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Antoine Jérusalem
Researcher at University of Oxford
Publications - 75
Citations - 2508
Antoine Jérusalem is an academic researcher from University of Oxford. The author has contributed to research in topics: Finite element method & Deformation mechanism. The author has an hindex of 22, co-authored 69 publications receiving 1872 citations. Previous affiliations of Antoine Jérusalem include IMDEA & Massachusetts Institute of Technology.
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Mechanics of the brain: perspectives, challenges, and opportunities
Alain Goriely,Mgd Marc Geers,Gerhard Holzapfel,Jayaratnam Jayamohan,Antoine Jérusalem,Sivabal Sivaloganathan,W Waney Squier,Jaw Hans van Dommelen,Sarah L. Waters,Ellen Kuhl +9 more
TL;DR: It is shown that classical mechanical concepts including deformations, stretch, strain, strain rate, pressure, and stress play a crucial role in modulating both brain form and brain function.
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Computational biology — Modeling of primary blast effects on the central nervous system
David F. Moore,Antoine Jérusalem,Michelle K. Nyein,Ludovic Noels,Michael S. Jaffee,Raul Radovitzky +5 more
TL;DR: CNS blast concussive effects were found to be similar between impact mild TBI and the blast field associated with LD(50) lung blast injury sustained without personal protective equipment, suggesting that blast concussed effects may more readily be ascertained in personnel due to enhanced survivability in the current conflicts.
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Mechanistic models versus machine learning, a fight worth fighting for the biological community?
TL;DR: There has been a vast increase in the use of machine learning models in the biomedical and clinical sciences to try and keep pace with the rate of data generation, and recent successes now beg the question of whether mechanistic models are still relevant in this area.
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Design of FDM 3D printed polymers: An experimental-modelling methodology for the prediction of mechanical properties
TL;DR: In this paper, a two-stage thermal and sintering model is developed to predict the bond formation process between filaments in 3D printed polymeric components with custom properties, directly in terms of manufacturing settings.
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On the microtwinning mechanism in a single crystal superalloy
D. Barba,E. Alabort,S. Pedrazzini,David M. Collins,Angus J. Wilkinson,Paj Bagot,Michael P. Moody,Colin Atkinson,Antoine Jérusalem,Roger C. Reed +9 more
TL;DR: In this article, the contribution of micro-twinning mechanism to the creep deformation behavior of single crystal superalloy MD2 is studied. But the authors do not consider diffusion-controlled growth of twins.