Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
Design and analysis of reconfigurable and deployable thin-walled architectural equipment inspired by Mirror-Miura origami patterns
https://orcid.org/0000-0001-5869-1105
https://orcid.org/0000-0003-0980-6732
Highlights Three reconfigurable Mirror-Miura origami (MMO) patterns are proposed by the Miura origami units. The kinematics of three reconfigurable Mirror-Miura origami patterns are analyzed through an equivalent spherical 4R mechanism. The different reconfigurable origami mechanisms are realized by using three different MMO patterns, which are developed in the form of an open-stacked array and a closed-stacked array. The origami models of thick panels with three different MMO patterns are proposed to establish the deployable and reconfigurable architecture prototype with various shapes, which have been validated by experiments. A reconfigurable square architecture filled by polyurethane foam caulk is selected to develop a closed-loop castle prototype. The proposed reconfigurable thin-walled architectural equipment designs with the MMO origami pattern are light-weight and high-bearing, which is promising for the building engineering to improve the construction speed to some extents.
Abstract In this paper, three reconfigurable Mirror-Miura origami (MMO) patterns are designed by the Miura origami units. The kinematics of three reconfigurable Mirror-Miura origami patterns are analyzed through an equivalent spherical 4R mechanism. On this base, different reconfigurable origami mechanisms are realized by using three different MMO patterns, which are developed in the form of an open-stacked array and a closed-stacked array. The physical properties (Equivalent volume and relative density) and mechanical properties (In-plane and out-plane Poisson's ratios) of the reconfigurable origami mechanisms are analyzed in this paper. Besides, the origami model of thick panels with three different MMO patterns is proposed to establish the deployable and reconfigurable architecture prototype with various shapes, which have been validated by experiments. Based on the MMO pattern, a reconfigurable square architecture filled with polyurethane foam caulk is selected to develop a closed-loop castle prototype. The load capacity of the closed-loop castle prototype with MMO patterns is tested, which indicates that the 1.7Kg filled square closed-loop architecture can suffer from the 94Kg weights in the longitudinal direction of the single closed-loop architecture, and the 8.5Kg weights in the side direction at least. Therefore, the proposed reconfigurable thin-walled architectural equipment designs with the MMO origami pattern have the characteristic of light-weight and high-bearing, which is promising for building engineering to improve the construction speed to some extent.
Design and analysis of reconfigurable and deployable thin-walled architectural equipment inspired by Mirror-Miura origami patterns
https://orcid.org/0000-0001-5869-1105
https://orcid.org/0000-0003-0980-6732
Highlights Three reconfigurable Mirror-Miura origami (MMO) patterns are proposed by the Miura origami units. The kinematics of three reconfigurable Mirror-Miura origami patterns are analyzed through an equivalent spherical 4R mechanism. The different reconfigurable origami mechanisms are realized by using three different MMO patterns, which are developed in the form of an open-stacked array and a closed-stacked array. The origami models of thick panels with three different MMO patterns are proposed to establish the deployable and reconfigurable architecture prototype with various shapes, which have been validated by experiments. A reconfigurable square architecture filled by polyurethane foam caulk is selected to develop a closed-loop castle prototype. The proposed reconfigurable thin-walled architectural equipment designs with the MMO origami pattern are light-weight and high-bearing, which is promising for the building engineering to improve the construction speed to some extents.
Abstract In this paper, three reconfigurable Mirror-Miura origami (MMO) patterns are designed by the Miura origami units. The kinematics of three reconfigurable Mirror-Miura origami patterns are analyzed through an equivalent spherical 4R mechanism. On this base, different reconfigurable origami mechanisms are realized by using three different MMO patterns, which are developed in the form of an open-stacked array and a closed-stacked array. The physical properties (Equivalent volume and relative density) and mechanical properties (In-plane and out-plane Poisson's ratios) of the reconfigurable origami mechanisms are analyzed in this paper. Besides, the origami model of thick panels with three different MMO patterns is proposed to establish the deployable and reconfigurable architecture prototype with various shapes, which have been validated by experiments. Based on the MMO pattern, a reconfigurable square architecture filled with polyurethane foam caulk is selected to develop a closed-loop castle prototype. The load capacity of the closed-loop castle prototype with MMO patterns is tested, which indicates that the 1.7Kg filled square closed-loop architecture can suffer from the 94Kg weights in the longitudinal direction of the single closed-loop architecture, and the 8.5Kg weights in the side direction at least. Therefore, the proposed reconfigurable thin-walled architectural equipment designs with the MMO origami pattern have the characteristic of light-weight and high-bearing, which is promising for building engineering to improve the construction speed to some extent.
Design and analysis of reconfigurable and deployable thin-walled architectural equipment inspired by Mirror-Miura origami patterns
https://orcid.org/0000-0001-5869-1105
https://orcid.org/0000-0003-0980-6732
Highlights Three reconfigurable Mirror-Miura origami (MMO) patterns are proposed by the Miura origami units. The kinematics of three reconfigurable Mirror-Miura origami patterns are analyzed through an equivalent spherical 4R mechanism. The different reconfigurable origami mechanisms are realized by using three different MMO patterns, which are developed in the form of an open-stacked array and a closed-stacked array. The origami models of thick panels with three different MMO patterns are proposed to establish the deployable and reconfigurable architecture prototype with various shapes, which have been validated by experiments. A reconfigurable square architecture filled by polyurethane foam caulk is selected to develop a closed-loop castle prototype. The proposed reconfigurable thin-walled architectural equipment designs with the MMO origami pattern are light-weight and high-bearing, which is promising for the building engineering to improve the construction speed to some extents.
Abstract In this paper, three reconfigurable Mirror-Miura origami (MMO) patterns are designed by the Miura origami units. The kinematics of three reconfigurable Mirror-Miura origami patterns are analyzed through an equivalent spherical 4R mechanism. On this base, different reconfigurable origami mechanisms are realized by using three different MMO patterns, which are developed in the form of an open-stacked array and a closed-stacked array. The physical properties (Equivalent volume and relative density) and mechanical properties (In-plane and out-plane Poisson's ratios) of the reconfigurable origami mechanisms are analyzed in this paper. Besides, the origami model of thick panels with three different MMO patterns is proposed to establish the deployable and reconfigurable architecture prototype with various shapes, which have been validated by experiments. Based on the MMO pattern, a reconfigurable square architecture filled with polyurethane foam caulk is selected to develop a closed-loop castle prototype. The load capacity of the closed-loop castle prototype with MMO patterns is tested, which indicates that the 1.7Kg filled square closed-loop architecture can suffer from the 94Kg weights in the longitudinal direction of the single closed-loop architecture, and the 8.5Kg weights in the side direction at least. Therefore, the proposed reconfigurable thin-walled architectural equipment designs with the MMO origami pattern have the characteristic of light-weight and high-bearing, which is promising for building engineering to improve the construction speed to some extent.
Design and analysis of reconfigurable and deployable thin-walled architectural equipment inspired by Mirror-Miura origami patterns
Liu, Bei (Autor:in) / Liao, Yemin (Autor:in) / Yang, Yawen (Autor:in) / Yang, ChunYu (Autor:in) / Tian, Yuxin (Autor:in) / Yin, Haibin (Autor:in)
Engineering Structures ; 286
25.03.2023
Aufsatz (Zeitschrift)
Elektronische Ressource
Englisch