Bertrand HUNEAU
Bertrand HUNEAU
Associate Professor in Engineering Materials, GeM Institute, UMR CNRS 6183, Ecole Centrale de Nantes
Adresse e-mail validée de
Citée par
Citée par
Mechanism of fatigue crack growth in carbon black filled natural rubber
JB Le Cam, B Huneau, E Verron, L Gornet
Macromolecules 37 (13), 5011-5017, 2004
Strain-induced crystallization of natural rubber: a review of X-ray diffraction investigations
B Huneau
Rubber chemistry and technology 84 (3), 425-452, 2011
Comparison of TIG welded and friction stir welded Al–4.5 Mg–0.26 Sc alloy
AC Munoz, G Rückert, B Huneau, X Sauvage, S Marya
Journal of materials processing technology 197 (1-3), 337-343, 2008
Interfacial reaction during friction stir welding of Al and Cu
C Genevois, M Girard, B Huneau, X Sauvage, G Racineux
Metallurgical and Materials Transactions A 42 (8), 2290, 2011
The ternary system Al–Ni–Ti Part I: Isothermal section at 900° C; Experimental investigation and thermodynamic calculation
B Huneau, P Rogl, K Zeng, R Schmid-Fetzer, M Bohn, J Bauer
Intermetallics 7 (12), 1337-1345, 1999
Precipitate stability and recrystallisation in the weld nuggets of friction stir welded Al–Mg–Si and Al–Mg–Sc alloys
X Sauvage, A Dédé, AC Munoz, B Huneau
Materials Science and Engineering: A 491 (1-2), 364-371, 2008
The ternary system Al–Ni–Ti part II: thermodynamic assessment and experimental investigation of polythermal phase equilibria
K Zeng, R Schmid-Fetzer, B Huneau, P Rogl, J Bauer
Intermetallics 7 (12), 1347-1359, 1999
Fatigue damage in carbon black filled natural rubber under uni-and multiaxial loading conditions
JB Le Cam, B Huneau, E Verron
International Journal of Fatigue 52, 82-94, 2013
Optimizing the design of silica coating for productivity gains during the TIG welding of 304L stainless steel
G Rückert, B Huneau, S Marya
Materials & design 28 (9), 2387-2393, 2007
Description of fatigue damage in carbon black filled natural rubber
JB LE CAM, B Huneau, E Verron
Fatigue & Fracture of Engineering Materials & Structures 31 (12), 1031-1038, 2008
In situ SEM study of fatigue crack growth mechanism in carbon black‐filled natural rubber
S Beurrot, B Huneau, E Verron
Journal of applied polymer science 117 (3), 1260-1269, 2010
Strain-induced crystallization of carbon black-filled natural rubber during fatigue measured by in situ synchrotron X-ray diffraction
S Beurrot-Borgarino, B Huneau, E Verron, P Rublon
International Journal of fatigue 47, 1-7, 2013
Fatigue crack initiation in a carbon black–filled natural rubber
B Huneau, I Masquelier, Y Marco, V Le Saux, S Noizet, C Schiel, ...
Rubber Chemistry and Technology 89 (1), 126-141, 2016
Friction stir diffusion bonding of dissimilar metals
M Girard, B Huneau, C Genevois, X Sauvage, G Racineux
Science and Technology of Welding and joining 15 (8), 661-665, 2010
In situ synchrotron wide-angle X-ray diffraction investigation of fatigue cracks in natural rubber
P Rublon, B Huneau, N Saintier, S Beurrot, A Leygue, E Verron, C Mocuta, ...
Journal of synchrotron radiation 20 (1), 105-109, 2013
Evaluation of environmental effects on fatigue crack growth behaviour of a high strength steel in a saline solution with cathodic protection
B Huneau, J Mendez
International journal of fatigue 28 (2), 124-131, 2006
Multiaxial deformation and strain-induced crystallization around a fatigue crack in natural rubber
P Rublon, B Huneau, E Verron, N Saintier, S Beurrot, A Leygue, C Mocuta, ...
Engineering Fracture Mechanics 123, 59-69, 2014
Effect of laser assistance machining on residual stress and fatigue strength for a bearing steel (100Cr6) and a titanium alloy (Ti 6Al 4V)
G Germain, F Morel, JL Lebrun, A Morel, B Huneau
Materials Science Forum 524, 569-574, 2006
Dominating factor of strain-induced crystallization in natural rubber
A Gros, M Tosaka, B Huneau, E Verron, S Poompradub, K Senoo
Polymer 76, 230-236, 2015
Prediction of fatigue properties of natural rubber based on the descriptions of the cracks population and of the dissipated energy
Y Marco, B Huneau, I Masquelier, V Le Saux, P Charrier
Polymer Testing 59, 67-74, 2017
Le système ne peut pas réaliser cette opération maintenant. Veuillez réessayer plus tard.
Articles 1–20