Marco D. de Tullio
Marco D. de Tullio
Professor, Mechanical Engineering, Politecnico di Bari
Zweryfikowany adres z poliba.it
Cytowane przez
Cytowane przez
An immersed boundary method for compressible flows using local grid refinement
MD de Tullio, P De Palma, G Iaccarino, G Pascazio, M Napolitano
Journal of Computational Physics 225 (2), 2098-2117, 2007
An immersed-boundary method for compressible viscous flows
P De Palma, MD De Tullio, G Pascazio, M Napolitano
Computers & fluids 35 (7), 693-702, 2006
The preferential targeting of the diseased microvasculature by disk-like particles
G Adriani, MD de Tullio, M Ferrari, F Hussain, G Pascazio, X Liu, ...
Biomaterials 33 (22), 5504-5513, 2012
Direct numerical simulation of the pulsatile flow through an aortic bileaflet mechanical heart valve
MD De Tullio, A Cristallo, E Balaras, R Verzicco
Journal of Fluid Mechanics 622, 259-290, 2009
A moving-least-squares immersed boundary method for simulating the fluid–structure interaction of elastic bodies with arbitrary thickness
MD de Tullio, G Pascazio
Journal of Computational Physics 325, 201-225, 2016
Numerical simulation of the non-Newtonian blood flow through a mechanical aortic valve: Non-Newtonian blood flow in the aortic root
F De Vita, MD De Tullio, R Verzicco
Theoretical and computational fluid dynamics 30, 129-138, 2016
Flow structure in healthy and pathological left ventricles with natural and prosthetic mitral valves
V Meschini, MD De Tullio, G Querzoli, R Verzicco
Journal of fluid mechanics 834, 271-307, 2018
A parallel interaction potential approach coupled with the immersed boundary method for fully resolved simulations of deformable interfaces and membranes
V Spandan, V Meschini, R Ostilla-Mónico, D Lohse, G Querzoli, ...
Journal of computational physics 348, 567-590, 2017
Numerical simulation of pyroclastic density currents using locally refined Cartesian grids
DM Doronzo, MD De Tullio, P Dellino, G Pascazio
Computers & fluids 44 (1), 56-67, 2011
Numerical analysis of the effect of topography on deposition from dilute pyroclastic density currents
DM Doronzo, GA Valentine, P Dellino, MD de Tullio
Earth and Planetary Science Letters 300 (1-2), 164-173, 2010
A strain-based model for mechanical hemolysis based on a coarse-grained red blood cell model
HM Ezzeldin, MD de Tullio, M Vanella, SD Solares, E Balaras
Annals of biomedical engineering 43, 1398-1409, 2015
Computational prediction of mechanical hemolysis in aortic valved prostheses
MD De Tullio, J Nam, G Pascazio, E Balaras, R Verzicco
European Journal of Mechanics-B/Fluids 35, 47-53, 2012
On the effect of aortic root geometry on the coronary entry-flow after a bileaflet mechanical heart valve implant: a numerical study
MD de Tullio, G Pedrizzetti, R Verzicco
Acta Mechanica 216, 147-163, 2011
An immersed-boundary/isogeometric method for fluid–structure interaction involving thin shells
A Nitti, J Kiendl, A Reali, MD de Tullio
Computer Methods in Applied Mechanics and Engineering 364, 112977, 2020
A fast moving least squares approximation with adaptive Lagrangian mesh refinement for large scale immersed boundary simulations
V Spandan, D Lohse, MD de Tullio, R Verzicco
Journal of computational physics 375, 228-239, 2018
Effects of volcano profile on dilute pyroclastic density currents: numerical simulations
GA Valentine, DM Doronzo, P Dellino, MD de Tullio
Geology 39 (10), 947-950, 2011
siRNA-Chitosan Complexes in Poly(lactic-co-glycolic acid) Nanoparticles for the Silencing of Aquaporin-1 in Cancer Cells
C Stigliano, S Aryal, MD De Tullio, GP Nicchia, G Pascazio, M Svelto, ...
Molecular pharmaceutics 10 (8), 3186-3194, 2013
Fluid–structure interaction of deformable aortic prostheses with a bileaflet mechanical valve
MD De Tullio, L Afferrante, G Demelio, G Pascazio, R Verzicco
Journal of biomechanics 44 (9), 1684-1690, 2011
A combined Lattice Boltzmann and Immersed boundary approach for predicting the vascular transport of differently shaped particles
A Coclite, MD de Tullio, G Pascazio, P Decuzzi
Computers & Fluids 136, 260-271, 2016
Transient growth in the flow past a three-dimensional smooth roughness element
S Cherubini, MD De Tullio, P De Palma, G Pascazio
Journal of Fluid Mechanics 724, 642-670, 2013
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