E. Kappel, D. Stefaniak, and G. Fernlund, Predicting process-induced distortions in composite manufacturing -a pheno-numerical simulation strategy, Compos Struct, vol.120, pp.98-106, 2015.

D. Stefaniak, E. Kappel, and T. Spro¨witz, Experimental identification of process parameters inducing warpage of autoclave-processed CFRP parts, Compos Part A Appl Sci Manufact, vol.43, pp.1081-1091, 2012.

P. A. Olivier, A note upon the development of residual curing strains in carbon/epoxy laminates. Study by thermomechanical analysis, Compos Part A Appl Sci Manufact, vol.37, pp.602-616, 2006.

H. Yu, S. G. Mhaisalkar, and E. H. Wong, Cure shrinkage measurement of nonconductive adhesives by means of a thermomechanical analyzer, J Electron Mater, vol.34, pp.1177-1182, 2005.

T. Garstka, N. Ersoy, and K. D. Potter, In situ measurements of through-the-thickness strains during processing of AS4/8552 composite, Composites Compos Part A Appl Sci Manufact, vol.38, pp.2517-2526, 2007.

M. Pe´ron, R. Cardinaud, and N. Lefe`vre, PvT-HADDOC: a multi-axial strain analyzer and cure monitoring device for thermoset composites characterization during manufacturing, Compos Part A Appl Sci Manufact, vol.101, pp.129-142, 2017.

Y. Nawab, Characterization and modelling of cure dependant properties of thermoset composites -Application to the simulation of residual stresses, 2012.

S. Minakuchi, S. Niwa, and K. Takagaki, Composite cure simulation scheme fully integrating internal strain measurement, Compos Part A Appl Sci Manufact, vol.84, pp.53-63, 2016.

M. Mulle, F. Collombet, and P. Olivier, Assessment of cure residual strains through the thickness of carbonepoxy laminates using FBGs, Part I: elementary specimen, Compos Part A Appl Sci Manufact, vol.40, pp.94-104, 2009.
URL : https://hal.archives-ouvertes.fr/hal-02194277

P. P. Parlevliet, H. Bersee, and A. Beukers, Measurement of (post-)curing strain development with fibre Bragg gratings, Polym Test, vol.29, pp.291-301, 2009.

A. S. Crasto and R. Y. Kim, On the determination of residual stresses in fiber-reinforced thermoset composites, J Reinf Plast Compos, vol.12, pp.545-558, 1993.

A. Johnston, An integrated model of the development of process-induced deformation in autoclave processing of composite structures, 1997.

N. Ersoy, T. Garstka, and K. Potter, Development of the properties of a carbon fibre reinforced thermosetting composite through cure, Compos Part A Appl Sci Manufact, vol.41, pp.401-409, 2010.

J. Jakobsen, M. Jensen, and J. H. Andreasen, Thermomechanical characterisation of in-plane properties for CSM E-glass epoxy polymer composite materials -Part 2: Young's modulus, Polym Test, vol.32, pp.1417-1422, 2013.

Y. Abou-msallem, F. Jacquemin, and N. Boyard, Material characterization and residual stresses simulation during the manufacturing process of epoxy matrix composites, Compos Part A Appl Sci Manufact, vol.41, pp.108-115, 2010.

E. Ruiz and F. Trochu, Numerical analysis of cure temperature and internal stresses in thin and thick RTM parts, Compos Part A Appl Sci Manufact, vol.36, pp.806-826, 2005.

E. Ruiz and F. Trochu, Thermomechanical properties during cure of glass-polyester RTM composites: elastic and viscoelastic modeling, J Compos Mater, vol.39, pp.881-916, 2005.

A. Johnston, R. Vaziri, and A. Poursartip, A plane strain model for process-induced deformation of laminated composite structures, J Compos Mater, vol.35, pp.1435-1469, 2001.

M. R. Kamal and S. Sourour, Kinetics and thermal characterization of thermoset cure, Polym Eng Sci, vol.13, pp.59-64, 1973.

Y. Ledru, Etude de la porosite´dans les mate´riaux composites stratifie´s aéronautiques, Me´canique et Mate´riaux, 2009.

C. Paris, E´tude et mode´lisation de la polyme´risation dynamique de composites a`matrice thermodurcissable, 2011.

I. Baran, K. Cinar, and N. Ersoy, A review on the mechanical modeling of composite manufacturing processes, Arch Comput Methods Eng, vol.24, pp.365-395, 2017.

C. Paris, G. Bernhart, and P. Olivier, Influence de cycles de cuisson rapides sur le pre´impre´gne´ae´ronautique

, M21/T700: suivi de polyme´risation et proprie´te´s me´cani-ques, 2011.

A. T. Dibenedetto, Prediction of the glass transition temperature of polymers: a model based on the principle of corresponding states, J Polym Sci Part B Polym Phys, vol.25, pp.1949-1969, 1987.

J. P. Pascault and R. Williams, Relationships between glass transition temperature and conversion, Polym Bull, vol.24, pp.115-121, 1990.

J. P. Pascault and R. Williams, Glass transition temperature versus conversion relationships for thermosetting polymers, J Polym Sci Part B, vol.28, pp.85-95, 1990.

L. E. Nielsen, Cross-linking-effect on physical properties of polymers, J Macromol Sci Part C, vol.3, pp.69-103, 1969.

T. A. Bogetti and J. W. Gillespie, Process-induced stress and deformation in thick-section thermoset composite laminates, J Compos Mater, vol.26, pp.626-660, 1992.

L. Khoun, Process-induced stresses and deformations in woven composites manufactured by resin transfer moulding, 2009.

T. Curiel and G. Fernlund, Deformation and stress buildup in bi-material beam specimens with a curing FM300 adhesive interlayer, Compos Part A Appl Sci Manufact, vol.39, pp.252-261, 2008.

M. Fiorina, A. Seman, and B. Castanie, Spring-in prediction for carbon/epoxy aerospace composite structure, Compos Struct, vol.168, pp.739-745, 2017.
URL : https://hal.archives-ouvertes.fr/hal-01950756

L. Mezeix, A. Seman, and M. Nasir, Spring-back simulation of unidirectional carbon/epoxy flat laminate composite manufactured through autoclave process, Compos Struct, vol.124, pp.196-205, 2015.
URL : https://hal.archives-ouvertes.fr/hal-01951243