Etude de la déformation viscoélastique et plastique du PET
Transcription
Etude de la déformation viscoélastique et plastique du PET
186 Référence Bibliographiques Références Bibliographiques Références Bibliographiques 187 $ [Adams 85]- Adams W.W., Briber R.B., Sherman E.S., Porter R.S., Tomas E. L., “Microstructure of high modulus solid state extruded polyethylene. 2-X-ray scattering studies of 12, 24 and 36 extrusion draw ratio”, Polymer, 1985, vol. 26 ,n° 1, p.17-26. [Albérola 96]- Albérola N.D., Mélé P., “Viscoelasticity of polymers filled by rigid or soft particles : Theory and experiment”, Polym. Comp.,1996, vol. 17, p.751-759. [Albérola 97]- Albérola N.D., Mélé P., Bas C., “Tensile mechanical properties of PEEK films over a wilde range of strain rates II”, J. Appl. Polym. Sci.,1997, vol. 64, p.1053-1059. [Argon 77]- Argon A.S., Bessonov M.I., “Plastic deformation in polyimides with new implication on the theory of plastic deformation of glassy polymers”, Philos. Mag., 1977, vol. 35, n° 4, p.917-933. [Argon 94]- Argon A.S., Lin L., Vansco G.L., “The rate mechanism of plastic flow by chain slip in highly textured quasi-single-cristalline HDPE and Nylon 6” dans “deformation, yield and fracture of polymers”, The Institute of Materials, London 1994, p21/1-5. [Armeniade 71]- Armeniade G., Bear E., “Structural origine of the cryogenic relaxation in PET” J. Polym. Sci., Polym. Phys., 1971, vol. 9, p.1345-1369. [Ahzi 90a]- Ahzi S., Molinari A., Canova G.R.,“Effect of the grain shape on the texture evolution of a polycrystalline material”, dans “Proc. Symp. Yielding Damage Failure Anisotropic solids”, J.P. Boehler (eds.), London : Mechanical Engineering Publ., 1990, p.425441. [Ahzi 90b]- Ahzi S., Parks D.M., Argon A.S., “Modeling of plastic deformation and evolution of anisotropy in semi-crystalline polymers”, dans Singh B., Im Y.T., Haque I. et Altan C. (eds.), “Computer modeling and simulation of manufacturing processes”, NewYork : ASME, 1990, p.287-292. 188 Référence Bibliographiques [Ahzi 93]- Ahzi S., Asaro J., Parks D.M., “Application of crystal plasticity theory for mechanically processed bscco superconductors”, Mech. Mater., 1993, vol. 15, n° 3, p.201222. [Ahzi 94]- Ahzi S., Lee B.J., Asaro R.J., “Plasticity and anisotropy evolution in crystalline polymers”, Mater. Sci. Eng., 1994, vol. A189, n° (1-2), p.35-44. B [Balta-Calleja 93]- Balta-Calleja F.J., Santa Cruz C., Asano T., “Physical transitions and crystallization phenomena in PET studied by microhardness”, J. Polym. Sci., Polym. Phys., 1993, vol. 31, n° 5, p.557-565. [Bartczak 92]- Bartczak Z., Argon A.S., Cohen R.E., “Deformation mechanisms and plastic resistance in single-crystal-textured high density polyethylene”, Macromolecules, 1992, vol. 25, n° 19, p.5036-5053. [Bartczak 96]- Bartczak Z., Galeski A., Argon A.S. et Cohen R.E., “On the plastic deformation of the amorphous component in semi crystalline polymers” , Polymer, 1996, vol. 37, n° 11, p.2113-2123. [Bas 94]- Bas C, Battesti P. et Abérola N.D., “Crystallization and melting behaviors of poly (aryl ether ether ketone) (PEEK) on origin of double melting peaks”, J. Appl. Poly. Sci., 