Helene CarreSenior Lecturer
- Vice President in charge of Wealth Management - UPPA
Bâtiment ISA BTP1 allée du Parc Montaury64600 Anglet- concrete, high temperature, experimentation, numerical simulations, post-fire diagnosis
- helene.carre @ univ-pau.fr
- 0646023518
Education
- 1993 : ESTP engineering degree, Building specialization
- 1993 : DEA Advanced Materials, Structural and Envelope Engineering - École Normale Supérieure de Cachan and École Nationale des Ponts et Chaussées
- 1993-1996 : PhD Thesis at ENPC (École Nationale des Ponts et Chaussées)
"Study of the fracture behaviour of a prestressed brittle material: tempered glass"
Director : Jacky Mazars - Supervisor : Laurent Daudeville - 1997-1998 : Engineer at CSTB - Light Envelope and Transfers Department
- Since 1998 : lecturer at UPPA - ISA BTP (Aquitaine Higher Institute of Building and Public Works) and SIAME (Laboratory of Applied Sciences in Mechanics and Electricity)
Teaching
ISA BTP :
- 1st year : Technology - general
- 2nd year : Materials (glass)
- 3rd year : Cementitious materials (courses and practical work)
- 4th year : Rehabilitation 1 (stone, wood, brick and iron frame)
- 5th year : Rehabilitation 2 (concrete), Impact of the structure on health (asbestos removal, water quality)
Others structures :
- 2001, 2002 and 2003 : course on glass in construction (20 h) at the Technical University of Frankfurt in English
- 2009-2015 : introduction to building technology at the IUT of Pau - ENERGY EXPERTISE
- 2012-2015 : 26 hours of building technology courses for 3rd year students of the "building energy" course of the ENSGTI (UPPA engineering school)
Other pedagogical activities :
- 1999 : installation of the testing laboratory
- 2003 : organization of a trip to Paris with a visit to the Building exhibition for the building option of the ISA BTP
- 2007 : participation in the supervision of the student project in Madagascar (construction of a school)
- 2008 : participation in the supervision of the student project in Togo (construction of a cultural center)
- 2009 : participation in the supervision of the student project in Cambodia (construction of a workshop for a wood school)
- 2012 : co-responsible for an educational project submitted as part of the Aquitaine region's call for projects
- 2012 : participation in the supervision of the student project in Benin
- 2013 : implementation of new reinforced concrete practice works (steel-concrete adhesion, bending on beam)
- 2015 : in charge of the regional project "Digital technologies applied to building: towards advanced training"
- 2018 : participation in the supervision of the student project in Tajikistan (extension of a school, wood-frame building)
Responsabilities
Within ISA BTP :
- 1999-2005 : Study Director of the 4th year of the ISA BTP
- 2005-2010 : Director of ISA BTP
- 2015-2017 : responsible for an educational project subsidized by the region
Within UPPA :
- 2004-2014 : elected to the Council of the Sciences and Technics UFR of the Basque Coast
- 2012-2015 : elected to the Board of Directors
- Since 2015 : Vice President in charge of Wealth Management
Others Mandates :
- depuis 2006 : member of the Board of Directors of the regional competitiveness cluster CREAHd (Construction, Resources, Environment, Sustainable Housing)
- 2010-2015 : elected to the Board of Directors of the AUGC (University Association of Civil Engineering)
- 2011-2015 : responsible for the Young Investigators Award organized each year by the AUGC.
- Since 2015 : member of CNU section 60
Research interests
Behavior of tempered glass beams
Work during the PhD : Download here the dissertation
Study of concrete behaviour at high temperature
- experiments at the scale of the material and the structure
- post-fire analysis by the technique of colorimetry
Supervision
PhD students :
- 2001-2004 : Abdellah Menou
"Study of the thermomechanical behavior of concrete at high temperature: multi-scale approach of thermal damage"
Director : Christian la Borderie
Industrial partner : CSTB - 2005-2009 : Jean-Christophe Mindeguia
"Study of the instabilities of concrete at high temperature: application to the case of scaling"
Director : Christian la Borderie
Industrial partner : CSTB - 2012-2016 : Hatem KALLEL
"Influence de la température et de l'hygrométrie sur le comportement instantané du béton"
Director : Christian la Borderie
Industrial partner : EDF - 2014-2017 : Jihad Miah
"Study of concrete scaling at high temperature: effect of mechanical loading"
Director : Christian la Borderie
Industrial partner : CSTB - 2017-2020 : Fariza Sultangaliyeva
"Formulation of an ultrafluid fibrous cementitious material: application to the storage of radioactive wastes"
Industrial partner : ANDRA, CERIB, CSTB, IFSTTAR
Others supervising :
- Laura Michel (Temporary R&D Engineer - 12 months) 2008-2009
- Fabrice Pereira (Temporary R&D Engineer - 12 months) 2011
- Bassem Aïdi : : PFE of Ecole national d'ingénieurs de Tunis - 2015
- Alexandre Desegaulx : PFE of ISA BTP - 2016
- Hatem Kallel : post-doctoral position - 2017-2018
Projects
Study of concrete behaviour at high temperature
5 contracts with the CSTB (since 2001)
budget : 2 M€
Contract workers : Abdellah Menou (PhD) 2001-2004
Jean-Christophe Mindeguia (PhD) 2005-2009
Laura Michel (Temporary R&D Engineer - 12 months) 2008-2009
Fabrice Pereira (Temporary R&D Engineer - 12 months) 2011
Jihad Miah (PhD) 2014-2017
The collaboration with the CSTB has been spread out over many years and has made it possible, through several theses, in particular, to study in depth the behavior of concrete at high temperature: thermal and mechanical properties, the phenomenon of spalling and transient thermal deformation.
