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1.Hamzah BAKHTIorcid_16x16.png, Lahcen AZRAR, Mahmoud HAMADICHEorcid_16x16.png (2022).
Coupled numerical scheme for vascular fluid-tube interaction using large deformation theory: Application to aneurysm dynamics under pulsatile flow
Int. J. Appl. Comput. Math. 8, 127 (33 pages). doi:10.1007/s40819-022-01322-4 doi.ico hal.ico openalex-16x16.png
2.Mahmoud HAMADICHEorcid_16x16.png, Natalya KIZILOVA (2015).
Nature inspired optimal design of heat conveying networks for advanced fiber-reinforced composites
J. Therm. Eng. 1-7, 636–646. doi:10.18186/jte.30823 doi.ico hal.ico openalex-16x16.png
3.Mahmoud HAMADICHEorcid_16x16.png (2015).
Stability of turbine blades, aircraft wings and their acoustic radiation
J. Therm. Eng. 1-6, 488–495. doi:10.18186/jte.01319 doi.ico hal.ico openalex-16x16.png
4.Mahmoud HAMADICHEorcid_16x16.png (2015).
Numerical simulation and mathematical analysis of flow-wall interaction in the large deformation domain: application to the dynamics of the aneurysms
J. Therm. Eng. 1-1, 42–60. doi:10.18186/jte.03138 doi.ico hal.ico openalex-16x16.png
5.Natalya KIZILOVA, Mahmoud HAMADICHEorcid_16x16.png, M. GAD-EL-HAK (2012).
Mathematical models of biofluid flows in compliant ducts
Arch. Mech. 64, 65–94.
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6.Natalya KIZILOVA, Mahmoud HAMADICHEorcid_16x16.png, M. GAD-EL-HAK (2009).
Flow in compliant tubes: control and stabilization by multilayered coatings
Int. J. Flow Contr. 1, 199–211. doi:10.1260/175682509789877083 doi.ico openalex-16x16.png
7.Mahmoud HAMADICHEorcid_16x16.png, Natalya KIZILOVA, M. GAD-EL-HAK (2009).
Suppression of absolute instabilities in the flow inside a compliant tube
Commun. Numer. Methods Eng. 25, 505–531. doi:10.1002/cnm.1211 doi.ico openalex-16x16.png
8.Mahmoud HAMADICHEorcid_16x16.png (2007).
Elastic wing response's to an incoming gust
Int. J. Multiphys. 1, 153–174. doi:10.1260/175095407781421577 doi.ico openalex-16x16.png
9.Mahmoud HAMADICHEorcid_16x16.png, H. ABOU-SHADY (2006).
Optical fiber instability during coating process
J. Fluids Struct. 22, 599–615. doi:10.1016/j.jfluidstructs.2006.02.005 doi.ico hal.ico openalex-16x16.png
10.Mahmoud HAMADICHEorcid_16x16.png, Natalya KIZILOVA (2005).
Temporal and spatial instabilities of the flow in the blood vessels as multi-layered compliant tubes.
Int. J. Dyn. Fluids 1, 1–25.
11.Natalya KIZILOVA, Mahmoud HAMADICHEorcid_16x16.png (2005).
Stability analysis of blood flow in multilayered viscoelastic tubes.
Comput. Methods Biomech. Biomed. Eng. 8, 165–166.
12.Mahmoud HAMADICHEorcid_16x16.png, M. GAD-EL-HAK (2004).
Spatiotemporal stability of flow through collapsible, viscoelastic tubes.
AIAA J. 42, 772–786.
13.Mahmoud HAMADICHEorcid_16x16.png (2003).
Noise generation by an incoming gust landing in a swirling flow between two coaxial cylinders.
ERCOFTAC Bulletin , 59–61.
14.Mahmoud HAMADICHEorcid_16x16.png (2002).
Instabilités absolue et convective de l'écoulement de Poiseuille en conduite viscoélastique.
C. R. Méc. 330, 769–775. doi:10.1016/S1631-0721(02)01528-0 doi.ico openalex-16x16.png
15.Mahmoud HAMADICHEorcid_16x16.png, M. GAD-EL-HAK (2002).
Temporal stability of flow through viscoelastic tubes.
J. Fluids Struct. 16, 361–373.
16.Mahmoud HAMADICHEorcid_16x16.png (1999).
Flux d'énergie d'un écoulement de Poiseuille vers la paroi d'un tube élastique, a. Modes d'instabilité non axisymétriques.
C. r. Acad. sci., Sér. IIb Méc. 327, 1163–1170.
17.Mahmoud HAMADICHEorcid_16x16.png (1999).
Flux d'énergie d'un écoulement de Poiseuille vers la paroi d'un tube élastique, a. Modes d'instabilité axisymétriques.
C. r. Acad. sci., Sér. IIb Méc. 327, 1155–1161.
18.M. AL FARKH, Mahmoud HAMADICHEorcid_16x16.png (1998).
Stabilité linéaire tridimensionnelle de l'écoulement dans un divergent en rotation.
C. r. Acad. sci., Sér. IIb Méc. 326, 13–20.
19.Mahmoud HAMADICHEorcid_16x16.png, M. AL FARKH (1998).
Stabilité linéaire de l'écoulement de Poiseuille en conduite cylindrique viscoélastique.
C. r. Acad. sci., Sér. IIb Méc. 326, 95–102.
20.Mahmoud HAMADICHEorcid_16x16.png, Julian F. SCOTTorcid_16x16.png, Denis JEANDEL (1994).
Temporal stability of Jeffery-Hamel flow.
J. Fluid Mech. 268, 71–88.
communications avec actes
1.Mahmoud HAMADICHEorcid_16x16.png (2010).
Fluid and structure interaction in Cochlea's similar geometry
ASME 2010 3rd Joint US-European Fluids Engineering Summer Meeting (FEDSM2010), Montreal, Quebec, Canada. doi:10.1115/FEDSM-ICNMM2010-30019 doi.ico
In: Proceedings of the ASME 2010 Joint U.S.-European Fluids Engineering Summer Meeting, ASME, New York, USA, 361–374. doi:10.1115/FEDSM-ICNMM2010-30019 doi.ico
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