1994, vol. 53, n° 13, p.1745-1757. [Bas 97]- Bas C, Fugier M. et Abérola N.D., “Reinforcement effect and molecular motions in semi-crystalline PEEK films : Mechanical and physical modeling I”, J. Appl. Poly. Sci., 1997, vol. 64, n° 9, p.1041-1052. [Bassett 88]- Bassett D.C., Olley R. H., Al Raheil A. M., “On the crystallization phenomena in PEEK”, Polymer, 1988, vol. 29, p.1745-1754. Références Bibliographiques 189 [Bassett 94]- Bassett D.C. et Patel D., “Isothermal lamellar thickening and distribution of thermal stability in spherulitic isotactic poly (4-methylpentene-1)”, Polymer, 1994, vol. 35, n° 9, p.1855-1862. [Bellare 91]- Bellare A., “Deformation induced texture development in PET”, Thèse de doctorat, Inst. Tech. Massachusetts, 1992. 124p. [Bellare 93]- Bellare A., Cohen R. E., Argon A. S., “Development of texture in PET by planestrain compression” , Polymer, 1993, vol. 34, n° 7, p.1393-1403. [Benatmane 91]- Benatmane A., “Etude du vieillissement physique du PET amorphe et semicristallin”, Thèse de doctorat, INSA de Lyon, 1992, 191p. [Blakey 64]- Blakey P.R., Sheldon R. P., “Cold drawing of acetone-crystallized PET”, J. Polym. Sci. 1964, vol. A2, p.1043-1049. [Blundell 83]- Blundell D. J., Osborn B. N., “The morphology of PEEK”, Polymer, 1983, vol. 24, p.953-958. [Blundell 87]- Blundell D. J., “On the interpretation of multiple melting peaks in PEEK”, Polymer, 1987, vol. 28, p.2248-2251. [Bowden 74]- Bowden P.B., Young R.J., “Review : Deformation mechanisms in crystalline polymers”, J. Mat. Sci., 1974, vol. 9, p.2034-2051. [Bronnikov 90]- Bronnikov S.V., Vettegren V.I., Kalbina N.S., Korzhavin L.N., Frenkel S. Ya., “Description of long-term stress relaxation in stretching oriented polymers”, Polym. Sci. U.S.S.R., 1990, vol. 32, n° 7, p.1427-1431. [Buckley 96]- Buckley C.P., Jones D.C., Jones D.P., “Hot-drawing of PET under biaxial stress: application of a three-dimensional glass-rubber constitutive model”, Polymer, 1996, vol. 37, n° 12, p. 2403-2414. 190 Référence Bibliographiques C [Cakmak 86]- Cakmak M., White J.L., Spruiell J., “Structural characterization of cristallinity and crystalline orientation in simultaneously biaxially stretched and annealed PET films”, J. Polym. Eng., 1986, vol. 6, n° (1-4), p.291-312. [Chang 81]- Chang B.T.A., Li J.C.M., “Recovery of compressive strain in atactic polystyrene”, J. Mat. Sci., 1981, vol.16, p.889-899. [Chazeau 98]- Chazeau L., “Etude de nanocomposites a renfort cellulosique et matrice poly (chlorure de vinyle)”, Thèse, Université Joseph Fourier, 1998, 306p. [Chen 95]- Chen C-Y, Woo E.M., “Some new evidence for polymorphism in coldcrystallized poly (ether ether ketone)”, Polym. J. (Tokyo), 1995, vol. 27, n° 4, p.361-370. [Chiu 94]- Chiu H.C., Burns S.J., Fiscella M.D., Benson R.C., “A new model for deformation kinetics of PET films”, J. Macromol. Sci.