Predicting origami-inspired programmable self-folding of hydrogel trilayers

Smart Materials and Structures

Volumn 25, Issue 11, 2016, Pages

  An, Ning ^a   Li, Meie ^a   Zhou, Jinxiong ^a  

^a XI'AN JIAOTONG UNIVERSITY   (China)

Author keywords

finite element method; hydrogel; origami; self folding; trilayer

Indexed keywords

HYDROGELS; MECHANICAL PROPERTIES;

COMPUTER MODELING; FINITE ELEMENT SIMULATIONS; FOLDING STRUCTURES; ORIGAMI; RECONFIGURABLE STRUCTURE; SELF-FOLDING; TEMPERATURE-SENSITIVE HYDROGELS; TRI LAYERS;

FINITE ELEMENT METHOD;

EID: 84994048639     PISSN: 09641726     EISSN: 1361665X     Source Type: Journal    
DOI: 10.1088/0964-1726/25/11/11LT02     Document Type: Article

References (42)

1. Rothemund P W K 2006 Folding DNA to create nanoscale shapes and patterns Nature 440 297-302
2. Han D, Pal S, Nangreave J, Deng Z, Liu Y and Yan H 2011 DNA origami with complex curvatures in three-dimensional space Science 332 342-6
3. Py C, Reverdy P, Doppler L, Bico J, Roman B and Baroud C N 2007 Capillary origami: spontaneous wrapping of a droplet with an elastic sheet Phys. Rev. Lett. 98 156103
4. Ebbesen T W and Hiura H 1995 Graphene in 3-dimensions: towards graphite origami Adv. Mater. 7 582-6
5. Blees M K, Barnard A W, Rose P A, Roberts S P, McGill K L, Huang P Y, Ruyack A R, Kevek J W, Kobrin B and Muller D A 2015 Graphene kirigami Nature 525 204-7
6. Hawkes E, An B, Benbernou N, Tanaka H, Kim S, Demaine E, Rus D and Wood R 2010 Programmable matter by folding Proc. Natl Acad. Sci. 107 12441-5
7. Schenk M and Guest S D 2013 Geometry of Miura-folded metamaterials Proc. Natl Acad. Sci. 110 3276-81
8. Silverberg J L, Evans A A, McLeod L, Hayward R C, Hull T, Santangelo C D and Cohen I 2014 Using origami design principles to fold reprogrammable mechanical metamaterials Science 345 647-50
9. Lv C, Krishnaraju D, Konjevod G, Yu H and Jiang H 2014 Origami based mechanical metamaterials Sci. Rep. 4 5979
10. Silverberg J L, Na J-H, Evans A A, Liu B, Hull T C, Santangelo C D, Lang R J, Hayward R C and Cohen I 2015 Origami structures with a critical transition to bistability arising from hidden degrees of freedom Nat. Mater. 14 389-93
11. Zirbel S A, Lang R J, Thomson M W, Sigel D A, Walkemeyer P E, Trease B P, Magleby S P and Howell L L 2013 Accommodating thickness in origami-based deployable arrays J. Mech. Des. 135 111005
12. Courtland R 2010 Origami solar sail set to fly New Sci. 206 10
13. Liyanage P and Mallikarachchi H 2013 Origami based folding patterns for compact deployable structures 4th Int. Conf. for Structural Engineering and Construction Management
14. Nishiyama Y 2012 Miura folding: applying origami to space exploration Int. J. Pure Appl. Math. 79 269-79
15. Song Z, Ma T, Tang R, Cheng Q, Wang X, Krishnaraju D, Panat R, Chan C K, Yu H and Jiang H 2014 Origami lithium-ion batteries Nat. Commun. 5 3140
16. Saito K, Agnese F and Scarpa F 2011 A cellular kirigami morphing wingbox concept J. Intell. Mater. Syst. Struct. 22 935-44
17. Dai J and Caldwell D 2010 Origami-based robotic paper-and-board packaging for food industry Trends Food Sci. Technol. 21 153-7
18. Onal C D, Wood R J and Rus D 2011 In towards printable robotics: origami-inspired planar fabrication of three-dimensional mechanisms 2011 IEEE Int. Conf. on Robotics and Automation (ICRA) (Piscataway, NJ: IEEE) pp 4608-13
19. Felton S, Tolley M, Demaine E, Rus D and Wood R 2014 A method for building self-folding machines Science 345 644-6
