/td><td class=\"column-3\">fatigue<\/td><td class=\"column-4\">Int\u00e9gration des propri\u00e9t\u00e9s des Microstructures g\u00e9n\u00e9r\u00e9es par Fabrication Additive dans les mod\u00e8les de pr\u00e9dictIon de la dur\u00e9e de vie en fatigue<\/td>\n<\/tr>\n<tr class=\"row-22\">\n\t<td class=\"column-1\">ICA<br \/>\nPhD<\/td><td class=\"column-2\">2022-<\/td><td class=\"column-3\">Lattices<\/td><td class=\"column-4\">Multiscale topology optimization framework with applications in ecodesign and ALM<\/td>\n<\/tr>\n<tr class=\"row-23\">\n\t<td class=\"column-1\">ICA<br \/>\nPhD<\/td><td class=\"column-2\">2022-<\/td><td class=\"column-3\">Material behaviour and durability<\/td><td class=\"column-4\">Novel fabrication of Alloy 625 and MCrAlY bond coat by laser powder bed fusion and microstructure control<\/td>\n<\/tr>\n<tr class=\"row-24\">\n\t<td class=\"column-1\">LGP<br \/>\nArticle<\/td><td class=\"column-2\">2022<\/td><td class=\"column-3\">DED Ti6Al4V<\/td><td class=\"column-4\">Influence of deposit and process parameters on microstructure and mechanical properties of Ti6Al4V obtained by DED-W (PAW). https:\/\/doi.org\/10.1016\/j.jmrt.2022.03.169<\/td>\n<\/tr>\n<tr class=\"row-25\">\n\t<td class=\"column-1\">LGP<br \/>\nPhD<\/td><td class=\"column-2\">2021<\/td><td class=\"column-3\">Process modelling<\/td><td class=\"column-4\">Halbronn 3D collaboration<\/td>\n<\/tr>\n<tr class=\"row-26\">\n\t<td class=\"column-1\">ICA<br \/>\nConference<\/td><td class=\"column-2\">2021\/04<\/td><td class=\"column-3\">Material behaviour and durability<\/td><td class=\"column-4\">Effect of powder size and processing parameters on surface, density and mechanical properties of stainless steel 316L elaborated by Laser Powder Bed Fusion, https:\/\/www.fatigue2021.com<\/td>\n<\/tr>\n<tr class=\"row-27\">\n\t<td class=\"column-1\">ICA<br \/>\nConference<\/td><td class=\"column-2\">2021\/03<\/td><td class=\"column-3\">Heat treatment, fatigue<\/td><td class=\"column-4\">Effect of a post-fabrication annealing treatment on fatigue behaviour of additive manufactured inconel 625, https:\/\/www.fatigue2021.com<\/td>\n<\/tr>\n<tr class=\"row-28\">\n\t<td class=\"column-1\">ICA<br \/>\nConference<\/td><td class=\"column-2\">2021\/03<\/td><td class=\"column-3\">Fatigue<\/td><td class=\"column-4\">High cycle fatigue behavior of additive manufactured stainless steel 316l: free surface effect and microstructural heterogeneity, https:\/\/www.fatigue2021.com<br \/>\n<\/td>\n<\/tr>\n<tr class=\"row-29\">\n\t<td class=\"column-1\">ICA<br \/>\nArticle<\/td><td class=\"column-2\">2021\/01<\/td><td class=\"column-3\">Process developpement WAAM<\/td><td class=\"column-4\">Continuous three-dimensional path planning (CTPP) for complex thin parts with wire arc additive manufacturing, https:\/\/doi.org\/10.1016\/j.addma.2020.101622<\/td>\n<\/tr>\n<tr class=\"row-30\">\n\t<td class=\"column-1\">ICA<br \/>\nConference<\/td><td class=\"column-2\">2021\/01<\/td><td class=\"column-3\">Design<\/td><td class=\"column-4\">Topology Optimization of Additive Layer Manufacturing products using Generalized