-Phys. 1994, vol. B33, n° 1, p.87-104. [Christiansen 71]- Christiansen A.W., Baer E., Radcliffe S.V., “The mechanical behaviour of polymers under high pressure”, Phil. Mag. 1971, vol. 24, p.451-467. [Christensen 79]- Christensen R.M., Lo K. H., “Solution for effective shear properties in three phases sphere and cylinder models”, J. Mech. Phys. Solids, 1979, vol. 27, p.315-330. [Chuah 83]- Chuah H.H., De Micheli R. E., Porter R. S., J. Polym. Sci., Polym. Lett. Ed., “Density changes on drawing by solid-state extrusion of high density polyethylene”, 1983, vol.21, n° 10, p.791-797. D [Dahoun 93]- Dahoun A., G’sell C., Molinari A., Canova G.R., “Plastic behavior and deformation textures of poly (ether ether ketone) under uniaxial tension and sample shear”, dans V.K. Stokes (eds.), “Use of plastic composites materials and mechanics issues”, NewYork : ASME 1993, vol.46 , p.57-76. Références Bibliographiques 191 [Dahoun 95]- Dahoun A., Aboulfaraj M., G’sell C., Molinari A., Canova G.R.,“Plastic behaviour and deformation textures of PEEK under uniaxiale and simple shear”, Polym. Eng. Sci., 1995, vol. 35, n° 4, p.317-330. [Daubeny 54]- Daubeny R.P., Bunn C.W., et Brown C.J., “The crystal structure PET” Proc. Roy. Soc. Lon., 1954, vol. A226, p.531-542. E [Escaig 82]- Escaig B., “Kinetics and thermodynamics of plastic flow in polymeric glasses” dans “Plastic deformation of amorphous and semicrystalline materials”, Les Houches 1982 , B Escaig et C. G’sell (eds.), Les Ullis( fr.), Les editions de Physique, 1982, p.187-225. [Etienne 82]- Etienne S., Cavaillé J.Y., Perez J., Point R. et Salvia M., “Automatic system for analysis of micromechanical properties”, Rev. Sci. Instrum., 1982, vol. 53, p.1261-1266. F [Fakirov 77]- Fakirov S., Ficher E. W., Hoffmann R., Schemidt G. F., “Structure and properties of poly (ethylene terephthalate) cristallized by annealing in the high ly oriented state. 2. Melting behavior and the mosaic block structure of the crystalline laryers”, Polymer, 1977, vol. 18, n° 11, p.1121-1129. [Flores 94]- Flores R., “Comportement mécanique du PVC et de mélanges PVC/PMMA : effet de traitements thermiques et de la réticulation”, Thèse, INSA de Lyon, 1994, 287p. [Flory 78]- Flory P. J., Yoon D. Y., “Molecular morphology in semi-crystalline polymers”, Nature, 1978, vol. 272, p.226-229. [Fontaine 82]- Fontaine F., Lendent J., Groeninckx G., Reynaers H., “Morphology and melting behaviour of semi-crystalline PET : 3-Quantification of crystal perfection and crystallinity”, Polymer, 1982, vol. 23, p.185-191. [Fulchiron 93]- Fulchiron R., Gauthier C., et Vigier G., “Effects of the crystallinity on the β relaxation of PET”, Acta Polymer, 1993, vol. 44, p.313-315. 192 Référence Bibliographiques G [Gauthier 97]- Gauthier C., David L., Ladouce L., Quinson R., Perez J., “Non linear mechanical response of amorphous polymers below and through glass transition temperature”, J. Appl. Polym. Sci.,1997, vol. 65, n° 12, p.2517-2528. [Gent 89]- Gent A.N., Madan S., “Plastic yielding of partially crystalline polymers”, J. Polym. Sci., Polym. Phys. Ed., 1989, vol. 27, n°7, p.1529-1542. [G.F.P. 82]- G.F.P. : Groupe Français d’études et d’applications des polymères , “Initation à la chimie et à la phisco-chimie moléculaires”, Vol. 2, “Propriétés physiques des polymères : Mise en ouvre”, Strasbourge : GFP, 1982, 381p. [G’Sell 79]- G’Sell C., Jonas J.J., “Determination of the plastic behaviour of solid polymers at constant