A. Annexe, Représentation descriptive issue d'une analyse multivariée (analyse en composante principale ACP) de l'effet du vieillissement des revêtements (0 cycle, 600 cycles et 800 cycles) sur les signaux de fluorescence (transformés par un modèle PARAFAC en score -SG) acquis pour les moules

B. Annexe, Représentation descriptive issue d'une analyse multivariée (analyse en composante principale ACP) de l'effet du vieillissement des revêtements (0 cycle, 600 cycles et 800 cycles) sur les signaux de fluorescence (transformés par un modèle PARAFAC en score -SG) acquis pour les moules SIL 810 Rugueux

C. Annexe, Représentation descriptive issue d'une analyse multivariée (analyse en composante principale ACP) de l'effet du vieillissement des revêtements (0 cycle, 600 cycles et 800 cycles) sur les signaux de fluorescence (transformés par un modèle PARAFAC en score -SG) acquis pour les moules SIL 890. Le plan des 2 premières composantes permet d'expliquer 70 % de l'information. Comme dans le cas des moules SIL 810 Rugueux

A. Aboubacar and B. Hamaker, Low Molecular Weight Soluble Starch and its Relationship with Sorghum Couscous Stickiness, Journal of Cereal Science, vol.31, issue.2, pp.119-126, 2000.

A. Acharid, J. Rizkallah, L. Ait-ameur, B. Neugnot, K. Seidel et al., Potential of front face fluorescence as a monitoring tool of neoformed compounds in industrially processed carrot baby food, vol.49, pp.305-311, 2012.

A. Adams, F. Van-lancker, B. De-meulenaer, A. Owczarek-fendor, and N. De-kimpe, On-fiber furan formation from volatile precursors: a critical example of artefact formation during Solid-Phase Microextraction, Journal of Chromatography. B, Analytical Technologies in the Biomedical and Life Sciences, vol.897, pp.37-41, 2012.

M. U. Ahmed, S. R. Thorpe, and J. W. Baynes, Identification of N-carboxymethyllysine as a degradation product of fructoselysine in glycated protein, Journal of Biological Chemistry, vol.261, issue.11, pp.4889-4894, 1986.

L. Ahrné, C. G. Andersson, P. Floberg, J. Rosén, and H. Lingnert, Effect of crust temperature and water content on acrylamide formation during baking of white bread: Steam and falling temperature baking, LWT -Food Science and Technology, vol.40, issue.10, pp.1708-1715, 2007.

A. Albert, I. Perez-munuera, . Quiles, . Salvador, S. M. Fiszman et al., Adhesion in fried battered nuggets: Performance of different hydrocolloids as predusts using three cooking procedures, Food Hydrocolloids, vol.23, issue.5, pp.1443-1448, 2009.

M. Anese and M. Suman, Mitigation strategies of furan and 5-hydroxymethylfurfural in food, Food Research International, vol.51, issue.1, pp.257-264, 2013.

S. Ashokkumar and J. Adler-nissen, Evaluating non-stick properties of different surface materials for contact frying, Journal of Food Engineering, vol.105, issue.3, pp.537-544, 2011.

S. H. Assar, C. Moloney, M. Lima, R. Magee, and J. M. Ames, Determination of Nepsilon-(carboxymethyl)lysine in food systems by ultra performance liquid chromatography-mass spectrometry, Amino Acids, vol.36, issue.2, pp.317-343, 2009.

M. Aufray, Caractérisation physico-chimique des interphases époxyde-amine / oxyde ou hydroxyde métallique , et de leurs constituants, 2005.

A. Aymonier-marçais, Modélisation d'adhésifs sensibles à la pression : Corrélation structure-propriétés de tack de copolymères acryliques synthétisés par voie radicalaire en émulsion, 2001.

C. Barron, J. Abécassis, M. Chaurand, V. Lullien-pellerin, F. Mabille et al., Accès à des molécules d'intérêt par fractionnement par voie sèche Barron, Innovations Agronomiques, vol.19, pp.51-62, 2012.

A. Becalski, D. Forsyth, V. Casey, B. P. Lau, .. Pepper et al., Development and validation of a headspace method for determination of furan in food, Food Additives and Contaminants, vol.22, issue.6, pp.535-575, 2005.

S. Berland and B. Launay, Rheological properties of wheat flour doughs in steady and dynamic shear: Effect of water content and some additives, Cereal Chemistry, vol.72, issue.1, pp.48-52, 1995.

E. Besbes, V. Jury, J. Monteau, and A. Le-bail, Water vapor transport properties during staling of bread crumb and crust as affected by heating rate, Food Research International, vol.50, issue.1, pp.10-19, 2013.

