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Djamel Remache
Researcher at Franche Comté Électronique Mécanique Thermique et Optique Sciences et Technologies
Publications - 15
Citations - 131
Djamel Remache is an academic researcher from Franche Comté Électronique Mécanique Thermique et Optique Sciences et Technologies. The author has contributed to research in topics: Titanium alloy & Surface roughness. The author has an hindex of 4, co-authored 13 publications receiving 85 citations. Previous affiliations of Djamel Remache include Aix-Marseille University & University of Franche-Comté.
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The effects of cyclic tensile and stress-relaxation tests on porcine skin
TL;DR: The results showed that the mechanical behavior of the skin was strongly influenced by cycling and stress relaxation tests, and the hysteresis loops became very narrow at the end of cycling and after relaxation process.
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Geometrical analysis of the V–Y advancement flap applied to a keystone flap
TL;DR: The geometrical analysis of the V-Y advancement flap is developed and illustrates the major benefit of the keystone flap over a single V-y advancement flap.
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Application of the Johnson-Cook plasticity model in the finite element simulations of the nanoindentation of the cortical bone.
TL;DR: The purpose of the current study was to apply an isotropic hardening model in the finite element simulations of the nanoindentation of the cortical bone to predict its mechanical behavior and the JC model showed a good capability to describe the elastoplastic behavior of the cortex bone.
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Effect of silver and strontium incorporation route on hydroxyapatite coatings elaborated by rf-SPS
Marine Chambard,Marine Chambard,Djamel Remache,Yannick Balcaen,Olivier Dalverny,Joël Alexis,Robin Siadous,Reine Bareille,Sylvain Catros,Pascal Fort,David Grossin,François Gitzhofer,Ghislaine Bertrand +12 more
TL;DR: In this paper, radiofrequency suspension plasma spraying (SPSP) was used to elaborate the hydroxyapatite coatings with silver and strontium, which achieved a high level of crystallinity ratio (ISO 13,779) and a high proportion of hydropyroxypatite for most of the coatings.
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Finite element analysis to determine stress fields at the apex of V-Y flaps
TL;DR: A mathematical model based on the finite element analysis determined the stress field by simulating the mechanical behavior of human skin during suture and confirmed the role of tension in the necrosis of this particular case.