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Francoise UTHEZA

Champs-sur-Marne

Bâtiment: Building: Copernic

Bureau: Office: B16

Francoise UTHEZA

Activités de Recherche:

- Modélisation du procédé de soufflage des bouteilles en polyéthylène téréphtalate (PET)
- Identification des propriétés thermiques sur la base d'essais de chauffage infrarouge

Activités d'enseignement :

 - Dimensionnement des échangeurs thermique - Filière GM - ESIPE

- Thermodynamique - Filière GM - ESIPE

- Thermodynamique Appliquée - Filière MFPI - ESIPE

- Conduction et Convection thermique - Filière MFPI - ESIPE

 - Transferts thermiques - Filière Génie Civil - ESIPE

- Statique des fluides - L1 - IFSA

- Introduction aux transferts thermiques par rayonnement - L3 - IFSA

Mes dernières références

My latest references

Yun Mei Luo, Luc Chevalier, Eric Monteiro, Françoise Utheza
Numerical simulation of self heating during stretch blow moulding of PET: viscohyperelastic modelling versus experimental results. International Journal of Material Forming, Springer Verlag, 2021, 14, pp.703-714
10.1007/s12289-020-01565-w
Yun Mei Luo, Luc Chevalier, Eric Monteiro, Françoise Utheza
Self Heating during Stretch Blow Molding: an Experimental Numerical Comparison. ESAFORM 2017 20th International ESAFORM Conference on Material Forming. , Apr 2017, Dubiln, Ireland
Yun Mei Luo, Luc Chevalier, Françoise Utheza, Xavier Nicolas
Simplified modeling of the convection and radiation heat transfers during the infrared heating of PET sheets and preforms Nomenclature. International Polymer Processing, 2015, 30 (5), pp.554-565
10.3139/217.3092
Yun Mei Luo, Luc Chevalier, Françoise Utheza, Xavier Nicolas
Simplified Modelling of the Infrared Heating Involving the Air Convection Effect before the Injection Stretch Blowing Moulding of PET Preform. Material Forming ESAFORM 2014, May 2014, Espoo, Finland. pp.844-851
10.4028/www.scientific.net/KEM.611-612.844
Yun Mei Luo, Luc Chevalier, Françoise Utheza, E
Monteiro. Numerical simulation of the thermodependant viscohyperelastic behavior of polyethylene terephthalate near the glass transition temperature: Prediction of the self-heating during biaxial tension test. Polymer Engineering and Science, Wiley-Blackwell, 2013, on line 10.1002/pen.23522 (on line 10.1002/pen.23522), on line 10.1002/pen.23522
10.1002/pen.23522
Yun Mei Luo, Luc Chevalier, Françoise Utheza
Modelling the heat during the injection stretch blowing moulding: Infrared heating and blowing modelling. ASME 2012 11th Biennial Conference On Engineering Systems Design And Analysis, Jul 2012, Nantes, France. pp. 1