true strain rate”, J. Mater. Sci., 1979, vol. 14, p.583-591. [G’Sell 94]- G’Sell C., Dahoun A., “Evolution of microstructure in semi-crystalline polymers under large plastic deformation”, Mater. Sci. Eng., 1994, vol. A175, p.183-189. [Göschel 96]- Göschel U, “Thermally simulated structural changes in highly oriented glassy PET”, Polymer, 1996, vol. 37, n° 18, p.4049-4059. [Green 51]- Green A.P., “A theoretical investigation of the compression of a ductile materials between smooth dies”, Philos. Mag., 1951, vol. 42, p.900-918. [Groeninckx 80]- Groeninckx G., Reynaers H., Berghmans H. et Smets G.,“Morphology and melting behavior of semi crystalline PET. I. Isothermally crystallized PET”, J. Polym. Sci., Polym. Phys. Ed., 1980, vol. 18, p.1311-1324. [Guiu 64]- Guiu F., Pratt P.L., “Stress relaxation and the plastic deformation of solids”, Phys. Stat. Sol., 1964, vol. 6, p.111-120. Références Bibliographiques 193 H [Halpin 76]- Halpin J.C., Kardos J.L., “The Halpin-Tsai equations : a review”, Polym. Eng. Sci., 1976, vol. 16, n° 5, p.344-352. [Harry 76]- Harry K.Y.P., Levernewilliams H., “Transition and relaxation of linear polysters related to PET II glassy and gamma”, J. Appl. Polym. Sci., 1976, vol. 20, p.1217-1230. [Haudin 82]- Escaig B et G’sell C. (Eds.) “Plastique deformation of amorphous and semicrystalline materials”, Les Ulis, Les Editions de physique, 1982, 291p. [Haudin 95]- Haudin J.M., G’sell C., “Mécanismes microscopiques de déformation des polymères semi-crystallins”, dans “Introduction à la mecanique des polymères”, Nancy : INPL de Lorraine 1995, p.250-275. [Hervé 90]- Hervé E. et Zaoui A., “Modelling the effective behavior of non linear matrixinclusion composites”, Eur. J. Mech. A/Solides, 1990, vol. 9, n° 6, p.505-515. [Hervé 93]- Hervé E. et Zaoui A., “n-Layered inclusion-based micromechanical modelling”, Int. J. Eng. Sci., 1993, vol. 31, n° 1, p.1-10. [Huff 57]- Huff K. et Müller F.H., “Veränderungen des dielektischen relaxations spektrum von hochpolymerien durch verstreckung”, Kolloïd Z., 1957, vol. 153, p.5-28. I [Ichihara 83]- Ichihara S., Iida S., “Ultradrawing of semicrystalline Polymers : Morphological changes and mechanical properties”, dans Zachariades A.E., Porter R.S. (eds.), “The strength and the stiffness of polymers”, New-York : Marcel Dekker Inc., 1983, p.129180. [Illers 63]- Illers K.H. et Breuer H., “Molecular motions in PET”, J. Colloid Sci., 1963, 18, p.1-31. 194 Référence Bibliographiques J [Johari 76]- Johari G.P., “Glass transition and secondary relaxations in molecular liquids and crystals”, dans Goldenstein Ed. M. et Simha R. (eds.), “The glass transition and the nature of the glassy state”, New-York : The New-York Acad. Sci., 1976, p.117-140. [Jourdan 87]- Jourdan C., “Spectroscopie mécanique et alliages héterophasés de polymères. Application à l’étude des systèmes à base polypropylène”, Thèse, INSA de Lyon 1987, 187p. K [Keller 71]- Keller A., Pope D.P., “Identification of structural processes in deformation of oriented polyethylene”, J. Mater. Sci., 1971, vol. 6, n° 6, p.453-478. [Ko 96]- Ko T.Y., Woo E.M., “Changes and distribution of lamelle in the spherulites