F. Bianchi, M. Careri, E. Chiavaro, M. Musci, and E. Vittadini, Gas chromatographic-mass spectrometric characterisation of the Italian Protected Designation of Origin "Altamura" bread volatile profile, Food Chemistry, vol.110, issue.3, pp.787-793, 2008.

F. Bianchi, M. Careri, A. Mangia, and M. Musci, Development and validation of a solid phase microextraction-gas chromatography-mass spectrometry method for the determination of furan in baby-food, Journal of Chromatography. A, vol.1102, issue.1-2, pp.268-72, 2006.

I. Birlouez-aragon, M. Nicolas, A. Metais, N. Marchond, J. Grenier et al., A rapid fluorimetric method to estimate the heat treatment of liquid milk, International Dairy Journal, vol.8, issue.9, pp.771-777, 1998.

I. Birlouez-aragon, G. Saavedra, F. J. Tessier, A. Galinier, L. Ait-ameur et al., A diet based on high-heat-treated foods promotes risk factors for diabetes mellitus and cardiovascular diseases, American Journal of Clinical Nutrition, vol.91, issue.5, pp.1220-1226, 2010.

A. H. Bloksma, Effect of heating rate on viscosity of wheat flour doughs, Journal of Texture Studies, vol.10, pp.261-269, 1980.

J. E. Bock and S. Damodaran, Bran-induced changes in water structure and gluten conformation in model gluten dough studied by Fourier transform infrared spectroscopy, Food Hydrocolloids, vol.31, issue.2, pp.146-155, 2013.

R. Bro, PARAFAC. Tutorial and applications. Chemometrics and Intelligent Laboratory Systems, vol.38, pp.149-171, 1997.
URL : https://hal.archives-ouvertes.fr/hal-02141162

B. Broyart, G. Trystram, and A. Duquenoy, Predicting colour kinetics during cracker baking, Journal of Food Engineering, vol.35, issue.3, pp.351-368, 1998.
URL : https://hal.archives-ouvertes.fr/hal-02691749

. Buléon, P. Colonna, V. Planchot, and S. Ball, Starch granules : structure and biosynthesis, International Journal of Biological Macromolécules, vol.23, issue.2, pp.85-112, 1998.

A. Cadden, Moisture Sorption Characteristics of Several Food Fibers, Journal of Food Science, vol.53, issue.4, pp.1150-1155, 1988.

E. Capuano, A. Ferrigno, I. Acampa, A. Serpen, Ö. Ç. Açar et al., Effect of flour type on Maillard reaction and acrylamide formation during toasting of bread crisp model systems and mitigation strategies, Food Research International, vol.42, issue.9, pp.1295-1302, 2009.

J. Chen, M. Feng, Y. Gonzalez, and L. A. Pugnaloni, Application of probe tensile method for quantitative characterisation of the stickiness of fluid foods, Journal of Food Engineering, vol.87, issue.2, pp.281-290, 2008.

W. Z. Chen and R. C. Hoseney, Development of an Objective Method for Dough Stickiness. LWT -Food Science and Technology, vol.28, pp.467-473, 1995.

A. Claus, P. Schreiter, A. Weber, S. Graeff, W. Herrmann et al., Influence of agronomic factors and extraction rate on the acrylamide contents in yeast-leavened breads, Journal of Agricultural and Food Chemistry, vol.54, issue.23, pp.8968-8976, 2006.

F. .. Collares, J. R. Finzer, and T. Kieckbusch, Glass transition control of the detachment of food pastes dried over glass plates, Journal of Food Engineering, vol.61, issue.2, pp.261-267, 2004.

M. Couch and D. Binding, An experimental study of the peeling of dough from solid surfaces, Journal of Food Engineering, vol.58, issue.4, pp.299-309, 2003.

M. A. Couch and D. M. Binding, An experimental study of the peeling of dough from solid surfaces, Journal of Food Engineering, vol.58, pp.299-309, 2003.

C. Creton, J. Hooker, and K. R. Shull, Bulk and interfacial contributions to the debonding mechanisms of soft adhesives: Extension to large strains, Langmuir, vol.17, issue.16, pp.4948-4954, 2001.

B. Cuq, J. Abecassis, and S. Guilbert, State diagrams to help describe wheat bread processing, International Journal of Food Science and Technology, vol.38, issue.7, pp.759-766, 2003.