Geometric Projection, http:\/\/virtual.wccm-eccomas2020.org<\/td>\n<\/tr>\n<tr class=\"row-31\">\n\t<td class=\"column-1\">LGP<br \/>\nConference<\/td><td class=\"column-2\">2021<\/td><td class=\"column-3\">WAAM Ti6Al4V<\/td><td class=\"column-4\">Study of the Impact of the Synergic Line and the Strategy of Conception on Ti-6Al-4V Wire Arc Additive Manufacturing Process (WAAM-CMT). Materials Science Forum<\/td>\n<\/tr>\n<tr class=\"row-32\">\n\t<td class=\"column-1\">LGP<br \/>\nConference<\/td><td class=\"column-2\">2021<\/td><td class=\"column-3\">WLAM Ti6Al4V<\/td><td class=\"column-4\">Additive Manufacturing of Ti6Al4V with Wire Laser Metal Deposition Process. Materials Science Forum<\/td>\n<\/tr>\n<tr class=\"row-33\">\n\t<td class=\"column-1\">LGP<br \/>\narticle<\/td><td class=\"column-2\">2021<\/td><td class=\"column-3\">Design,<br \/>\nHeat Exchangers,<br \/>\nsCO2<\/td><td class=\"column-4\">CFD simulation to compare cooling efficiency of s-CO2 and Water in an optimized thermal cooling heat sink. https:\/\/doi.org\/10.1002\/mma.8535<\/td>\n<\/tr>\n<tr class=\"row-34\">\n\t<td class=\"column-1\">ICA<br \/>\nPhD<\/td><td class=\"column-2\">2021<\/td><td class=\"column-3\">Process developpement SLM DED<\/td><td class=\"column-4\">Etude de la compl\u00e9mentarit\u00e9 des proc\u00e9d\u00e9s SLM et DED pour la r\u00e9paration des pi\u00e8ces issues de la SLM en A\u00e9ronautique\u00a0<\/td>\n<\/tr>\n<tr class=\"row-35\">\n\t<td class=\"column-1\">ICA<br \/>\nPhD<\/td><td class=\"column-2\">2021<\/td><td class=\"column-3\">Process developpement<\/td><td class=\"column-4\">Plannification de trajectoire optimale de fabrication WAAM  \"Continuous Three-dimensional Path Planning\" (CTPP) <\/td>\n<\/tr>\n<tr class=\"row-36\">\n\t<td class=\"column-1\">ICA<br \/>\nPhD<\/td><td class=\"column-2\">2021<\/td><td class=\"column-3\">Material behaviour and durability<\/td><td class=\"column-4\">Effect of selective laser melting (SLM) process parameters on microstructure, mechanical and fatigue behaviour of 316 L stainless steel<\/td>\n<\/tr>\n<tr class=\"row-37\">\n\t<td class=\"column-1\">ICA<br \/>\nPhD<\/td><td class=\"column-2\">2021<\/td><td class=\"column-3\">DED<\/td><td class=\"column-4\">Aeronautical metallic components repair using Direct Energy Deposition (DED) process<\/td>\n<\/tr>\n<tr class=\"row-38\">\n\t<td class=\"column-1\">LGP<br \/>\nArticle<\/td><td class=\"column-2\">2021<\/td><td class=\"column-3\">Laser Welding 316L<\/td><td class=\"column-4\">Laser Welding of AISI 316L Stainless Steel Produced by Additive Manufacturing or by Conventional Processes. https:\/\/doi.org\/10.3390\/jmmp5040136<\/td>\n<\/tr>\n<tr class=\"row-39\">\n\t<td class=\"column-1\">LGP<br \/>\nPhD<br \/>\n<\/td><td class=\"column-2\">2024<\/td><td class=\"column-3\">Material behaviour and durability<\/td><td class=\"column-4\">Collins collaboration<\/td>\n<\/tr>\n<tr class=\"row-40\">\n\t<td class=\"column-1\">LGP<br \/>\nPhD<\/td><td class=\"column-2\">2020\/12<\/td><td class=\"column-3\">Design, machining, SLM<\/td><td class=\"column-4\">D\u00e9veloppement d'une