Siegfried Fouvry
Siegfried Fouvry
Director of Research at CNRS, LTDS (UMR 5513), Ecole Centrale de Lyon
Verified email at
Cited by
Cited by
Quantification of fretting damage
S Fouvry, P Kapsa, L Vincent
Wear 200 (1-2), 186-205, 1996
An energy description of wear mechanisms and its applications to oscillating sliding contacts
S Fouvry, T Liskiewicz, P Kapsa, S Hannel, E Sauger
Wear 255 (1-6), 287-298, 2003
Analysis of sliding behaviour for fretting loadings: determination of transition criteria
S Fouvry, P Kapsa, L Vincent
Wear 185 (1-2), 35-46, 1995
A quantitative approach of Ti–6Al–4V fretting damage: friction, wear and crack nucleation
S Fouvry, P Duo, P Perruchaut
Wear 257 (9-10), 916-929, 2004
Tribologically transformed structure in fretting
E Sauger, S Fouvry, L Ponsonnet, P Kapsa, JM Martin, L Vincent
Wear 245 (1-2), 39-52, 2000
Wear analysis in fretting of hard coatings through a dissipated energy concept
S Fouvry, P Kapsa, H Zahouani, L Vincent
Wear 203, 393-403, 1997
The fretting sliding transition as a criterion for electrical contact performance
S Hannel, S Fouvry, P Kapsa, L Vincent
Wear 249 (9), 761-770, 2001
A fretting crack initiation prediction taking into account the surface roughness and the crack nucleation process volume
H Proudhon, S Fouvry, JY Buffière
International Journal of fatigue 27 (5), 569-579, 2005
Effect of shot peening on the fretting wear of Ti–6Al–4V
V Fridrici, S Fouvry, P Kapsa
Wear 250 (1-12), 642-649, 2001
An energy description of hard coating wear mechanisms
S Fouvry, P Kapsa
Surface and Coatings technology 138 (2-3), 141-148, 2001
An elastic–plastic shakedown analysis of fretting wear
S Fouvry, P Kapsa, L Vincent
Wear 247 (1), 41-54, 2001
A Multiaxial Fatigue Analysis of Fretting Contact Taking into Account the Size Effect
S Fouvry, P Kapsa, L Vincent
ASTM STP 1367, 167-182, 2000
Finite element modelling of fretting wear surface evolution: Application to a Ti–6A1–4V contact
C Paulin, S Fouvry, C Meunier
Wear 264 (1-2), 26-36, 2008
Fretting wear of stainless steels under variable temperature conditions: introduction of a ‘composite’wear law
R Rybiak, S Fouvry, B Bonnet
Wear 268 (3-4), 413-423, 2010
Application of an energy wear approach to quantify fretting contact durability: Introduction of a wear energy capacity concept
S Fouvry, C Paulin, T Liskiewicz
Tribology International 40 (10-12), 1428-1440, 2007
Prediction of crack nucleation under partial slip fretting conditions
S Fouvry, K Elleuch, G Simeon
The Journal of Strain Analysis for Engineering Design 37 (6), 549-564, 2002
Theoretical analysis of fatigue cracking under dry friction for fretting loading conditions
S Fouvry, P Kapsa, L Vincent, KD Van
Wear 195 (1-2), 21-34, 1996
Development of a friction energy capacity approach to predict the surface coating endurance under complex oscillating sliding conditions
T Liskiewicz, S Fouvry
Tribology international 38 (1), 69-79, 2005
Prediction of fretting crack propagation based on a short crack methodology
S Fouvry, D Nowell, K Kubiak, DA Hills
Engineering Fracture Mechanics 75 (6), 1605-1622, 2008
Wear kinetics of Ti–6Al–4V under constant and variable fretting sliding conditions
C Paulin, S Fouvry, S Deyber
Wear 259 (1-6), 292-299, 2005
The system can't perform the operation now. Try again later.
Articles 1–20