of PEEK upon stepwise cristallization”, Polymer, 1996, vol. 37, n° 7, p.1167-1175. [Kocks 75a]- Kocks U.F., Argon A.S. et Ashby M.F., “Progress in Materials Science”, Vol.19, edited by B. Chalmers, J.W. Christain and Massaloki,T.B., Oxford : Pergamon, 1975, 110p. [Kocks 75b]- Kocks U.F., Argons A.S., Ashby M.F., “Thermodynamics and Kinetics of slip”, Oxford : Pergamon press, 1975, 289 p. [Kubie 80]- Kubie J., “Le test de bipoinçonnement étude théorique, application à l'étude du transfert de matière dans un contact frottement”, Thèse, ENSM de Paris 1980, 153p. L [Ladouce 94]- Ladouce L., Perez J., Vassoille R., Vigier G., “Non-linear creep behaviour of PET”, J. Mat. Sci.,1994, vol. 29, p.5399-5406. [Ladouce 95]- Ladouce L., “Déformation non-élastique homogene et héterogène du PET amorphe et semi-cristallin”, Thèse, INSA de Lyon 1995 , 223p. Références Bibliographiques 195 [Ladouce 96]- Ladouce L., Perez J., Vassoille R , “High speed deformation of PET” , J. Phys. III France, 1996, vol. 6, p.35-54. [Lauritzen 60]- Lauritzen J.I., Hoffman J.D., “Theory of formation of polymer crystals with folded chains in dilute solution”, J. Res. Nat. Bur. Stand., 1960, vol. A64, n° 1, p.73-102. [Lee 87]- Lee Y. et Porter R.S., “Double-melting behavior of poly (ether ether ketone)”, Macromolecules, 1987, vol. 20, n° 6, p.1336-1341. [Lee 88a]- Lee L.H., Vanselow J. J., Schneider N. S., “Effects of mechanical drawing on the structure and properties of PEEK”, Polym. Eng. Sci., 1988, vol.28, n° 3, p.181-187. [Lee 89]- Lee Y., Porter R.S. et Lin J. S., “On the double melting behavior of PEEK” Macromolecules, 1989, vol. 22, n° 4, p.1756-1760. [Lee 91]- Lee Y., Porter R. S., “Crystallization of PEEK oriented by solid-state extrusion”, Macromolecules, 1991, vol. 24, p.3537-3542. [Lee 93]- Lee B.J., Argon A.S., Parks D.M., Ahzi S., Bartczak Z., “Simulation of large strain plastic deformation and texture evolution in high density polyethylene”, Polymer, 1993, vol. 34, p.3555-3575. [Lewis 70]- Lewis T.B. et Nielsen L.E., “Dynamic mechanical properties of particulated filled composites”, J. Appl. Polym. Sci. 1970, vol. 14, n° 6, p.1449-1471. [Li 70]- Li J.C.M., Gilman J.J., “Disclination loops in polymers”, J. Appl. Phys., 1970, vol. 41, n° 11, p.4248-4256. [Lin 83]- Lin S.B., Koening J.L., “A kinetic analysis of the gauche-trans isomerization in semicrystalline polyethylene terephthalate”, J. Polym. Sci., Polymer Phys. Ed., 1983, vol. 21 p.2365-2378. [Lin 92]- Lin L., Argon A.S., “Deformation resistance in oriented Nylon 6”, Macromolecules,1992, vol. 25, n° 15, p.4011-4024. 196 Référence Bibliographiques [Lin 94a]- Lin L, Argon A. S., “Structure and plastic deformation of polyethylene”, J. Mat. Sci., 1994, vol. 29, p.294-323. [Lin 94b]- Lin L., Argon A.S , “Rate mechanism of plasticity in the crystalline component of semicrystalline Nylon 6”, Macromolecules, 1994, vol. 27, p.6903-6914. [Lombaz 86]- Lombaz J.L., “Essais de bipoinçonnement sur zircaloy 4”, Rapport DEA, INSA, GEMPPM, 1986 56p. [Ludwig 88]- Ludwig H.J., Eyerrer P., “Influence of the processing conditions on morphology and deformation behavior of poly (butylene