The aim of these studies is both to develop knowledge in the field and also to develop the skills at CSTB useful for its evaluation and standardization work.
Member of the MACENA project (Control of the containment of an enclosure in accident)
2014-2017
Consortium : Grenoble-INP / 3SR, CEA, CERIB, IFSTTAR, Université de Pau et des Pays de l'Adour / IPRA, Université Paul Sabatier de Toulouse / LMDC, EDF, NECS, Oxand
Budget : 2,4 M€
UCOMP Project Coordinator (ANR-ANDRA - Investments for the Future)
2017-2020
Ultra-fluid cementitious composite for the storage of radioactive waste subject to fire risk
Consortium : CERIB, CSTB, IFSTTAR
Budget : 1,5 M€
The objective of the UCOMP project is the design of ultra-fluid fiber-reinforced cementitious materials for the manufacture of waste containers exposed to fire risk.
This research project must allow the design of ultra-fluid composite cementitious materials that can resist very high temperatures. It is at a medium level of technological maturity and we aim to move from TRL 4 to TRL 6. Indeed, although concretes containing organic fibres are used in the tunnel industry, their formulation will be studied, in an original way, by adopting a combined global approach including rheological, mechanical and thermal aspects. They will also be adapted for the specific case of nuclear waste containment. As fire resistance and fluidity evolve in a contrary way with the addition of organic fibers, we first aim to identify the levers allowing an optimization of these two properties. The analysis will first be carried out at the microscopic level both to better understand the underlying phenomena and to determine the minimum dosage and fiber properties required to achieve the targeted properties. Laboratory scale and prototype tests will allow the evaluation of the rheological and fire behaviour of new materials dedicated to the fabrication of nuclear waste containers.
Publications
International Publications
- Madrid, M., Orbe, A., Carré, H., García, Y., " Thermal performance of sawdust and lime-mud concrete masonry", Construction and Building Materials (2018) 169, pp. 113-123
- Kallel, H., Carré, H., La Borderie, C., Masson, B., Tran, N.C., "Effect of temperature and moisture on the instantaneous behaviour of concrete", Cement and Concrete Composites 80, pp. 326-332 (2017)
- A.Pineaud, P. Pimienta, S. Rémond, H. Carré, "Mechanical properties of high performance self-compacting concretes at room and high temperature", Construction and Building Materials, 112 (2016) 747-755
- Juliette Merle, Marc Birot, Hervé Deleuze, Claudia Mitterer, Hélène Carré, Fatima Charrier-El Bouhtoury, " New biobased foams from wood byproducts", Materials and Design 91 (2016) 186–192
- Jean-Christophe Mindeguia, Hélène Carré, Pierre Pimienta, Christian La Borderie, " Experimental discussion on the mechanisms behind the fire spalling of concrete", Fire and Materials 2015 ; 39(7) 619-635
- H. Carré, I. Hager & C. Perlot, "Contribution to the development of colorimetry as a method for the assessment of fire-damaged concrete", European Journal of Environmental and Civil Engineering, 18 (10), pp. 1130-1144 (2014)
- Mindeguia J.C., Pimienta P., Carré H., La Borderie C., "Experimental analysis of concrete spalling due to fire exposure", European Journal of Environmental and Civil Engineering, 17(6-6):453-466 (2013)
- Mindeguia J-C, Hager I., Pimienta P., Carré H., La Borderie C., "Parametrical study of transient thermal strain of ordinary and high performance concrete", Cement and Concrete Research, vol. 48, pp. 40-52 (2013)
- Mindeguia J-C, Pimienta P., Carré H., La Borderie C., "On the influence of aggregate nature on concrete behaviour at high temperature", European Journal of Environmental and Civil Engineering, Vol. 16, n° 2, 236–253 (2012)
- Noumowe A., Carré H., Daoud A., and Toutanji H., "High-strength self-compacting concrete exposed to fire test", Journal of Materials in Civil Engineering, 18(6), 754-758 (2006)
- Menou, G. Mounajed, H. Boussa, A. Pineaud, H. Carré, "Residual fracture energy of cement paste, mortar and concrete subject to high temperature", Theoritical and Applied Fracture Mechanics, 45(1), 64-71 (2006)
- Carré H., Daudeville L. Load bearing capacity of tempered structural glass. ASCE Journal of Engineering Mechanics. 125(8): 914-921 (1999)
- Daudeville L., Carré H. Thermal tempering simulation of glass plates: inner and edge residual stresses. Journal of Thermal Stresses. 21: 667-689 (1998)
- Carré H., Daudeville L. Numerical simulation of soda-lime silicate glass tempering. Journal de Physique IV. 6(1): 175-185 (1996)