S. Davidou, C. Michon, I. Ben-thabet, and B. Launay, Influence of shaping and orientation of structures on rheological properties of wheat flour dough measured in dynamic shear and in biaxial extension, Cereal Chemistry, 2008.
URL : https://hal.archives-ouvertes.fr/hal-01630642

A. S. Dhaliwal, D. J. Mares, and D. R. Marshall, Measurement of dough surface stickiness associated with the 1B/1R chromosome translocation in bread wheats, Journal of Cereal Science, vol.12, issue.2, pp.165-175, 1990.

B. J. Dobraszczyk, The rheological basis of dough stickiness, Journal of Texture Studies, vol.28, pp.139-162, 1996.

B. J. Dobraszczyk and M. P. Morgenstern, Rheology and the breadmaking process, Journal of Cereal Science, vol.38, issue.3, pp.229-245, 2003.

A. M. Donald, K. L. Kato, P. Perry, and T. A. Waigh, Scattering Studies of the Internal Structure of Starch Granules, Starch -Stärke, vol.53, issue.10, pp.504-512, 2001.

P. C. Dreese, J. M. Faubion, and R. C. Hoseney, Dynamic rheological properties of flour, gluten, and glutenstarch doughs. Temperature-dependent changes during heating, Cereal Chemistry, vol.65, issue.4, pp.348-353, 1988.

M. Dupeyrat, Méthode de mesure de la tension superficielle ou interfaciale, Phénomènes d'interface, Agents de surface : Principes et modes d'action, 1989.

S. Ebnesajjad, Applied Plastics Engineering Handbook, 2011.

. Efsa, L'évaluation des risques expliqué par l'EFSA : L'acrylamide dans les aliments, 2015.

E. Ermis, R. J. Farnish, R. J. Berry, and M. S. Bradley, Centrifugal tester versus a novel design to measure particle adhesion strength and investigation of effect of physical characteristics (size, shape, density) of food particles on food surfaces, Journal of Food Engineering, vol.104, issue.4, pp.518-524, 2011.

J. A. Ewart, Amino acid analyses of glutenins and gliadins, Journal of the Science of Food and Agriculture, vol.18, pp.111-115, 1967.

X. Fan, Formation of furan from carbohydrates and ascorbic acid following exposure to ionizing radiation and thermal processing, Journal of Agricultural and Food Chemistry, vol.53, issue.5 mL, pp.7826-7831, 2005.

P. Feillet, Le grain de blé : Composition et utulisation (INRA Editi, 2000.

D. A. Fellers, A. P. Mossman, and H. Suzuki, Rice stickiness. II. Application of an Instron method to make varietal comparisons and to study modification of milled rice by hot-air treatment, Cereal Chemistry, vol.60, issue.4, pp.292-295, 1983.

A. Fromberg, F. Sisse, and K. Granby, Furan in heated processed foods products including home cooked food products and ready-toeat products, Czech Journal of Food Sciences, vol.32, issue.5, pp.443-448, 2014.

M. X. Fu, J. R. Requena, A. J. Jenkins, T. J. Lyons, J. W. Baynes et al., The advanced glycation end product, Ne-(carboxymethyl)lysine, is a product of both lipid peroxidation and glycoxidation reactions, Journal of Biological Chemistry, vol.271, issue.17, pp.9982-9986, 1996.

A. N. Gent and H. Kim, Effect of contact time on tack, Rubber Chemistry and Technology, vol.63, issue.4, pp.613-623, 1990.

A. N. Gent and J. Schultz, Effect of Wetting Liquids on the Strength of Adhesion of Viscoelastic Material, The Journal of Adhesion, vol.3, issue.4, pp.281-294, 1972.

D. Ghorbel, Propriétés d'adhérence des pates de farine de blé. Méthodes d'évaluation, 1998.

D. Ghorbel and B. Launay, Propriétés d'adhésion des pâtes de farine de blé. Les Cahiers de rhéologie, vol.16, pp.159-166, 1998.

D. Ghorbel and B. Launay, An investigation into the nature of wheat flour dough adhesive behaviour, Food Research International, vol.64, pp.305-313, 2014.

D. Ghorbel, B. Launay, and B. Heyd, Improved method for measuring wheat flour dough pressuresensituve adhesiveness, Cereal Chemistry, vol.80, issue.6, pp.732-739, 2003.

N. J. Glassmaker, C. Y. Hui, T. Yamaguchi, and C. Creton, Detachment of stretched viscoelastic fibrils, European Physical Journal E, vol.25, issue.3, pp.253-266, 2008.

H. Goesaert, P. Leman, and J. A. Delcour, Model approach to starch functionality in bread making, Journal of Agricultural and Food Chemistry, vol.56, issue.15, pp.6423-6431, 2008.