terephthalate) (PBT)”, Polym. Eng. Sci., 1988, vol. 28, n° 3, p.143-146. M [Mangion 92]- Mangion B.M., Cavaillé J.Y., Perez J., “A molecular theory for the sub-Tg plastic response of amorphous polymer”, Philos. Mag., 1992, vol. A66, p.773-796. [Marand 92]- Marand H. et Prasad A., “On the observation of new morphology in poly (arylene ether ether ketone). A further examination of the double endothermic behavior of poly (arylene ether ether ketone)”, Macromolecules 1992, vol. 25, n° 6, p.1731-1736. [Matsuo 95]- Matsuo M., Junko O.K., Harashina Y., Ogita T., Manley R. St., “Theoretical estimation of segmental orientation in deformed polymeric networks using a lattice model and application to orientation of amorphous chain segments of PET and oriented cristallization PE”, Macromolecules,1995, vol. 28, p.4951-4960. [Matthaws 94]- Matthaws R.G., Duckett R.A., Ward I.M., “The biaxial drawing behaviour of PET” dans “deformation, yield and fracture of polymers”, The Institute of Materials, London 1994, p.355-358. [Meinel 71]- Meinel G., Peterlin A., “Plastic deformation of polyethylene. II. Change of mechanical properties during drawing”, J. Polym. Sci., Part A-2, 1971, vol. 9, n° 11, p.67-83. Références Bibliographiques 197 [Molinari 87]- Molinari A., Canova G.R., Ahzi S., “A self consistent approach of the large deformation poly crystal viscoplasticity”, Acta Metall.,1987, vol. 35, n° 12, p.2983-2994. [Murthy 97]- Murthy N.S., Benarczyk C., Rim P. B., Nelson C. J., “Measurement of amorphous orientation in PET fibers by X-ray diffraction and its significance”, J. Appl. Polym. Sci., 1997, vol. 67, n° 7, p.1363-1371. [Muzeau 91]- Muzeau E., Perez J. et Johari G.P., “Mechanical spectrometry of the βrelaxation in PMMA”, Macromolecules 1991, vol. 24, p.4713-4723. N [Nakamae 82]- Nakamae K., Kameyama M., Yoshikawa M., Matsumoto T., “Elastic modulus of crystalline regions of poly (butylene terephthalate) in the direction parallel to the chain axis”, J. Polym. Sci., 1982, vol. 20, p.319-326. [Nakamae 87]- Nakamae K., Nishino T., Shimizu Y., Matsumoto T., “Experimental determination of elastic modulus of crystalline regions of some aromatic polyamides, aromatic polyesters and aromatic polyether ketone”, Polym. J., 1987, vol. 19, p.451-459. [Nicols 92]- Nicols M. E., Robertson R. E., “The origin of multiple melting endotherms in the thermal analysis of polymers”, J. Polym. Sci. Polym. Phys. Ed., 1992, vol. 30, p.305-307 [Nielson 94]- Nielson L.E. et Landel R.F., “Mechanical properties of polymers and composites”, New-York : Marcel Dekker Inc., 1994, 557p. [Norton 85]- Norton D.R., Keller A.,“The spherulitic and lamellar morphology of melt crystallized isotactic polypropylene”, Polymer, 1985, vol. 26, p.704-716. [Nowick 61]- Nowick A.S. et Berry B.S., “Lognormal distribution function for describing anelastic and other relaxation process. I. Theory and numerical computations”, IBM Journal Res. Dev., 1961, vol. 5, p.297-311. 