Cursus
Docteur ès sciences techniques
EPFL
Master of science - Civil Engineering
University of Colorado
Assistant du professeur R. Walther
EPFL
Bachelor of Science en Génie Civil
EPFL
Fondateur, directeur et chef de projet
INGPHI SA
Directeur associé, chef de projet
Dauner ingénieurs conseils SA
Chef de projet, chef du département des ouvrages d’art
Emch+Berger AG
Ingénieur civil
Walther, Mory & Maier SA
Références
Liste des publications
Rehabilitation and strengthening of existing rc structures with UHPFRC : various applications
Ph. Menétrey and L. Moreillon; “Rehabilitation and strengthening of existing rc structures with UHPFRC : various applications”, Symposium on Ultra-High Performance Fibre-Reinforced Concrete – UHPFRC, Marseille, 2013.
Coque du Learning Center EPFL ; Limites repoussées dans la construction en béton
Ph. Menétrey « Coque du Learning Center EPFL ; Limites repoussées dans la construction en béton », Journées scientifiques EPFL, 9e, 2008.
Numerics in geotechnics and structures
Ph. Menétrey; “Numerics in geotechnics and structures”; Numerical simulations of structures with geomaterial using Z-soil; Elmepress International, Lausanne, 2006.
Punching shear in reinforced-concrete: localized process
Ph. Menétrey and K.J. Willam; “Punching shear in reinforced-concrete: localized process”, Computational Modeling of Concrete Structures, Euro-C, Badgastein, 868-876, 1998.
Punching shear strengthening of reinforced concrete: experimental and analytical investigations
Ph. Menétrey and E. Brühwiler; “Punching shear strengthening of reinforced concrete: experimental and analytical investigations”; Structural Faults and Repair, Edinburgh, 451-458, 1997.
Durchstanzversuche: Stützenkopfverstärkung Tobler-WALM
R. Walther, D. Weber, Ph. Menétrey, and A. Wohnlich; Durchstanzversuche: Stützenkopfverstärkung Tobler-WALM, report EPFL -IBAP, 1995.
Numerical analysis of punching failure in reinforced concrete structures
Ph. Menétrey; “Numerical analysis of punching failure in reinforced concrete structures”; EPFL, Dissertation 1279, 1994. Consulter l’article
A three-dimensional model based on the finite method and the plasticity theory to analyze plain concrete structures
Ph. Menétrey; “A three-dimensional model based on the finite method and the plasticity theory to analyze plain concrete structures”; Master thesis, University of Colorado at Boulder, 1991.
Computational Methods in Structural and Geotechnical Engineering
Th. Zimmermann, Ph. Menétrey and S. Commend; “Numerical analysis of the bearing capacity of superficial foundations”, Computational Methods in Structural and Geotechnical Engineering, Hong Kong, 674-677, 1994.