m\u00e9thodologie pour la fabrication additive dans un contexte de fabrication de pi\u00e8ces m\u00e9talliques par usinage<\/td>\n<\/tr>\n<tr class=\"row-41\">\n\t<td class=\"column-1\">ICA<br \/>\nArticle<\/td><td class=\"column-2\">2020\/12<\/td><td class=\"column-3\">Residual stress SLM<\/td><td class=\"column-4\">A new insight on the analysis of residual stresses related distortions in selective laser melting of Ti-6Al-4V using the improved bridge curvature method, https:\/\/doi.org\/10.1016\/j.addma.2020.101586<\/td>\n<\/tr>\n<tr class=\"row-42\">\n\t<td class=\"column-1\">ICA<br \/>\nArticle<\/td><td class=\"column-2\">2020\/12<\/td><td class=\"column-3\">Micromilling SLM<\/td><td class=\"column-4\">The influence of additive manufacturing on the micromilling machinability of Ti6Al4V: A comparison of SLM and commercial workpieces, https:\/\/doi.org\/10.1016\/j.jmapro.2020.10.006<\/td>\n<\/tr>\n<tr class=\"row-43\">\n\t<td class=\"column-1\">ICA<br \/>\nArticle<\/td><td class=\"column-2\">2020\/10<\/td><td class=\"column-3\">Residual stress<\/td><td class=\"column-4\">Electron Backscattered Diffraction to Estimate Residual Stress Levels of a Superalloy Produced by Laser Powder Bed Fusion and Subsequent Heat Treatments<\/td>\n<\/tr>\n<tr class=\"row-44\">\n\t<td class=\"column-1\">ICA<br \/>\nArticle<\/td><td class=\"column-2\">2020\/09<\/td><td class=\"column-3\">Material behaviour and durability<\/td><td class=\"column-4\">High temperature oxidation of NiCrAlY coated Alloy 625 manufactured by selective laser melting, https:\/\/doi.org\/10.1016\/j.surfcoat.2020.126041<\/td>\n<\/tr>\n<tr class=\"row-45\">\n\t<td class=\"column-1\">ICA<br \/>\nArticle<\/td><td class=\"column-2\">2020\/07<\/td><td class=\"column-3\">Heat treatment SLM<\/td><td class=\"column-4\">Heat treatments design for superior high-temperature tensile properties of Alloy 625 produced by selective laser melting, https:\/\/doi.org\/10.1016\/j.msea.2020.139720<\/td>\n<\/tr>\n<tr class=\"row-46\">\n\t<td class=\"column-1\">ICA<br \/>\nArticle<\/td><td class=\"column-2\">2020\/07<\/td><td class=\"column-3\">Fatigue SLM<\/td><td class=\"column-4\">A numerical investigation of the high cycle fatigue sensitivity to microstructure and defect<\/td>\n<\/tr>\n<tr class=\"row-47\">\n\t<td class=\"column-1\">LGP<br \/>\nConference<\/td><td class=\"column-2\">2020\/03<\/td><td class=\"column-3\">Material behaviour and durability<\/td><td class=\"column-4\">Direct heat sink printing on metallized ceramic substrate for power electronics applications: heat treatment identification and its impacts.<br \/>\n<br \/>\nhttps:\/\/www.researchgate.net\/publication\/341822901<\/td>\n<\/tr>\n<tr class=\"row-48\">\n\t<td class=\"column-1\">IRT, I2M<br \/>\nArticle<\/td><td class=\"column-2\">2020\/03<\/td><td class=\"column-3\">Material behaviour and durability<\/td><td class=\"column-4\">Investigation of the sensitivity of the fatigue resistance to defect position in aluminium alloys obtained by selective laser melting using artificial defects<br \/>\n<br \/>\nhttps:\/\/doi.org\/10.1016\/j.ijfatigue.2020.105505<br \/>\n<\/td>\n<\/tr>\n<tr class=\"row-49\">\n\t<td class=\"column-1\">ICA<br \/>\nArticle<\/td><td class=\"column-2\">2020\/01<\/td><td class=\"column-3\">bond coat onto SLM part<\/td><td class=\"column-4\">A novel approach to the production of NiCrAlY bond coat onto IN625 superalloy by selective laser melting, https:\/\/doi.org\/10.1016\/j.addma.2019.100998<\/td>\n<\/tr>\n<tr class=\"row-50\">\n\t<td class=\"column-1\">IRT<br \/>\nArticle<\/td><td class=\"column-2\">2020\/01<\/td><td class=\"column-3\">Material behaviour and durability<\/td><td class=\"column-4\">Influence of manufacturing orientations on the morphology of alloy 718 single struts manufactured by selective laser melting<br \/>\n<br \/>\nhttps:\/\/doi.org\/10.1002\/mdp2.140<\/td>\n<\/tr>\n<tr class=\"row-51\">\n\t<td class=\"column-1\">LGP<br \/>\nArticle<\/td><td class=\"column-2\">2020<\/td><td class=\"column-3\">Design (DfAM),<br \/>\nMachining<\/td><td class=\"column-4\">A new method of Design for Additive Manufacturing (DfAM) including topology optimization and machining A new method of design for additive manufacturing including machining constraints.<br \/>\n<br \/>\nhttps:\/\/doi.org\/10.1007\/s00170-020-06059-2<\/td>\n<\/tr>\n<tr class=\"row-52\">\n\t<td class=\"column-1\">IRT, ENIT<br \/>\nCollaborative project<\/td><td class=\"column-2\">2020<\/td><td class=\"column-3\">Material behaviour and durability<\/td><td class=\"column-4\">AnDDurO project<\/td>\n<\/tr>\n<tr class=\"row-53\">\n\t<td class=\"column-1\">ESTIA, ENIT<br \/>\nCollaborative project<\/td><td class=\"column-2\">2020<\/td><td class=\"column-3\">Process developpement, Material behaviour and durability<\/td><td class=\"column-4\">ADDIMAFIL project<\/td>\n<\/tr>\n<tr class=\"row-54\">\n\t<td class=\"column-1\">ICA<br \/>\nPhD<\/td><td class=\"column-2\">2020<\/td><td class=\"column-3\">CoCr SLM<\/td><td class=\"column-4\">Additive layer manufacturing for industrial applications.<\/td>\n<\/tr>\n<tr class=\"row-55\">\n\t<td class=\"column-1\">ICA<br \/>\nPhD<\/td><td class=\"column-2\">2020<\/td><td class=\"column-3\">Fatigue<\/td><td class=\"column-4\">Comportement en fatigue \u00e0 grand nombre de cycle d\u2019un acier inoxydable 316L obtenu par fabrication additive : effets de la microstructure, de la rugosit\u00e9 et des d\u00e9fauts<\/td>\n<\/tr>\n<tr class=\"row-56\">\n\t<td class=\"column-1\">ICA<br \/>\nPhD<\/td><td class=\"column-2\">2020<\/td><td class=\"column-3\">Residual stress<\/td><td class=\"column-4\">Contr\u00f4le de proc\u00e9d\u00e9 et de conditions de fabrication additive 3D sur les contraintes internes et les traitements thermiques post-fabrication : r\u00f4le des surfaces\/ microstructures sur la tenue en fatigue<\/td>\n<\/tr>\n<tr class=\"row-57\">\n\t<td class=\"column-1\">LGP<br \/>\nConference<\/td><td class=\"column-2\">2020<\/td><td class=\"column-3\">WAAM Ti6Al4V<\/td><td class=\"column-4\">Effects of WAAM Process Parameters on Metallurgical and Mechanical Properties of Ti-6Al-4V Deposits, Advances in Materials, Mechanics and Manufacturing<\/td>\n<\/tr>\n<tr class=\"row-58\">\n\t<td class=\"column-1\">LGP<br \/>\nConference<\/td><td class=\"column-2\">2020<\/td><td class=\"column-3\">WAAM and WLAM TI6Al4V<\/td><td class=\"column-4\">Study of arc \u2013 wire and laser \u2013 wire processes for the realization of Ti6Al4V alloy parts, MATEC Web Conf.