Origami-inspired active structures: a synthesis and review

Origami, the ancient art of paper folding, has inspired the design of engineering devices and structures for decades. The underlying principles of origami are very general, which has led to applications ranging from cardboard containers to deployable space structures. More recently, researchers have...

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Published in	Smart materials and structures Vol. 23; no. 9; pp. 94001 - 28
Main Authors	Peraza-Hernandez, Edwin A, Hartl, Darren J, Malak Jr, Richard J, Lagoudas, Dimitris C
Format	Journal Article
Language	English
Published	Bristol IOP Publishing 01.09.2014 Institute of Physics
Subjects	active materials design Design engineering Devices Energy of formation Exact sciences and technology Folding General equipment and techniques Instruments, apparatus, components and techniques common to several branches of physics and astronomy morphing structures origami origami engineering Physics review Servo and control equipment; robots Smart materials and structures smart structures Space environment Spacecraft State of the art Transducers Actuators Variable geometry Hinge Active system Temperature effects Electric field effects Bending Self-assembled layers Performance Robotics
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Abstract	Origami, the ancient art of paper folding, has inspired the design of engineering devices and structures for decades. The underlying principles of origami are very general, which has led to applications ranging from cardboard containers to deployable space structures. More recently, researchers have become interested in the use of active materials (i.e., those that convert various forms of energy into mechanical work) to effect the desired folding behavior. When used in a suitable geometry, active materials allow engineers to create self-folding structures. Such structures are capable of performing folding and/or unfolding operations without being kinematically manipulated by external forces or moments. This is advantageous for many applications including space systems, underwater robotics, small scale devices, and self-assembling systems. This article is a survey and analysis of prior work on active self-folding structures as well as methods and tools available for the design of folding structures in general and self-folding structures in particular. The goal is to provide researchers and practitioners with a systematic view of the state-of-the-art in this important and evolving area. Unifying structural principles for active self-folding structures are identified and used as a basis for a quantitative and qualitative comparison of numerous classes of active materials. Design considerations specific to folded structures are examined, including the issues of crease pattern identification and fold kinematics. Although few tools have been created with active materials in mind, many of them are useful in the overall design process for active self-folding structures. Finally, the article concludes with a discussion of open questions for the field of origami-inspired engineering.
AbstractList	Origami, the ancient art of paper folding, has inspired the design of engineering devices and structures for decades. The underlying principles of origami are very general, which has led to applications ranging from cardboard containers to deployable space structures. More recently, researchers have become interested in the use of active materials (i.e., those that convert various forms of energy into mechanical work) to effect the desired folding behavior. When used in a suitable geometry, active materials allow engineers to create self-folding structures. Such structures are capable of performing folding and/or unfolding operations without being kinematically manipulated by external forces or moments. This is advantageous for many applications including space systems, underwater robotics, small scale devices, and self-assembling systems. This article is a survey and analysis of prior work on active self-folding structures as well as methods and tools available for the design of folding structures in general and self-folding structures in particular. The goal is to provide researchers and practitioners with a systematic view of the state-of-the-art in this important and evolving area. Unifying structural principles for active self-folding structures are identified and used as a basis for a quantitative and qualitative comparison of numerous classes of active materials. Design considerations specific to folded structures are examined, including the issues of crease pattern identification and fold kinematics. Although few tools have been created with active materials in mind, many of them are useful in the overall design process for active self-folding structures. Finally, the article concludes with a discussion of open questions for the field of origami-inspired engineering.
Author	Peraza-Hernandez, Edwin A Malak Jr, Richard J Lagoudas, Dimitris C Hartl, Darren J
Author_xml	– sequence: 1 givenname: Edwin A surname: Peraza-Hernandez fullname: Peraza-Hernandez, Edwin A organization: Department of Aerospace Engineering, Texas A&M University, College Station, TX 77843, USA – sequence: 2 givenname: Darren J surname: Hartl fullname: Hartl, Darren J email: darren.hartl@tamu.edu organization: Department of Aerospace Engineering, Texas A&M University, College Station, TX 77843, USA – sequence: 3 givenname: Richard J surname: Malak Jr fullname: Malak Jr, Richard J organization: Design Systems Laboratory, Department of Mechanical Engineering, Texas A&M University, College Station, TX 77843, USA – sequence: 4 givenname: Dimitris C surname: Lagoudas fullname: Lagoudas, Dimitris C organization: Department of Aerospace Engineering, Texas A&M University, College Station, TX 77843, USA
BackLink	http://pascal-francis.inist.fr/vibad/index.php?action=getRecordDetail&idt=28747898$$DView record in Pascal Francis
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Snippet	Origami, the ancient art of paper folding, has inspired the design of engineering devices and structures for decades. The underlying principles of origami are...
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SubjectTerms	active materials design Design engineering Devices Energy of formation Exact sciences and technology Folding General equipment and techniques Instruments, apparatus, components and techniques common to several branches of physics and astronomy morphing structures origami origami engineering Physics review Servo and control equipment; robots Smart materials and structures smart structures Space environment Spacecraft State of the art Transducers
Title	Origami-inspired active structures: a synthesis and review
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