A finite deformation thermomechanical constitutive model for triple shape polymeric composites based on dual thermal transitions

International Journal of Solids and Structures

Volumn 51, Issue 15-16, 2014, Pages 2777-2790

  Ge, Qi ^a   Luo, Xiaofan ^b,c   Iversen, Christian B ^b,c   Nejad, Hossein Birjandi ^b,c   Mather, Patrick T ^b,c   Dunn, Martin L ^a   Jerry Qi, H ^a  

^a UCB 450   (United States)

^b SYRACUSE UNIVERSITY   (United States)

^c Syracuse University   (United States)

Author keywords

Multi shape memory polymers; Polymeric composite; Thermomechanical constitutive model; Triple shape memory effects

Indexed keywords

CONSTITUTIVE MODELS; EXPERIMENTS; GLASS TRANSITION; INDUSTRY; MATERIALS PROPERTIES; POLYMERS; RECOVERY; REINFORCED PLASTICS; SHAPE MEMORY EFFECT; STRESS CONCENTRATION; TEMPERATURE; TESTING;

DEFORMATION CONDITIONS; MEMORY EFFECTS; MULTI SHAPES; POLYMERIC COMPOSITES; SHAPE MEMORY BEHAVIOR; STRESS RELAXATION TESTS; THERMO-MECHANICAL CONSTITUTIVE MODEL; USER MATERIAL SUBROUTINE;

POLYMER MATRIX COMPOSITES;

EID: 84901588161     PISSN: 00207683     EISSN: None     Source Type: Journal    
DOI: 10.1016/j.ijsolstr.2014.03.029     Document Type: Article

References (69)