198 Référence Bibliographiques O [Ouali 92]- Ouali N., “Etude de la déformation non-élastique (faible et forte contrainte) de polymères amorphes monophasés et polyphasés base PMMA”, Thèse, INSA de Lyon, 1992, 237p. [Ouali 93]- Ouali N., Mangion B.M., Perez J., “Experimental and theoretical analysis of both the small-and the large stress mechanical response of PMMA”, Philos. Mag., 1993, vol. A67, p.827-848. P [Parravicini 94]- Parravicini L., Leone B., Auriemma F., Guerra G., Petraccone V., Di Dino G., Blanchi R.,et Vosa R., “Crystallization of poly (ethylene terephthalate) (PET) from the oriented mesomorphic form”, J. Appl. Polym. Sci., 1994, vol. 52, p.875-885. [Pastor 89]- Pastor J.M., Gonalez A., De Seja J. A., “Characterization of the isothermal cristallization of PET by microhardness measurements”, J. Appl. Polym. Sci., 1989, vol. 38, p.2283-2288. [Perez 92]- Perez J., “Physique et mécanique des polymères amorphes”, Paris : Lavoisier , Tech & Doc., 1992 , 303p. [Perreria 83a]- Perreria J.C., Porter R. S., “Solid-state coextrusion of PET. 1-Drawing of amorphous PET”, J. Polym. Sci. , Polym. Phys. Ed., 1983, vol. 21, p.1133-1145. [Perreria 83b]- Perreria J.C., Porter R. S., “Solid-state coextrusion of PET. 2-Drawing of semi crystalline PET”, J. Polym. Sci., Polym. Phys. Ed., 1983, vol. 21 p.1147-1161. [Peterlin 71]- Peterlin A, “Molecular model of drawing polyethylene and polypropylene” J. Mater. Sci., 1971, vol. 6, p.490-508. [Peterson 66]- Peterson J.M., “Thermal initiation of srew dislocations in polymer crystal platelets”, J. Appl. Phys., 1966, vol. 37, n° 11, p.4047-4050. Références Bibliographiques 199 [Predecki 66]- Predecki P., Statton W.O., “Dislocation caused by chain ends in crystal polymers”, J. Appl. Phys., 1966, vol. 37, n° 11, p.4053-4059. [Predecki 67]- Predecki P., Statton W.O., “Dislocation mechanism for deformation in polyethylene”, J. Appl. Phys., 1967, vol.38, n° 11, p.4140-4144. Q [Quinson 95]- Quinson R., “Caractérisation et modélisation de la déformation non élastique des polymères amorphes à l’état solide”, Thèse - INSA de Lyon, 1995, 252p. S [Saito 59]- Saito S et Nakajima T., “Glass transitions in polymers”, J. Appl. Polym. Sci., 1959, vol. 2, p.93-99. [Saraf 88]- Saraf R. F., Porter R.S., “Deformation of semi crystalline polymers via crystalcrystal phase transition”, J. Polym. Sci., Polym. Phys., 1988, vol. 26, p.1049-1057. [Schachermayer 95]- Schachermayer W., “Examination of plastic deformation of isotatic polypropylene subjected to tensile and compressive stresses”, Thèse, INSA de Lyon & Universite de Leoben, Austria, 1995, 75p. [Schultz 74]- Schultz J., “Polymer Materials science”, New-Jersey, Prentice-Hall Inc., 1974, 513p. [Shadrake 76]- Shadrake L.G., Guiu F., “Dislocations in polyethylene crystals : Line energies and deformation modes”, Philos. Mag., 1976, vol. vol.34, p.565. [Shadrake 79]- Shadrake L.G., Guiu F., “Elastic line energies and line tensions of dislocations in polyethylene crystals”, Philos. Mag., 1979, vol. 39, p.785. [Shaterzadeh 97]- Shaterzadeh M., “Etude et modélisation physique et mécanique du comportement viscoélastique et plastique de composites particulaires a matrice polymere”, Thèse, INSA, Lyon, 1997, 202p. 200 Référence Bibliographiques [Sindt 96]- Sindt O., Perez J., Gérard J.F., “Molecular architecture - mechanical behaviour relationships in epoxy networks”, Polymer, 1996, vol. 37, n° 14, p.2989-2997. [Stachurski 69]- Stachurski Z.H., Ward I.M., “Mechanical relaxations in polyethylene”, J. Macromol. Sci.