A. V. Gómez, E. G. Ferrer, M. C. Añón, and M. C. Puppo, Changes in secondary structure of gluten proteins due to emulsifiers, Journal of Molecular Structure, vol.1033, pp.51-58, 2013.

R. J. Good and M. K. Chaudhury, Theory of adhesion force across interfaces 1. The Lifshitz-Van Der Waals component of interaction and adhesion, Fundamental s of Adhesion, pp.137-151, 1991.

P. Graham, M. Stone, A. Thorpe, T. G. Nevell, and J. Tsibouklis, Fluoropolymers with very low surface energy characteristics, Journal of Fluorine Chemistry, vol.104, issue.1, pp.29-36, 2000.

F. H. Hammond, Handbook of Pressure Sensitive Adhesive Technology, pp.38-60, 1989.

S. S. Heddleson, D. D. Hamann, and D. R. Lineback, The dahlquist criterion applicability of a rheological criterion to the loss of pressure sensitive tack in flour water dough, Cereal Chemistry, vol.70, issue.6, pp.744-748, 1993.

S. S. Heddleson, D. D. Hamann, D. R. Lineback, and L. Slade, Pressure-Sensitive Adhesive Properties of Wheat Flour Dough and the Influence of Temperature , Separation Rate , and Moisture Content, Cereal Chemistry, vol.71, issue.6, pp.564-570, 1994.

A. Hirte, R. J. Hamer, M. B. Meinders, and C. Primo-martín, Permeability of crust is key to crispness retention, Journal of Cereal Science, vol.52, issue.2, pp.129-135, 2010.

D. Howling, Mechanisms of starch enzymolysis, International Biodeterioration, vol.25, issue.1-3, pp.15-19, 1989.

H. Y. Hsia, D. M. Smith, and S. J. , Rheological Properties and Adhesion Characteristics of Flour-Based Batters for Chicken Nuggets as affected by Three Hydrocolloids, Journal of Food Science, vol.57, issue.1, pp.16-18, 1992.

W. N. Huang and R. C. Hoseney, Isolation and Identification of a Wheat Flour Compound Causing Sticky Dough, Cereal Chemistry Journal, vol.76, issue.2, pp.276-281, 1999.

G. L. Hull, J. V. Woodside, J. M. Ames, and G. J. Cuskelly, N?-(carboxymethyl)lysine content of foods commonly consumed in a Western style diet, Food Chemistry, vol.131, issue.1, pp.170-174, 2012.

, IARC Monographs on the evaluation of carcinogenic risks in humans : Dry cleaning, some chlorinated solvents and otherindustrial chemicals, vol.63, 1995.

H. Isleroglu, T. Kemerli, M. Sakin-yilmazer, G. Guven, O. Ozdestan et al., Effect of Steam Baking on Acrylamide Formation and Browning Kinetics of Cookies, Journal of Food Science, vol.77, issue.10, pp.257-263, 2012.

L. B. Iturriaga, B. L. De-mishima, and M. C. Añon, Effect of amylose on starch pastes viscoelasticity and cooked grains stickiness in rice from seven argentine genotypes, Food Research International, vol.39, issue.6, pp.660-666, 2006.

M. Izydorczyk, C. G. Biliaderis, and W. Bushuk, Physical Properties of Water-Soluble Pentosans from Different Wheat Varieties, Cereal Chemistry, vol.68, issue.2, pp.145-150, 1991.

M. Jekle and T. Becker, Dough microstructure: Novel analysis by quantification using confocal laser scanning microscopy, Food Research International, vol.44, issue.4, pp.984-991, 2011.

, Summary Report of the seventy-second meeting of JECFA, Joint FAO/WHO expert committee on food additives, 2010.

E. L. Keijbets, J. Chen, E. Dickinson, and J. Vieira, Surface energy investigation of chocolate adhesion to solid mould materials, Journal of Food Engineering, vol.92, issue.2, pp.217-225, 2009.

N. Lassoued-oualdi, Structure alvéolaire des produits céréaliers de cuisson en lien avec les propriétés rhéologiques et thermiques de la pâte : effet de la composition, 2005.

B. Launay, A Simplified Nonlinear Model for Describing the Viscoelastic Properties of Wheat Flour Doughs at High Shear Strain, Cereal Chemistry, vol.67, issue.1, pp.25-31, 1990.