<\/td>\n<\/tr>\n<\/tbody>\n<\/table>\n<!-- #tablepress-8 from cache -->\n\n\n\n<p>Publications plus anciennes : <\/p>\n\n\n\n\n<table id=\"tablepress-7\" class=\"tablepress tablepress-id-7\">\n<thead>\n<tr class=\"row-1\">\n\t<th class=\"column-1\">Plate-forme, Type publication, Topic<\/th><th class=\"column-2\">Date<\/th><th class=\"column-3\">Topic<\/th><th class=\"column-4\">Titre, Lien Web<\/th>\n<\/tr>\n<\/thead>\n<tbody class=\"row-striping row-hover\">\n<tr class=\"row-2\">\n\t<td class=\"column-1\">ICA<br \/>\nArticle<\/td><td class=\"column-2\">2019\/10<\/td><td class=\"column-3\">Process developpement Binder Jetting<\/td><td class=\"column-4\">Manufacturing of gypsum\u2013sisal fiber composites using binder jetting, https:\/\/doi.org\/10.1016\/j.addma.2019.100789<\/td>\n<\/tr>\n<tr class=\"row-3\">\n\t<td class=\"column-1\">LGP, ESTIA<br \/>\nArticle<\/td><td class=\"column-2\">2019\/09<\/td><td class=\"column-3\">Material behaviour and durability<\/td><td class=\"column-4\">Effects of WAAM Process Parameters on Metallurgical and Mechanical Properties of Ti-6Al-4V Deposits.<br \/>\nhttps:\/\/oatao.univ-toulouse.fr\/25102<\/td>\n<\/tr>\n<tr class=\"row-4\">\n\t<td class=\"column-1\">IRT, I2M<br \/>\nOral presentation<\/td><td class=\"column-2\">2019\/06<\/td><td class=\"column-3\">Material behaviour and durability<\/td><td class=\"column-4\">Defect sensitivity in additively manufactured aluminium alloys: contribution of CAD artificial defects<br \/>\n<br \/>\nhttps:\/\/doi.org\/10.1051\/matecconf\/201930003006<\/td>\n<\/tr>\n<tr class=\"row-5\">\n\t<td class=\"column-1\">ICA<br \/>\nOral presentation<\/td><td class=\"column-2\">2019\/05<\/td><td class=\"column-3\">Design<\/td><td class=\"column-4\">Une approche par projection pour l\u2019optimisation topologique de structures imprim\u00e9es par fabrication additive, https:\/\/csma2019.sciencesconf.org\/<\/td>\n<\/tr>\n<tr class=\"row-6\">\n\t<td class=\"column-1\">IRT<br \/>\nArticle<br \/>\n<\/td><td class=\"column-2\">2019\/04<\/td><td class=\"column-3\">Material behaviour and durability<\/td><td class=\"column-4\">Identification of relationships between heat treatment and fatigue crack growth of \u03b1\u03b2 titanium alloys.<br \/>\nhttps:\/\/www.mdpi.com\/2075-4701\/9\/5\/512<br \/>\n<\/td>\n<\/tr>\n<tr class=\"row-7\">\n\t<td class=\"column-1\">IRT<br \/>\nOral presentation<\/td><td class=\"column-2\">2019\/04<\/td><td class=\"column-3\">Process developpement<\/td><td class=\"column-4\">Banc exp\u00e9rimental pour l\u2019analyse in-situ autour du proc\u00e9d\u00e9 de fusion par laser lit de poudre <br \/>\n<br \/>\nhttps:\/\/s-mart2019.event.univ-lorraine.fr\/file\/513592<\/td>\n<\/tr>\n<tr class=\"row-8\">\n\t<td class=\"column-1\">IRT, LGP<br \/>\nCollaborative project<\/td><td class=\"column-2\">2019<\/td><td class=\"column-3\">Material behaviour and durability<\/td><td class=\"column-4\">MetalTechnics,<br \/>\nDevelopment of high performances metallic materials for aeronautical and space applications. <br \/>\nPartners: IRT, Aubert, Duval, Exova, PMG, FUSIA, COSTELLIUM, ENSMA, TOMOADOUR, TIMET, 3A, THALES, AIRBUS FUI ADDIMAFIL.