GARDIN Catherine

Professeur des Universités, ISAE-ENSMA

CNRS-Université de Poitiers-ISAE ENSMA

Téléport 2 – 1 avenue Clément Ader

BP 40109 – 86961 Futuroscope Chasseneuil Cedex

Recherche


  • Durabilité des composites stratifiés à fibres longues, caractérisation et modélisation de l’endommagement en fatigue et cyclage thermique
  • Propagation de fissures de fatigue dans une pièce soumise à un gradient cyclique de température
  • Etude de la propagation en fatigue de fissures: influence de la taille de la zone plastifiée initiale et de la fermeture
  • Propagation de fissures sous chargement cyclique biaxial

Enseignement


  • Résistance des matériaux
  • Stratifiés composites
  • Mécanique de la rupture

Activités administratives


Responsable du département d’enseignement ‘Matériaux, Structures, Ingénierie des Systèmes Industriels’ de l’ISAE-ENSMA

Séléction de publications


  • C. Gardin, S. Courtin, D. Bertheau, G. Bézine, H. Ben-Hadj Hamouda, ‘’The influence of roller burnishing on the fatigue crack propagation in notched round bars – Experimental observations under three point bending’’, Fatigue and Fracture of Engineering Materials and Structures, vol. 30, issue 4, pp. 342-350, 2007

 

  • C. Gardin, S. Courtin, G. Bézine, D. Bertheau , H. Ben-Hadj Hamouda, “Numerical simulation of fatigue crack propagation in compressive residual stress fields of notched round bars”, Fatigue and Fracture of Engineering Materials and Structures, vol. 30, issue 3, pp. 231-242, 2007

 

  • Hoai Nam Le, C. Gardin, G. Benoit, D. Bertheau,‘Crack growth in a parallelepipedic specimen subjected to a cyclic temperature gradient’, Journal of Materials Testing, vol 9, pp. 520-525, 2009.

 

  • C. Gardin, Hoai Nam Le, G. Benoit, D. Bertheau, ‘Crack growth under cyclic loading in a 304L stainless steel – Experimental investigation and numerical prediction’, International Journal of Fatigue, vol. 32, pp. 1650-1657, 2010.

 

  • Hoai Nam Le, C. Gardin, ‘Analytical calculation of the stress intensity factor in a surface cracked plate submitted to thermal fatigue loading’, Engineering Fracture Mechanics, vol 77 (12), pp. 2354-2369, 2010

 

  • Hoai Nam Le, C. Gardin, ‘Analytical prediction of crack propagation under thermal cyclic loading inducing a thermal gradient in the specimen thickness – comparison with experiments and numerical approach’, Engineering Fracture Mechanics, vol.78 (4), pp. 638-652, 2011.

 

  • Vor K, Gardin C, Sarrazin – Baudoux C, Petit  J. Wake length and loading history effects on crack closure of through-thickness long and short cracks in 304L: Part I – Experiments. Engineering Fracture Mechanics. 2013;99:266-277

 

  • Vor K, Gardin C, Sarrazin – Baudoux C, Petit J. Wake length and loading history effects on crack closure of through-thickness long and short cracks in 304L: Part II – 3D numerical simulation. Engineering Fracture Mechanics. 2013;99:306-323.

 

  • Pham, T. H., V. X. Tran, et al. (2014). “Near-threshold fatigue propagation of physically through-thickness short and long cracks in a low alloy steel.” Journal of Material Sciences.