L. Bleis, F. Chaunier, L. Chiron, H. Della-valle, G. Saulnier et al., Rheological properties of wheat flour dough and French bread enriched with wheat bran, Journal of Cereal Science, vol.65, pp.167-174, 2015.
URL : https://hal.archives-ouvertes.fr/hal-02630888

J. Leclère and I. Birlouez-aragon, The fluorescence of advanced maillard products is a good indicator of lysine damage during the maillard reaction, Journal of Agricultural and Food Chemistry, vol.49, issue.10, pp.4682-4687, 2001.

S. Lee, J. S. Park, and T. R. Lee, The wettability of fluoropolymer surfaces: Influence of surface dipoles, Langmuir, vol.24, issue.9, pp.4817-4826, 2008.

C. Leray, Nature et source des principaux lipides, Les lipides -nutrition et santé, 2013.

C. Létang, M. Piau, and C. Verdier, Characterization of wheat flour-water doughs. Part I: Rheometry and microstructure, Journal of Food Engineering, vol.41, issue.2, pp.121-132, 1999.

H. Levine and L. Slade, Influences of the glassy and rubbery states on the thermal, mechanical, and structural properties of doughs amd baked products. Dough Rheology and Baked Product Texture, pp.157-330, 1990.

C. Li, W. Li, B. Lee, A. Laroche, L. Cao et al., Morphological characterization of triticale starch granules during endosperm development and seed germination, Canadian Journal of Plant Science, vol.91, pp.57-67, 2011.

J. Mann, B. Schiedt, A. Baumann, B. Conde-petit, and T. A. Vilgis, Effect of heat treatment on wheat dough rheology and wheat protein solubility. Food Science and Technology International, vol.20, pp.341-351, 2014.

M. Mariotti, K. Granby, A. Fromberg, J. Risum, E. Agosin et al., Furan Occurrence in Starchy Food Model Systems Processed at High Temperatures: Effect of Ascorbic Acid and Heating Conditions, Journal of Agricultural and Food Chemistry, 2012.

S. I. Martins, W. M. Jongen, and M. A. Van-boekel, A review of Maillard reaction in food and implications to kinetic modelling, Trends in Food Science and Technology, vol.11, issue.9, pp.364-373, 2000.

T. S. Meiron, A. Marmur, and I. S. Saguy, Contact angle measurement on rough surfaces, Journal of Colloid and Interface Science, vol.274, issue.2, pp.637-644, 2004.

M. Mesías, F. Holgado, G. Márquez-ruiz, and F. J. Morales, An investigation of process contaminants' formation during the deep frying of breadcrumbs using a bread coat model, Food Funct, 2016.

M. C. Michalski, S. Desobry, and J. Hardy, Food materials adhesion: a review, Critical Reviews in Food Science and Nutrition, vol.37, issue.7, pp.591-619, 1997.

M. Jusoh, Y. M. Chin, N. L. Yusof, Y. A. Rahman, and R. , Bread crust thickness measurement using digital imaging and L a b colour system, Journal of Food Engineering, vol.94, issue.3-4, pp.366-371, 2009.

K. M. Morehouse, P. J. Nyman, T. P. Mcneal, M. J. Dinovi, and G. A. Perfetti, Survey of furan in heat processed foods by headspace gas chromatography/mass spectrometry and estimated adult exposure, Analysis, Control, Exposure & Risk Assessment, vol.25, pp.259-264, 2008.

D. N. Morton, C. J. Robert, M. J. Hey, J. R. Mitchell, J. Hipkiss et al., Surface characterization of caramel at the micrometer scale, Journal of Food Science, vol.68, pp.1411-1415, 2003.

V. Nicolas, P. Salagnac, P. Glouannec, J. Ploteau, V. Jury et al., Modelling heat and mass transfer in deformable porous media: Application to bread baking, Journal of Food Engineering, vol.130, pp.23-35, 2014.
URL : https://hal.archives-ouvertes.fr/hal-00986955

C. Niquet-léridon, P. Jacolot, C. N. Niamba, N. Grossin, E. Boulanger et al., The rehabilitation of raw and brown butters by the measurement of two of the major Maillard products, N-carboxymethyllysine and 5-hydroxymethylfurfural, with validated chromatographic methods, Food Chemistry, vol.177, pp.361-368, 2015.

G. Noguchi, M. Shinya, K. Tanaka, and T. Yoneyama, Correlation of dough stickiness with texturometer reading and with various quality parameters, Cereal Chemistry, vol.53, issue.1, pp.72-75, 1976.

M. Nosonovsky and B. Bhushan, Roughness-induced superhydrophobicity: a way to design non-adhesive surfaces, Journal of Physics: Condensed Matter, vol.20, issue.22, p.225009, 2008.

