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--- team:pjoris [2015/11/09 16:27] – [Research activities] joris
+++ team:pjoris [2024/03/01 16:15] (current) – boman
@@ Line 1: / Line 1: @@
-{{ :team:pj.png?cache=120|Pierre}}
+{{ :team:PJ.png?cache=150|Pierre}}
 ====== Pierre JORIS ======
-PhD Candidate \\
-Aspirant FNRS (Research Fellow)
-[[pjoris@ulg.ac.be]] \\
-Université de Liège - Aérospatiale et Mécanique/LTAS-MN2L \\
-Quartier Polytech 1 (office +2/541) \\
-Allée de la Découverte, 9 \\
-B-4000 Liège, BELGIUM  \\
 ===== Education =====
@@ Line 17: / Line 8: @@
 Master Thesis: //Comparison of constitutive models of
 composite materials in Metafor and Abaqus.// \\
-Supervisor: Prof. J-P. Ponthot.\\
+Supervisor: [[http://www.ulg.ac.be/cms/j_5871/repertoires?uid=U026455|Prof. J-P. Ponthot]].\\
+===== Positions =====
+**2014 - 2016** : PhD Candidate (FNRS grant), University of Liège, Belgium. \\ Supervisor: [[http://www.ulg.ac.be/cms/j_5871/repertoires?uid=U026455|Prof. J-P. Ponthot]].
+**2014** : Visiting Research Associate, Queen's Belfast University, Northern Ireland. \\ Supervisor: [[http://pure.qub.ac.uk/portal/en/persons/brian-falzon(d78c9de6-9bd7-4aea-a2ae-0e3c65ed53ab).html|Prof. B.G. Falzon]].
 ===== Research activities =====
@@ Line 25: / Line 22: @@
 **Keywords** : Computational Mechanics, Finite Elements Method (FEM), Large Deformation, Automatic Remeshing, Adaptive Mesh Refinement, Data Transfer, Arbitrary Lagrangian Eulerian Formulation (ALE), Metal Forming, Forging, Friction Stir Welding (FSW), Composite Materials.
-** Short Description** : The goal of my PhD is to improve the modelling of damage and fracture in complex materials under large deformation using the in-house nonlinear Finite Element software Metafor.
+** Short Description** : The goal of my PhD is to improve the modelling of damage and fracture in complex materials under large deformation using the in-house nonlinear Finite Element software Metafor. The strategy adopted consists in developing an automatic h-adaptive mesh refinement algorithm called “fission-fusion”, where elements can be split or merged when needed. This algorithm will then be combined with the already operational erosion algorithm and Arbitrary Lagrangian Eulerian formulation, and with a multiscale finite element squared approach currently under development.
+===== Automatic Remeshing Procedure and Applications =====
+The first objective in the completion of my PhD was to establish a fully automatic remeshing procedure which could be used to simulate a wide variety of mechanical processes where mesh distortion are significant.
+** Forging **
+<WRAP centeralign column 100%>
+{{url>https://www.youtube.com/embed/XI6hwatYT0M?rel=0 noborder allowfullscreen}}
+</WRAP>
-The strategy adopted consists in developing an automatic h-adaptive mesh refinement algorithm called “fission-fusion”, where elements can be split or merged when needed. This algorithm will then be combined with the already operational erosion algorithm and Arbitrary Lagrangian Eulerian formulation, and with a multiscale finite element squared approach currently under development.