1. N.M. Ames, V. Srivastava, S.A. Chester, and L. Arland A thermo-mechanically coupled theory for large deformations of amorphous polymers. Part II: applications Int. J. Plast. 25 2009 1495 1539
2. L. Anand, N.M. Ames, V. Srivastava, and S.A. Chester A thermo-mechanically coupled theory for large deformations of amorphous polymers. Part I: formulation Int. J. Plast. 25 2009 1474 1494
3. E.M. Arruda, and M.C. Boyce A three-dimensional constitutive model for the large stretch behavior of rubber elastic materials J. Mech. Phys. Solids 41 1993 389 412
4. M. Avrami Kinetics of phase change I - general theory J. Chem. Phys. 7 1939 1103 1112
5. M. Avrami Kinetics of phase change II - transformation-time relations for random distribution of nuclei J. Chem. Phys. 8 1940 212 224
6. M. Avrami Granulation, phase change, and microstructure - kinetics of phase change. III J. Chem. Phys. 9 1941 177 184
7. G. Barot, and I.J. Rao Constitutive modeling of the mechanics associated with crystallizable shape memory polymers Z. Angew. Math. Phys. 57 2006 652 681
8. I. Bellin, S. Kelch, R. Langer, and A. Lendlein Polymeric triple-shape materials Proc. Nat. Acad. Sci. USA 103 2006 18043 18047
9. I. Bellin, S. Kelch, and A. Lendlein Dual-shape properties of triple-shape polymer networks with crystallizable network segments and grafted side chains J. Mater. Chem. 17 2007 2885 2891
10. Y. Benveniste A new approach to the application of Mori-Tanaka theory in composite-materials Mech. Mater. 6 1987 147 157
11. M.C. Boyce, D.M. Parks, and A.S. Argon Computational modeling of large strain plastic-deformation in glassy-polymers Abstract Pap. Am. Chem. Soc. 196 1988 156-POLY
12. P.P. Castaneda The effective mechanical-properties of nonlinear isotropic composites J. Mech. Phys. Solids 39 1991 45 71
13. K.A. Davis, K.A. Burke, P.T. Mather, and J.H. Henderson Dynamic cell behavior on shape memory polymer substrates Biomaterials 32 2011 2285 2293
14. J. Diani, Y.P. Liu, and K. Gall Finite strain 3D thermoviscoelastic constitutive model for shape memory polymers Polym. Eng. Sci. 46 2006 486 492
15. M.L. Dunn One-dimensional composite micromechanics Int. J. Mech. Eng. Educ. 26 1997 38 50
16. J.D. Ferry Viscoelastic Properties of Polymers third ed. 1980 Wiley New York
17. P.J. Flory Principles of Polymer Chemistry 1953 Cornell University Press Ithaca
18. Q. Ge, X.F. Luo, E.D. Rodriguez, X. Zhang, P.T. Mather, M.L. Dunn, and H.J. Qi Thermomechanical behavior of shape memory elastomeric composites J. Mech. Phys. Solids 60 2012 67 83
19. Q. Ge, X.F. Luo, C.B. Iverson, P.T. Mather, M.L. Dunn, and H.J. Qi Mechanisms of triple-shape polymeric composites due to dual thermal transitions Soft Matter 7 2013 2212 2223
20. A.N. Gent A new constitutive relation for rubber Rubber Chem. Technol. 69 1996 59 61
21. J. Hermiller, D.U. Ahn, F. Castro, K.K. Westbrook, Y.F. Ding, and H.J. Qi Time and temperature dependent recovery of epoxy-based shape memory polymers J. Eng. Mater. -T. ASME 133 2011 021025
22. W.M. Huang, B. Yang, L. An, C. Li, and Y.S. Chan Water-driven programmable polyurethane shape memory polymer: demonstration and mechanism Appl. Phys. Lett. 86 2005 114105
23. J.M. Hutchinson Physical aging of polymers Prog. Polym. Sci. 20 1995 703 760
24. H.Y. Jiang, S. Kelch, and A. Lendlein Polymers move in response to light Adv. Mater. 18 2006 1471 1475
25. H. Koerner, G. Price, N.A. Pearce, M. Alexander, and R.A. Vaia Remotely actuated polymer nanocomposites - stress-recovery of carbon-nanotube-filled thermoplastic elastomers Nat. Mater. 3 2004 115 120
26. A.J. Kovacs, J.J. Aklonis, J.M. Hutchinson, and A.R. Ramos Isobaric volume and enthalpy recovery of glasses. 2. Transparent multi-parameter theory J. Polym. Sci. Polym. Phys. 17 1979 1097 1162
27. A. Lendlein, and S. Kelch Shape-memory polymers Angew. Chem. Int. Ed. Engl. 41 2002 2035 2057
28. A. Lendlein, and S. Kelch Shape-memory polymers as stimuli-sensitive implant materials Clin. Hemorheol. Microcirculation 32 2005 105 116
29. A. Lendlein, H.Y. Jiang, O. Junger, and R. Langer Light-induced shape-memory polymers Nature 434 2005 879 882
30. M.H. Li, P. Keller, B. Li, X.G. Wang, and M. Brunet Light-driven side-on nematic elastomer actuators Adv. Mater. 15 2003 569 572
31. Y.P. Liu, K. Gall, M.L. Dunn, and P. McCluskey Thermomechanics of shape memory polymer nanocomposites Mech. Mater. 36 2004 929 940
32. Y.P. Liu, K. Gall, M.L. Dunn, A.R. Greenberg, and J. Diani Thermomechanics of shape memory polymers: uniaxial experiments and constitutive modeling Int. J. Plast. 22 2006 279 313
33. C. Liu, H. Qin, and P.T. Mather Review of progress in shape-memory polymers J. Mater. Chem. 17 2007 1543 1558
34. K.N. Long, T.F. Scott, H.J. Qi, C.N. Bowman, and M.L. Dunn Photomechanics of light-activated polymers J. Mech. Phys. Solids 57 2009 1103 1121
35. K.N. Long, M.L. Dunn, and H.J. Qi Mechanics of soft active materials with phase evolution Int. J. Plast. 26 2010 603 616
36. K.N. Long, M.L. Dunn, T.F. Scott, L.P. Turpin, and H.J. Qi Light-induced stress relief to improve flaw tolerance in network polymers J. Appl. Phys. 107 2010 053519