J. Olkkut, Gelatinization of starch and wheat flour starch -A review, Food Chemistry, issue.3, pp.293-317, 1978.

M. H. Ong and J. M. Blanshard, Texture determinants of cooked , parboiled rice . II : Physicochemical properties and leaching behaviour of rice, Journal of Cereal Science, vol.21, pp.261-269, 1995.

M. Onishi, M. Inoue, T. Araki, H. Iwabuchi, and Y. Sagara, Characteristic Coloring Curve for White Bread during Baking, Bioscience Biotechnology and Biochemistry, vol.75, issue.2, pp.255-260, 2011.

A. Owczarek-fendor, B. De-meulenaer, G. Scholl, A. Adams, F. Van-lancker et al., Furan formation in starch-based model systems containing carbohydrates in combination with proteins, ascorbic acid and lipids, Food Chemistry, vol.133, issue.3, pp.816-821, 2012.

D. K. Owens and R. C. Wendt, Estimation of the surface free energy of polymers, Journal of Applied Polymer Science, vol.13, pp.1741-1747, 1969.

B. Pareyt, S. M. Finnie, J. A. Putseys, and J. A. Delcour, Lipids in bread making: Sources, interactions, and impact on bread quality, Journal of Cereal Science, vol.54, issue.3, pp.266-279, 2011.

B. Pareyt, S. M. Finnie, J. A. Putseys, and J. A. Delcour, Lipids in bread making: Sources, interactions, and impact on bread quality, Journal of Cereal Science, vol.54, issue.3, pp.266-279, 2011.

X. Peng, J. Ma, K. Cheng, Y. Jiang, F. Chen et al., The effects of grape seed extract fortification on the antioxidant activity and quality attributes of bread, Food Chemistry, vol.119, issue.1, pp.49-53, 2010.

C. Perez-locas and . Yaylayan, Origin and mechanistic pathways of formation of the parent furan--a food toxicant, Journal of Agricultural and Food Chemistry, vol.52, issue.22, pp.6830-6836, 2004.

Y. Peykova, S. Guriyanova, O. V. Lebedeva, A. Diethert, P. Müller-buschbaum et al., The effect of surface roughness on adhesive properties of acrylate copolymers, International Journal of Adhesion and Adhesives, vol.30, issue.4, pp.342-352, 2010.

C. Primo-martín, N. H. Van-nieuwenhuijzen, R. J. Hamer, and T. Van-vliet, Crystallinity changes in wheat starch during the bread-making process: Starch crystallinity in the bread crust, Journal of Cereal Science, vol.45, issue.2, pp.219-226, 2007.

E. Purlis and V. O. Salvadori, Bread browning kinetics during baking, Journal of Food Engineering, vol.80, issue.4, pp.1107-1115, 2007.

E. Purlis and V. O. Salvadori, Bread baking as a moving boundary problem. Part 1: Mathematical modelling, Journal of Food Engineering, vol.91, issue.3, pp.428-433, 2009.

E. Purlis and V. O. Salvadori, Modelling the browning of bread during baking, Food Research International, vol.42, issue.7, pp.865-870, 2009.

B. P. Ram and S. N. Nigan, Texturometer as a tool for studying varietal differences in wheat flour doughs and gluten proteins, Journal of Texture Studies, vol.14, pp.245-249, 1983.

A. Ramirez-jiménez, B. Garciand+-a-villanova, and E. Guerra-hernandez, Effect of toasting time on the browning of sliced bread, Journal of the Science of Food and Agriculture, vol.81, issue.5, pp.513-518, 2001.

A. Ramirez-jiménez, E. Guerra-hernandez, and B. García-villanova, Browning indicators in bread, Journal of Agricultural and Food Chemistry, vol.48, issue.9, pp.4176-4181, 2000.

J. Rizkallah, F. J. Morales, L. Ait-ameur, V. Fogliano, A. Hervieu et al., Front face fluorescence spectroscopy and multiway analysis for process control and NFC prediction in industrially processed cookies, vol.93, pp.99-107, 2008.

D. Roberts, C. Crews, H. Grundy, C. Mills, and W. Matthews, Effect of consumer cooking on furan in convenience foods, Analysis, Control, Exposure & Risk Assessment, vol.25, pp.25-31, 2008.
URL : https://hal.archives-ouvertes.fr/hal-00577316

J. Rouillé, H. Chiron, P. Colonna, G. Della-valle, and D. Lourdin, Dough/crumb transition during French bread baking, Journal of Cereal Science, vol.52, issue.2, pp.161-169, 2010.