20. Ma J and You Z 2014 Energy absorption of thin-walled square tubes with a prefolded origami pattern: I. Geometry and numerical simulation J. Appl. Mech. 81 011003
21. Reis P M, Jiménez F L and Marthelot J 2015 Transforming architectures inspired by origami Proc. Natl Acad. Sci. 112 12234-5
22. Na J H, Evans A A, Bae J, Chiappelli M C, Santangelo C D, Lang R J, Hull T C and Hayward R C 2015 Programming reversibly self-folding origami with micropatterned photo-crosslinkable polymer trilayers Adv. Mater. 27 79-85
23. Peraza-Hernandez E A, Hartl D J, Malak R J Jr and Lagoudas D C 2014 Origami-inspired active structures: a synthesis and review Smart Mater. Struct. 23 094001
24. Guo W, Li M and Zhou J 2013 Modeling programmable deformation of self-folding all-polymer structures with temperature-sensitive hydrogels Smart Mater. Struct. 22 115028
25. An N, Li M and Zhou J 2015 Instability of liquid crystal elastomers Smart Mater. Struct. 25 015016
26. Gladman A S, Matsumoto E A, Nuzzo R G, Mahadevan L and Lewis J A 2016 Biomimetic 4D printing Nat. Mater. 15 413-8
27. Li X and Serpe M J 2014 Understanding and controlling the self-folding behavior of poly (N-Isopropylacrylamide) microgel-based devices Adv. Funct. Mater. 24 4119-26
28. Stoychev G, Turcaud S, Dunlop J W and Ionov L 2013 Hierarchical multi-step folding of polymer bilayers Adv. Funct. Mater. 23 2295-300
29. Ionov L 2011 Soft microorigami: self-folding polymer films Soft Matter 7 6786-91
30. Zheng W J, An N, Yang J H, Zhou J and Chen Y M 2015 Tough Al-alginate/Poly (N-isopropylacrylamide) Hydrogel with tunable LCST for soft robotics ACS Appl. Mater. Interfaces 7 1758-64
31. Lee D-Y, Kim J-S, Kim S-R, Koh J-S and Cho K-J 2013 In the deformable wheel robot using magic-ball origami structure ASME 2013 Int. Design Engineering Technical Conf. and Computers and Information in Engineering Conf. p V06BT07A040
32. Miyashita S, Meeker L, Tolley M T, Wood R J and Rus D 2014 Self-folding miniature elastic electric devices Smart Mater. Struct. 23 094005
33. Lang R J 1996 In a computational algorithm for origami design Proc. 12th Annual Symp. on Computational Geometry (New York: ACM) pp 98-105
34. Tachi T 2010 In geometric considerations for the design of rigid origami structures Proc. Int. Association for Shell and Spatial Structures (IASS) Symp. pp 458-60
35. Al-Mulla T and Buehler M J 2015 Origami: folding creases through bending Nat. Mater. 14 366-8
36. Chen Y, Peng R and You Z 2015 Origami of thick panels Science 349 396-400
37. Hong W, Zhao X, Zhou J and Suo Z 2008 A theory of coupled diffusion and large deformation in polymeric gels J. Mech. Phys. Solids 56 1779-93
38. Cai S and Suo Z 2011 Mechanics and chemical thermodynamics of phase transition in temperature-sensitive hydrogels J. Mech. Phys. Solids 59 2259-78
39. Zhou J, Hong W, Zhao X, Zhang Z and Suo Z 2008 Propagation of instability in dielectric elastomers Int. J. Solids Struct. 45 3739-50
40. Hong W, Liu Z and Suo Z 2009 Inhomogeneous swelling of a gel in equilibrium with a solvent and mechanical load Int. J. Solids Struct. 46 3282-9
41. Wei Z, Jia Z, Athas J, Wang C, Raghavan S R, Li T and Nie Z 2014 Hybrid hydrogel sheets that undergo pre-programmed shape transformations Soft Matter 10 8157-62
42. Felton S M, Tolley M T, Shin B, Onal C D, Demaine E D, Rus D and Wood R J 2013 Self-folding with shape memory composites Soft Matter 9 7688-94