<\/td>\n<\/tr>\n<tr class=\"row-9\">\n\t<td class=\"column-1\">ICA<br \/>\nPresentation<\/td><td class=\"column-2\">2019<\/td><td class=\"column-3\">Material behaviour and durability<\/td><td class=\"column-4\">Fabrication additive d\u2019alliage (NiTi) \u00e0 m\u00e9moire de forme pour outillage \u00e0 application m\u00e9dicale<\/td>\n<\/tr>\n<tr class=\"row-10\">\n\t<td class=\"column-1\">LGP<br \/>\nArticle<\/td><td class=\"column-2\">2018\/12<\/td><td class=\"column-3\">Process modelling<\/td><td class=\"column-4\">Knowledge-Based Design of Artificial Neural Network Topology for Additive Manufacturing Process Modeling: A New Approach and Case Study for Fused Deposition Modeling<br \/>\n<br \/>\nhttp:\/\/www.sfu.ca\/~gwa5\/pdf\/2019_04.pdf<\/td>\n<\/tr>\n<tr class=\"row-11\">\n\t<td class=\"column-1\">LGP<br \/>\nPhD<\/td><td class=\"column-2\">2018>20<\/td><td class=\"column-3\">Process modelling, machining<\/td><td class=\"column-4\">Mecapole collaboration<\/td>\n<\/tr>\n<tr class=\"row-12\">\n\t<td class=\"column-1\">IRT<br \/>\nArticle<\/td><td class=\"column-2\">2018\/07<\/td><td class=\"column-3\">Material behaviour and durability<\/td><td class=\"column-4\">Influence of Microstructure and Surface Roughness on Oxidation Kinetics at 500\u2013600 \u00b0C of Ti\u20136Al\u20134V Alloy Fabricated by Additive Manufacturing.<br \/>\n<br \/>\nhttps:\/\/link.springer.com\/content\/pdf\/10.1007\/s11085-018-9859-0.pdf<\/td>\n<\/tr>\n<tr class=\"row-13\">\n\t<td class=\"column-1\">ESTIA, LGP<br \/>\nCollaborative project<\/td><td class=\"column-2\">2018<\/td><td class=\"column-3\">Process developpement<\/td><td class=\"column-4\">AddiTool :<br \/>\nLaser cladding new technologies for hotforming tooling<\/td>\n<\/tr>\n<tr class=\"row-14\">\n\t<td class=\"column-1\">ICA<br \/>\nOral presentation<\/td><td class=\"column-2\">2018<\/td><td class=\"column-3\">Material behaviour and durability<\/td><td class=\"column-4\">Investigations microstructurales sur un alliage \u00e0 m\u00e9moire de forme NiTi obtenu par fabrication additive SLM<\/td>\n<\/tr>\n<tr class=\"row-15\">\n\t<td class=\"column-1\">ICA<br \/>\nPresentation<\/td><td class=\"column-2\">2018<\/td><td class=\"column-3\">Material behaviour and durability<\/td><td class=\"column-4\">Influence des param\u00e8tres de proc\u00e9d\u00e9 de fabrication additive SLM sur l\u2019\u00e9tat microstructural de d\u00e9p\u00f4ts base cobalt<\/td>\n<\/tr>\n<tr class=\"row-16\">\n\t<td class=\"column-1\">IRT<br \/>\nOral presentation<\/td><td class=\"column-2\">2018\/05<\/td><td class=\"column-3\">Process modelling<\/td><td class=\"column-4\">Discrete element method to study the powder-bed distribution and density in selective laser manufacturing<br \/>\n<br \/>\n<\/td>\n<\/tr>\n<tr class=\"row-17\">\n\t<td