J. A. Rufian-henares, C. Delgado-andrade, and F. J. Morales, Relationship between acrylamide and thermal-processing indexes in commercial breakfast cereals: A survey of Spanish breakfast cereals, Molecular Nutrition and Food Research, vol.50, issue.8, pp.756-762, 2006.

M. Sakin, F. Kaymak-ertekin, and C. Ilicali, Simultaneous heat and mass transfer simulation applied to convective oven cup cake baking, Journal of Food Engineering, vol.83, issue.3, pp.463-474, 2007.

A. Salvador, T. Sanz, and S. M. Fiszman, Dynamic rheological characteristics of wheat flour-water doughs. Effect of adding NaCl, sucrose and yeast, Food Hydrocolloids, vol.20, issue.6, pp.780-786, 2006.

A. Sarafraz-yazdi, M. Abbasian, and A. Amiri, Determination of furan in food samples using two solid phase microextraction fibers based on sol-gel technique with gas chromatography-flame ionisation detector, Food Chemistry, vol.131, issue.2, pp.698-704, 2012.

M. Schirmer, A. Höchstötter, M. Jekle, E. Arendt, and T. Becker, Physicochemical and morphological characterization of different starches with variable amylose/amylopectin ratio, Food Hydrocolloids, vol.32, issue.1, pp.52-63, 2013.

M. Schirmer, J. Zeller, D. Krause, M. Jekle, and T. Becker, In situ monitoring of starch gelatinization with limited water content using confocal laser scanning microscopy, European Food Research and Technology, vol.239, issue.2, pp.247-257, 2014.

M. Schmiele, L. Z. Jaekel, S. M. Patricio, C. J. Steel, and Y. K. Chang, Rheological properties of wheat flour and quality characteristics of pan bread as modified by partial additions of wheat bran or whole grain wheat flour, International Journal of Food Science & Technology, vol.47, issue.10, pp.2141-2150, 2012.

J. D. Schofield, R. C. Bottomley, M. F. Timms, and M. R. Booth, The effect of heat on wheat gluten and the involvement of sulphydryl-disulphide interchange reactions, Journal of Cereal Science, vol.1, issue.4, pp.241-253, 1983.

H. Z. Senyuva and V. Gökmen, Is headspace sampling a fit-for-purpose technique?, Food Additives and Contaminants, vol.22, pp.1198-1202, 2005.

H. Singh, A study of changes in wheat protein during bread baking using SE-HPLC, Food Chemistry, vol.90, issue.1-2, pp.247-250, 2005.

R. D. Spies and R. C. Hoseney, effect of sugar on starch gelatinization.pdf, Cereal Chemistry, vol.59, issue.2, pp.128-131, 1982.

C. Srey, G. L. Hull, L. Connolly, C. T. Elliott, M. D. Castillo et al., Effect of inhibitor compounds on N-(carboxymethyl)lysine (CML) and N-(carboxyethyl)lysine (CEL) formation in model foods, Journal of Agricultural and Food Chemistry, vol.58, issue.22, pp.12036-12041, 2010.

J. A. Stamp and T. P. Labuza, Kinetics of the Maillard reaction between aspartame and glucose in solution at high temperatures, Journal of Food Science, vol.48, issue.2, pp.543-544, 1983.

C. E. Stathopoulos, A. Tsiami, D. Schofield, J. Dobraszczyk, and B. J. , Effect of heat on rheology, surface hydrophobicity and molecular weight distribution of glutens extracted from flours with different bread-making quality, Journal of Cereal Science, vol.47, pp.134-143, 2008.

N. Surdyk, J. Rosén, R. Andersson, and P. Åman, Effects of Asparagine, Fructose, and Baking Conditions on Acrylamide Content in Yeast-Leavened Wheat Bread, Journal of Agricultural and Food Chemistry, vol.52, issue.7, pp.2047-2051, 2004.

A. Surget and C. Barron, Histologie du grain de blé, Industries Des Céréales, vol.145, pp.3-7, 2005.

F. J. Tessier, P. Gadonna-widehem, and J. C. Laguerre, The fluorimetric FAST method, a simple tool for the optimization of microwave pasteurization of milk, Molecular Nutrition and Food Research, vol.50, issue.9, pp.793-798, 2006.

R. F. Tester and W. R. Morrison, Swelling and gelatinization of cereal starches. I. Effects of amylopectin, amylose, and lipids, Cereal Chemistry, vol.67, issue.6, pp.551-557, 1990.

R. F. Tester and W. R. Morrison, Swelling and gelatinization of cereal starches. II. Waxy rice starches, Cereal Chemistry, vol.67, issue.6, pp.558-563, 1990.