37. K.N. Long, T.F. Scott, M.L. Dunn, and H.J. Qi Photo-induced deformation of active polymer films: single spot irradiation Int. J. Solids Struct. 48 2011 2089 2101
38. R. Long, H.J. Qi, and M.L. Dunn Thermodynamics and mechanics of photochemcially reacting polymers J. Mech. Phys. Solids 61 2013 2212 2239
39. X.F. Luo, and P.T. Mather Preparation and characterization of shape memory elastomeric composites Macromolecules 42 2009 7251 7253
40. X.F. Luo, and P.T. Mather Triple-shape polymeric composites (TSPCs) Adv. Funct. Mater. 20 2010 2649 2656
41. P.T. Mather, X.F. Luo, and I.A. Rousseau Shape memory polymer research Annu. Rev. Mater. Res. 39 2009 445 471
42. G.B. McKenna Glass formation and glassy behavior C. Booth, C. Price, Comprehensive Polymer Science 1989 Pergamon Press Oxford 311 362
43. R. Mohr, K. Kratz, T. Weigel, M. Lucka-Gabor, M. Moneke, and A. Lendlein Initiation of shape-memory effect by inductive heating of magnetic nanoparticles in thermoplastic polymers Proc. Natl. Acad. Sci. USA 103 2006 3540 3545
44. M. Mooney A theory of large elastic deformation J. Appl. Phys. 11 1940 582 592
45. C.T. Moynihan, A.J. Easteal, M.A. Debolt, and J. Tucker Dependence of fictive temperature of glass on cooling rate J. Am. Ceram. Soc. 59 1976 12 16
46. T.D. Nguyen, H.J. Qi, F. Castro, and K.N. Long A thermoviscoelastic model for amorphous shape memory polymers: incorporating structural and stress relaxation J. Mech. Phys. Solids 56 2008 2792 2814
47. P.A. O'Connell, and G.B. McKenna Arrhenius-type temperature dependence of the segmental relaxation below T-g J. Chem. Phys. 110 1999 11054 11060
48. T. Ozawa Kinetics of non-isothermal crystallization Polymer 12 1971 150-&
49. H.J. Qi, T.D. Nguyen, F. Castro, C.M. Yakacki, and R. Shandas Finite deformation thermo-mechanical behavior of thermally induced shape memory polymers J. Mech. Phys. Solids 56 2008 1730 1751
50. K.R. Rajagopal, and A.R. Srinivasa Mechanics of the inelastic behavior of materials - Part 1, theoretical underpinnings Int. J. Plast. 14 1998 945 967
51. K.R. Rajagopal, and A.R. Srinivasa Mechanics of the inelastic behavior of materials. Part II: inelastic response Int. J. Plast. 14 1998 969 995
52. R.S. Rivlin Large elastic deformations of isotropic materials. IV. Further developments of the general theory Philos. Trans. R. Soc. London. Ser. A Math. Phys. Sci. 241 1948 379 397
53. R.E. Robertson, R. Simha, and J.G. Curro Free-volume and the kinetics of aging of polymer glasses Macromolecules 17 1984 911 919
54. J. Ryu, M. D'Amato, X.D. Cui, K.N. Long, H.J. Qi, and M.L. Dunn Photo-origami-bending and folding polymers with light Appl. Phys. Lett. 100 2012 161908
55. T.F. Scott, A.D. Schneider, W.D. Cook, and C.N. Bowman Photoinduced plasticity in cross-linked polymers Science 308 2005 1615 1617
56. T.F. Scott, R.B. Draughon, and C.N. Bowman Actuation in crosslinked polymers via photoinduced stress relaxation Adv. Mater. 18 2006 2128 2132
57. V. Srivastava, S.A. Chester, N.M. Ames, and L. Anand A thermo-mechanically-coupled large-deformation theory for amorphous polymers in a temperature range which spans their glass transition Int. J. Plast. 26 2010 1138 1182
58. V. Srivastava, S.A. Chester, and L. Anand Thermally actuated shape-memory polymers: experiments, theory, and numerical simulations J. Mech. Phys. Solids 58 2010 1100 1124
59. H. Tobushi, H. Hara, E. Yamada, and S. Hayashi Thermomechanical properties in a thin film of shape memory polymer of polyurethane series Smart Mater. Struct. 5 1996 483 491
60. H. Tobushi, S. Hayashi, A. Ikai, and H. Hara Thermomechanical properties of shape memory polymers of polyurethane series and their applications J. Phys. Iv. 6 1996 377 384
61. Z. Wang, C. Hansen, Q. Ge, S.H. Maruf, D.U. Ahn, H.J. Qi, and Y.F. Ding Programmable, pattern-memorizing polymer surface Adv. Mater. 23 2011 3669-+
62. K.K. Westbrook, F. Castro, K.N. Long, A.J. Slifka, and H.J. Qi Improved testing system for thermomechanical experiments on polymers using uniaxial compression equipment Polym. Testing 29 2010 503 512
63. K.K. Westbrook, V. Parakh, T. Chung, P.T. Mather, L.C. Wan, M.L. Dunn, and H.J. Qi Constitutive modeling of shape memory effects in semicrystalline polymers with stretch induced crystallization J. Eng. Mater.-T. ASME 132 2010 041010.041011-041019
64. K.K. Westbrook, P.H. Kao, F. Castro, Y.F. Ding, and H.J. Qi A 3D finite deformation constitutive model for amorphous shape memory polymers: a multi-branch modeling approach for nonequilibrium relaxation processes Mech. Mater. 43 2011 853 869
65. K.K. Westbrook, P.T. Mather, V. Parakh, M.L. Dunn, Q. Ge, B.M. Lee, and H.J. Qi Two-way reversible shape memory effects in a free-standing polymer composite Smart Mater. Struct. 20 2011
66. T. Xie Tunable polymer multi-shape memory effect Nature 464 2010 267 270
67. T. Xie Recent advances in polymer shape memory Polymer 52 2011 4985 5000
68. T. Xie, X.C. Xiao, and Y.T. Cheng Revealing triple-shape memory effect by polymer bilayers Macromol. Rapid Commun. 30 2009 1823 1827
69. C.M. Yakacki, R. Shandas, C. Lanning, B. Rech, A. Eckstein, and K. Gall Unconstrained recovery characterization of shape-memory polymer networks for cardiovascular applications Biomaterials 28 2007 2255 2263