class=\"column-1\">ICA<br \/>\nArticle<\/td><td class=\"column-2\">2018\/08<\/td><td class=\"column-3\">residual stress SLM<\/td><td class=\"column-4\">Improvement of the bridge curvature method to assess residual stresses in selective laser melting, https:\/\/doi.org\/10.1016\/j.addma.2018.05.025<\/td>\n<\/tr>\n<tr class=\"row-18\">\n\t<td class=\"column-1\">ICA<br \/>\nArticle<\/td><td class=\"column-2\">2018\/09<\/td><td class=\"column-3\">Material behaviour and durability<\/td><td class=\"column-4\">Effects of Selective Laser Melting additive manufacturing parameters of Inconel 718 on porosity, microstructure and mechanical properties, https:\/\/doi.org\/10.1016\/j.msea.2018.08.037<\/td>\n<\/tr>\n<tr class=\"row-19\">\n\t<td class=\"column-1\">ICA<br \/>\nArticle<\/td><td class=\"column-2\">2018\/09<\/td><td class=\"column-3\">Material behaviour and durability WAAM<\/td><td class=\"column-4\">Characterisation of 4043 aluminium alloy deposits obtained by wire and arc additive manufacturingusing a Cold Metal Transfer process, https:\/\/doi.org\/10.1080\/13621718.2018.1564986<\/td>\n<\/tr>\n<tr class=\"row-20\">\n\t<td class=\"column-1\">ICA<br \/>\nOral presentation<\/td><td class=\"column-2\">2018\/06<\/td><td class=\"column-3\">Fatigue<\/td><td class=\"column-4\">Numerical investigation of the competition between roughness and defect in high cycle fatigue, https:\/\/sf2m.edpsciences.org\/fatigue-2018<\/td>\n<\/tr>\n<tr class=\"row-21\">\n\t<td class=\"column-1\">LGP<br \/>\nR&amp;D projects<\/td><td class=\"column-2\">2017>20<\/td><td class=\"column-3\">Material behaviour, Design<\/td><td class=\"column-4\">ALSTOM collaboration<\/td>\n<\/tr>\n<tr class=\"row-22\">\n\t<td class=\"column-1\">LGP<br \/>\nR&amp;D projects<\/td><td class=\"column-2\">2017>20<\/td><td class=\"column-3\">Design<\/td><td class=\"column-4\">TOTAL collaboration<\/td>\n<\/tr>\n<tr class=\"row-23\">\n\t<td class=\"column-1\">ICA<br \/>\nPhD<\/td><td class=\"column-2\">2017<\/td><td class=\"column-3\">Fatigue<\/td><td class=\"column-4\">Comportement en fatigue et r\u00e9sistance \u00e0 l'endommagement d'alliages a\u00e9ronautiques fabriqu\u00e9s par fusion s\u00e9lective par laser (SLM)<\/td>\n<\/tr>\n<tr class=\"row-24\">\n\t<td class=\"column-1\">ICA<br \/>\nOral presentation<\/td><td class=\"column-2\">2016<\/td><td class=\"column-3\">Residual stress<\/td><td class=\"column-4\">Evaluation des contraintes r\u00e9siduelles dans les alliages de Ti-6Al-4V mis en forme par SLM et \u00abSpark Plasma Sintering-SPS\u00bb, https:\/\/hal.archives-ouvertes.fr\/hal-02047816<\/td>\n<\/tr>\n<tr class=\"row-25\">\n\t<td class=\"column-1\">ICA<br \/>\nOral presentation<\/td><td class=\"column-2\">2016<\/td><td class=\"column-3\">Residual stress<\/td><td class=\"column-4\">\u00c9valuation des contraintes r\u00e9siduelles dans l\u2019alliages Ti-6Al-4V mis en forme par SLM<\/td>\n<\/tr>\n<\/tbody>\n<\/table>\n<!-- #tablepress-7 from cache -->\n\n\n\n<p><\/p>\n","protected":false},"excerpt":{"rendered":"<p>Publications plus anciennes 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