N. Therdthai, W. Zhou, and T. Adamczak, Optimisation of the temperature profile in bread baking, Journal of Food Engineering, vol.55, issue.1, pp.41-48, 2002.

S. R. Thorpe and J. W. Baynes, CML: a brief history, International Congress Series, vol.1245, pp.91-99, 2002.

K. Thorvaldsson and C. Skjoldebrand, Water Diffusion in Bread During Baking1, vol.31, pp.658-663, 1998.

A. Tipler and C. Mazza, Système et procédé pour l'extraction de composés volatils, 2004.

A. D. Troise, A. Fiore, M. Wiltafsky, and V. Fogliano, Quantification of N-(2-Furoylmethyl)-l-lysine (furosine), N-(Carboxymethyl)-l-lysine (CML), N-(Carboxyethyl)-l-lysine (CEL) and total lysine through stable isotope dilution assay and tandem mass spectrometry, Food Chemistry, vol.188, pp.357-364, 2015.

, Determination of furan in foods, 2006.

E. Ucciani, Nouveau dictionnaire des huiles végétales, 1995.

E. J. Van-velzen, J. P. Van-duynhoven, P. Pudney, P. L. Weegels, . Van-der et al., Factors Associated with Dough Stickiness as Sensed by Attenuated Total Reflectance Infrared Spectroscopy, Cereal Chemistry Journal, vol.80, issue.4, pp.378-382, 2003.

E. J. Van-velzen, J. P. Van-duynhoven, P. Pudney, P. L. Weegels, . Van-der et al., Factors associated with dough stickiness as sensed by attenuated total reflectance infrared spectroscopy, Cereal Chemistry, vol.80, issue.4, pp.378-382, 2003.

F. M. Vanin, T. Lucas, and G. Trystram, Crust formation and its role during bread baking, Trends in Food Science & Technology, vol.20, issue.8, pp.333-343, 2009.

F. M. Vanin, C. Michon, and T. Lucas, Effect of the drying rate on the complex viscosity of wheat flour dough transforming into crust and crumb during baking, Journal of Cereal Science, vol.58, issue.2, pp.290-297, 2013.
URL : https://hal.archives-ouvertes.fr/hal-01004322

F. M. Vanin, C. Michon, G. Trystram, and T. Lucas, Simulating the formation of bread crust in a DMTA rheometer, Journal of Cereal Science, vol.51, issue.3, pp.277-283, 2010.
URL : https://hal.archives-ouvertes.fr/hal-02595964

J. Vranová, A. Bednáriková, and Z. Ciesarová, In-house validation of a simple headspace gas chromatography-mass spectrometry method for determination of furan levels in food, vol.46, pp.123-127, 2007.

M. Wagner, Suivi local et dynamique par IRM de la cuisson du pain et étude des mécanismes contrôlant la mise en place de la structure alvéolaire, 2005.

M. Wagner, T. Lucas, D. Le-ray, and G. Trystram, Water transport in bread during baking, Journal of Food Engineering, vol.78, issue.4, pp.1167-1173, 2007.
URL : https://hal.archives-ouvertes.fr/hal-02588565

D. N. Zaidel, N. L. Chin, Y. A. Yusof, R. A. Rahman, and R. Karim, Statistical Modelling of Gluten Production by Varying Mixing Time, Salt and Water Levels During Dough Mixing, International Journal of Food Engineering, vol.5, issue.3, 2009.

B. Zanoni, C. Peri, and D. Bruno, Modelling of Browning Kinetics of Bread Crust During Baking, vol.609, pp.604-609, 1995.

B. Zanoni, C. Peri, and S. Pierucci, a Study of the Bread-Baking Process-I. A phenomenological Model, Journal of Food Engineering, vol.19, issue.4, pp.389-398, 1993.

O. Zoller, F. Sager, and H. Reinhard, Furan in food: headspace method and product survey, Food Additives and Contaminants, vol.24, issue.1, pp.91-107, 2007.

S. Zorita, C. Niquet, J. P. Bonhoure, N. Robert, and F. J. Tessier, Optimisation of a model food mixture using response surface methodology to evaluate the anti-adhesive properties of cooking materials, International Journal of Food Science and Technology, vol.45, pp.2494-2501, 2010.

A. Zosel, The effect of fibrilation on the tack of pressure sensitive adhesives, International Journal of Adhesion and Adhesives, vol.18, pp.265-271, 1997.

D. V. Zyzak, R. Sanders, M. Stojanovich, D. H. Tallmadge, B. L. Eberhart et al., Acrylamide Formation in Heated Foods Figure 1. Water, pp.74-75, 2003.