693.932 PEOPLE
| People | Locations | Statistics |
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| Naji, M. |
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| Motta, Antonella |
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| Aletan, Dirar |
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| Mohamed, Tarek |
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| Ertürk, Emre |
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| Taccardi, Nicola |
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| Kononenko, Denys |
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| Petrov, R. H. | Madrid |
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| Alshaaer, Mazen | Brussels |
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| Bih, L. |
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| Casati, R. |
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| Muller, Hermance |
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| Kočí, Jan | Prague |
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| Šuljagić, Marija |
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| Kalteremidou, Kalliopi-Artemi | Brussels |
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| Azam, Siraj |
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| Ospanova, Alyiya |
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| Blanpain, Bart |
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| Ali, M. A. |
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| Popa, V. |
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| Rančić, M. |
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| Ollier, Nadège |
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| Azevedo, Nuno Monteiro |
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| Landes, Michael |
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| Rignanese, Gian-Marco |
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Nouari, Mohammed
Institut de Mathématiques de Marseille
in Cooperation with on an Cooperation-Score of 37%
Topics
Publications (51/51 displayed)
- 2022Surface Quality in Dry Machining of CFRP Composite/Ti6Al4V Stack Laminatecitations
- 2022Effect of cryogenic friction conditions on surface qualitycitations
- 2022Effect of additive manufacturing process parameters on the titanium alloy microstructure, properties and surface integritycitations
- 2022Optimization of the milling process for aluminum honeycomb structurescitations
- 2022Surface integrity quantification in machining of aluminum honeycomb structurecitations
- 2022Optimization of the milling process for aluminum honeycomb structures ; Optimisation du procédé de fraisage des alliages d'aluminium nids d'abeillescitations
- 2021Thermomechanical modeling of crystallographic anisotropy effect on machining forces based on crystal plasticity frameworkcitations
- 2021Analysis of friction and cutting parameters when milling honeycomb composite structurescitations
- 2021Anisotropic elastoplastic phase field fracture modeling of 3D printed materialscitations
- 2021Study on the behavior law when milling the material of the Nomex honeycomb corecitations
- 20213D numerical modeling and experimental validation of machining Nomex® honeycomb materialscitations
- 2021Modeling and numerical simulation of the chip formation process when machining Nomexcitations
- 2020The Influence of Machining Conditions on The Milling Operations of Nomex Honeycomb Structure
- 2019Experimental and numerical study of DC04 sheet metal behaviour—plastic anisotropy identification and application to deep drawingcitations
- 2019Milling diagnosis using artificial intelligence approachescitations
- 2019Micromachining simulation using a crystal plasticity model: ALE and CEL approachescitations
- 2019Milling diagnosis using machine learning approaches
- 2018Investigation on the built-up edge process when dry machining aeronautical aluminum alloyscitations
- 2018Honeycomb Core Milling Diagnosis using Machine Learning in the Industry 4.0 Frameworkcitations
- 2018Milling Diagnosis Using Machine Learning Techniques Toward Industry 4.0
- 2017Prediction of the Cutting Forces and Chip Morphology When Machining the Ti6Al4V Alloy Using a Microstructural Coupled Modelcitations
- 2017Analytical modelling of the ball pin and plastic socket contact in a ball joint
- 2017A 3D FE Modeling of Machining Process of Nomex® Honeycomb Core: Influence of the Cell Structure Behaviour and Specific Tool Geometrycitations
- 2017Failure analysis of carbon fiber reinforced polymer multilayer composites during machining process
- 2016A thermomechanical analysis of sticking-sliding zones at the tool-chip interface in dry high-speed machining of aluminium alloy A2024–T351: A hybrid Analytical-Fe model
- 2016Numerical and experimental investigations of S-Glass/Polyester composite laminate plate under low energy impactcitations