-Phys. 1969, vol. B3, n° 3, p.445-494. [Stein 80]- Stein R. S., Misra A., “Morphological studies on poly (butylene terephthalate)”, J. Polym. Sci., Polym. Phys. Ed., 1980, vol. 18, n° 2, p.327-342. [Sun 84]- Sun T., Perriera J., Porter R. S., “Crystallization kinetics for PET oriented by solidstate coextrusion”, J. Polym. Sci., Polym. Phys. Ed., 1984, vol. 22, p.1163-1171. T [Takayanagi 66]- Takayanagi M, Imada K. et Kajiyama T., “Mechanical properties and fine structure of drawn polymers”, J. Polym. Sci. Polym. Symp., 1966, vol. 15, p. 263-281. [Thistlethwaiste 88]- Thistlewaiste T., Jakeways R., Ward I.M., “The crystal modulus and structure of oriented PET”, Polymer, 1988, vol. 29, p.61-69. [Tokahashi 64]- Tokahashi H., et Alexander J.M., “Friction in the plane-strain compression test”, J. Inst. Met., 1964, vol. 90, p.72-79. [Treloar 60]- Treloar L.R.G., “Calculations of elastic moduli of polymer crystals : I Polyethylene and Nylon 66”, Polymer, 1960, vol. vol. 1, p.95-103. U [Urbanczyk 62]- Urbanczyk G.W., “Regarding the change of crystallinity and average crystallite size occurring at polycaprolactam filaments by the cold drawing process”, J. Polym. Sci., 1962, vol. 59, p.215-221. Références Bibliographiques 201 V [Van Antwerpen 72]- Van Antwerpen F. et Van Krevelen D.W., “Influence of cristallisation temperature molecular weight and additives on the cristallization kinetics of PET”, J. Polym. Sci., 1972, vol. 10, n° 12, p.2423-2435. [Vigier 92]- Vigier G., Tatibouet J., Benatmane A., Vassoille R., “Amorphous phase evolution during cristallization”, Colloid Polym. Sci., 1992, vol. 270, p.1182-1187. W [Ward 84]- Ward I.M., “The role of molecular networks and thermally activated processes in the deformation behaviour of polymers”, Polym. Eng. Sci.,1984, vol. 24, n° 10, p.724-735. [Watts 52]- Watts A.B. et Ford H., “An experimental investigation of the yielding of strip between smooth dies,. Proc. Instrum. Mech. Eng.,1952, vol. B1, p.448-453. [Williams 64]- Williams G.,“Stress-strain relationships for some reinforced plastics”, J. Mech. Eng. Sci., 1964, vol. 6, n° 4, p.405-417. [Williams 66]- Williams G.,“Effect of pressure on the dielectric β relaxation in PET”, Trans Farad Soc., 1966, vol. 64, p.1321-1328. [Woo 96]- Woo E.M., Ko T.Y., “A differential scanning calorimetry study on PET isothermally cristallized at a stepwise temperatures : multiple melting behaviour reinvestigated”, Colloid Polym. Sci., 1996, vol. 274, p.309-315. [Wunderlich 73]- Wunderlich B., “Macromolecular physico-crystal structure”, New-York, Academic press. Tom., 1973, 549p. X [Xiao 94]- Xiao C., Jho J.Y. et Yee A.F., “Correlation between the shear yielding behavior and secondary relaxations of bisphenol A-PC and related copolymers”, Macromolecules, 1994, vol. 27, p.2761-2768. 202 Référence Bibliographiques Y [Yeh 89]- Yeh J.T., Runt J., “Multiple melting in annealed poly (butylene terephthalate)”, J. Polym. Sci., Polym. Phys. Ed., 1989, vol. 27, p.1543-1550.