1-20 of 8031
Follow your search
Access your saved searches in your account

Would you like to receive an alert when new items match your search?
Close Modal
Sort by
Journal Articles
Journal Articles
Image
The mainstream research fields and topics of origami: ( a ) the main resear...
Published Online: December 23, 2024
Fig. 1 The mainstream research fields and topics of origami: ( a ) the main research field of origami in recent years, ( b ) research topics on origami systems retrieved from the Web of Science from 2018 to 2023, and ( c ) numerous articles were published in several top journals from 2018 to 2023 More about this image found in The mainstream research fields and topics of origami: ( a ) the main resear...
Image
Geometric definitions of origami: ( a ) single vertex Miura-ori crease patt...
Published Online: December 23, 2024
Fig. 2 Geometric definitions of origami: ( a ) single vertex Miura-ori crease pattern, ( b ) rigidly foldable origami (Reproduced with permission from Ref. [ 102 ]. Copyright 2020 by ASME), ( c ) flat-foldable origami, and ( d ) developable and nondevelopable origami (Adapted with permission from ... More about this image found in Geometric definitions of origami: ( a ) single vertex Miura-ori crease patt...
Image
Classical origami patterns and corresponding tessellation/stacked structure...
Published Online: December 23, 2024
Fig. 3 Classical origami patterns and corresponding tessellation/stacked structures: ( a ) Miura-ori pattern, ( b ) Tachi–Miura and stacked Miura structures, ( c ) waterbomb origami patterns, ( d ) waterbomb tube (Adapted with permission from Ref. [ 82 ]. Copyright 2020 by Elsevier), ( e ) Kreslin... More about this image found in Classical origami patterns and corresponding tessellation/stacked structure...
Image
Equivalent mechanical model for origami: ( a ) bar-and-hinge model for the ...
Published Online: December 23, 2024
Fig. 4 Equivalent mechanical model for origami: ( a ) bar-and-hinge model for the rigidly foldable and nonrigidly foldable origami, ( b ) the particle-bar-spring model is combined with the finite particle method for Miura-ori, ( c ) the energy conversion of the Miura-ori tessellated foldable struc... More about this image found in Equivalent mechanical model for origami: ( a ) bar-and-hinge model for the ...
Image
Truss model for Kresling origami: ( a ) bar-and-hinge model for the Kreslin...
Published Online: December 23, 2024
Fig. 5 Truss model for Kresling origami: ( a ) bar-and-hinge model for the Kresling origami [ 9 ], ( b ) strain energy landscapes along minimum energy deployment paths for Kresling modules with varying stress-free orientations δ 0 (Figs. 5( a ) and 5( b ) are adapted with permission from Re... More about this image found in Truss model for Kresling origami: ( a ) bar-and-hinge model for the Kreslin...
Image
Tunable stiffness of the Miura-ori: ( a ) origami-inspired metamaterials ca...
Published Online: December 23, 2024
Fig. 6 Tunable stiffness of the Miura-ori: ( a ) origami-inspired metamaterials can alter their stiffness (Reproduced with permission from Ref. [ 150 ]. Copyright 2020, The Authors, some rights reserved; exclusive licensee American Association for the Advancement of Science), ( b ) origami-inspire... More about this image found in Tunable stiffness of the Miura-ori: ( a ) origami-inspired metamaterials ca...
Image
Tunable stiffness of Kresling origami. ( a ) Coupled Kresling modular origa...
Published Online: December 23, 2024
Fig. 7 Tunable stiffness of Kresling origami. ( a ) Coupled Kresling modular origami-inspired structure, and ( b )tunable stiffness of coupled Kresling modular structure by tuning the initial geometrical parameters (Figs. 7( a ) and 7( b ) are adapted with permission from Ref. [ 153 ]. Copyrig... More about this image found in Tunable stiffness of Kresling origami. ( a ) Coupled Kresling modular origa...
Image
Bistable origami: ( a ) bistable states of the Miura-ori, ( b ) bistable st...
Published Online: December 23, 2024
Fig. 8 Bistable origami: ( a ) bistable states of the Miura-ori, ( b ) bistable states of the waterbomb origami, ( c )bistable states of the Kresling origami, ( d ) multistable waterbomb origami structures, and ( e ) multistable Kresling origami structures (Figs. 8( a ) – 8( e ) are reproduced w... More about this image found in Bistable origami: ( a ) bistable states of the Miura-ori, ( b ) bistable st...
Image
Multistable properties of the Miura-ori. ( a ) Stacked Miura-ori unit, ( b ...
Published Online: December 23, 2024
Fig. 9 Multistable properties of the Miura-ori. ( a ) Stacked Miura-ori unit, ( b ) nested-in (up) and bulged-out (below) configuration, and ( c ) three-dimensional expansion ability (Figs. 9( a ) – 9( c ) are adapted with permission from Ref. [ 158 ]. Copyright 2017, The Authors, published by t... More about this image found in Multistable properties of the Miura-ori. ( a ) Stacked Miura-ori unit, ( b ...