- 2015Effect of the local friction and contact nature on the Built-Up Edge formation process in machining ductile metalscitations
- 2015A predictive hybrid force modeling in turning: application to stainless steel dry machining with a coated groove toolcitations
- 2015An Elastoplastic Constitutive Damage Model to Simulate the Chip Formation Process and Workpiece Subsurface Defects when Machining CFRP Compositescitations
- 2015An Elastoplastic Constitutive Damage Model to Simulate the Chip Formation Process and Workpiece Subsurface Defects when Machining CFRP Compositescitations
- 2015Multi-physics Modelling in Machining OFHC Copper – Coupling of Microstructure-based Flow Stress and Grain Refinement Modelscitations
- 2015Numerical analysis of the interaction between the cutting forces, induced cutting damage, and machining parameters of CFRP compositescitations
- 2015Numerical analysis of the interaction between the cutting forces, induced cutting damage, and machining parameters of CFRP compositescitations
- 2014Experimental and numerical analyses of the tool wear in rough turning of large dimensions components of nuclear power plantscitations
- 20142D and 3D numerical simulations of damage during the formation of successive chips when machining the aeronautical CFRP composites
- 20142D and 3D numerical simulations of damage during the formation of successive chips when machining the aeronautical CFRP composites
- 2014On the Physics of Machining Titanium Alloys: Interactions between Cutting Parameters, Microstructure and Tool Wearcitations
- 2014Modeling of the abrasive tool wear in metal cutting: Influence of the sliding-sticking contact zones
- 2014A new abrasive wear law for the sticking and sliding contacts when machining metallic alloyscitations
- 2014Tribological behaviour and tool wear analyses in rough turning of large-scale parts of nuclear power plants using grooved coated insertcitations
- 2013Experimental Study on Tool Wear when Machining Super Titanium Alloys: Ti6Al4V and Ti-555citations
- 2013Analytical stochastic modeling and experimental investigation on abrasive wear when turning difficult to cut materialscitations
- 2013Experimental investigation on the effect of the material microstructure on tool wear when machining hard titanium alloys: Ti–6Al–4V and Ti-555citations
- 2013Statistical approach for modeling abrasive tool wear and experimental validation when turning the difficult to cut Titanium Alloys Ti6Al4Vcitations
- 2013Quantification of the chip segmentation in metal machining: Application to machining the aeronautical aluminium alloy AA2024-T351 with cemented carbide tools WC-Cocitations
- 2013Modeling of the abrasive tool wear in metal cutting: Influence of the sliding-sticking contact zones
- 2013Experimental and analytical analyses of the cutting process in the deep hole drilling with BTA (Boring Trepanning Association) systemcitations
- 2013Modeling of velocity-dependent chip flow angle and experimental analysis when machining 304L austenitic stainless steel with groove coated-carbide toolscitations
- 2013Analysis of coating performances in machining titanium alloys for aerospace applicationscitations
- 2009Toward a better understanding of tool wear effect through a comparison between experiments and SPH numerical modelling of machining hard materialscitations
- 2009Toward a better understanding of tool wear effect through a comparison between experiments and SPH numerical modelling of machining hard materialscitations
Places of action
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article
Anisotropic elastoplastic phase field fracture modeling of 3D printed materials
Abstract
accepted ; International audience ; A phase field model for anisotropic, elastoplastic fracture model in layered structures obtained by 3D printing processes is proposed. An extension of anisotropic phase field to elastoplasticity model is developed. The model is able to describe a transition from quasi-brittle to elastoplastic fracture behaviors depending on the angle of layers in the microstructure with respect to the external loading. Such feature is of special interest to describe the anisotropic fracture behavior in layered 3D printed materials. The present model introduces two phase field variables, one bulk fracture damage and one micro interfacial damage variables, describing two different micro damage mechanisms. Finally, we have proposed an original methodology to identify the macroscopic strain density as a function of the micro interfacial damage variable using numerical homogenization on Representative Volume Elements. Numerical investigations show that the present model is convergent with respect to mesh refinement, and allows to describe complex crack initiation and propagation in layered elastoplastic structures. An experimental comparison is provided to validate the use of such model for 3D printed polymer materials.