Image
Multistable properties of the waterbomb origami: ( a ) multimode, multidire...
Published Online: December 23, 2024
Fig. 10 Multistable properties of the waterbomb origami: ( a ) multimode, multidirectional waterbomb-based origami grippers (Adapted with permission from Ref. [ 163 ]. Copyright 2022, The Authors, published by the Royal Society), ( b )vertex height corresponds to changes in loading force under dif... More about this image found in Multistable properties of the waterbomb origami: ( a ) multimode, multidire...
Image
Multistable properties of the Kresling origami: ( a ) deformation modes of ...
Published Online: December 23, 2024
Fig. 11 Multistable properties of the Kresling origami: ( a ) deformation modes of the structures (Adapted with permission from Ref. [ 166 ]. Copyright 2022 by Wiley‐VCH GmbH), ( b ) three stable states of the Kresling origami (Reproduced with permission from Ref. [ 91 ]. Copyright 2023 by Elsevie... More about this image found in Multistable properties of the Kresling origami: ( a ) deformation modes of ...
Image
Bistable and multistable properties of the other origami. ( a ) Two stable ...
Published Online: December 23, 2024
Fig. 12 Bistable and multistable properties of the other origami. ( a ) Two stable states of the hyperbolic paraboloid origami, and ( b ) unique stable states of the hyperbolic paraboloid origami structure (Figs. 12( a ) and 12( b ) are adapted with permission from Ref. [ 169 ]. Copyright 2019... More about this image found in Bistable and multistable properties of the other origami. ( a ) Two stable ...
Image
OTFMs based on Miura-ori: ( a ) negative Poisson's ratio for in-plane defor...
Published Online: December 23, 2024
Fig. 13 OTFMs based on Miura-ori: ( a ) negative Poisson's ratio for in-plane deformations of Miura OTFMs (Adapted with permission from Ref. [ 121 ]. Copyright 2013, The Authors, published by National Academy of Sciences), ( b ) the in-plane expansion coefficient of the Miura OTFMs (Reproduced wit... More about this image found in OTFMs based on Miura-ori: ( a ) negative Poisson's ratio for in-plane defor...
Image
OTFMs based on Ron Resch origami. ( a ) Ron Resch origami patterns (Adapted...
Published Online: December 23, 2024
Fig. 14 OTFMs based on Ron Resch origami. ( a ) Ron Resch origami patterns (Adapted with permission from Ref. [ 190 ]. Copyright 2013 by ASME). ( b ) Normalized axial compressive force versus axial strain for the Ron Resch origami tubular foldable metamaterials, and ( c ) load-bearing capability o... More about this image found in OTFMs based on Ron Resch origami. ( a ) Ron Resch origami patterns (Adapted...
Image
Miura origami-inspired metamaterials stacked in a crease-to-crease manner: ...
Published Online: December 23, 2024
Fig. 15 Miura origami-inspired metamaterials stacked in a crease-to-crease manner: ( a ) straight crease Miura origami-inspired stacked metamaterial (Adapted with permission from Ref. [ 121 ]. Copyright 2013, The Authors, published by National Academy of Sciences), ( b ) curved-crease Miura origam... More about this image found in Miura origami-inspired metamaterials stacked in a crease-to-crease manner: ...
Image
Miura origami-inspired metamaterials stacked in a facet-to-facet manner: ( ...
Published Online: December 23, 2024
Fig. 16 Miura origami-inspired metamaterials stacked in a facet-to-facet manner: ( a ) 3D stacked metamaterial with multidirectional expansion (Adapted with permission from Ref. [ 205 ]. Copyright 2020 by Elsevier), ( b ) Wohlhart polyhedron structure (Adapted with permission from Ref. [ 206 ]. Co... More about this image found in Miura origami-inspired metamaterials stacked in a facet-to-facet manner: ( ...
Image
OTuFMs based on Yoshimura and Kresling origami. ( a ) Completed patterned s...
Published Online: December 23, 2024
Fig. 17 OTuFMs based on Yoshimura and Kresling origami. ( a ) Completed patterned square tube after welding (Reproduced with permission from Ref. [ 208 ]. Copyright 2012 by Elsevier). ( b ) Full diamond Yoshimura origami tube prototype (Adapted with permission from Ref. [ 209 ]. Copyright 2016 by ... More about this image found in OTuFMs based on Yoshimura and Kresling origami. ( a ) Completed patterned s...
Image
Magnetically driven origami crawling robot: ( a ) prototype, ( b ) magnetic...
Published Online: December 23, 2024
Fig. 18 Magnetically driven origami crawling robot: ( a ) prototype, ( b ) magnetic driving navigation of the Kresling crawler, ( c ) Z-shaped motion and O-shaped motion, and ( d ) overcome large resistances in closed spaces (Figs. 18( a ) – 18( d ) are adapted with permission from Ref. [ 36 ]. ... More about this image found in Magnetically driven origami crawling robot: ( a ) prototype, ( b ) magnetic...