Screw theoretic view on dynamics of spatially compliant beam

Ding, Xilun; Selig, J. M.

doi:10.1007/s10483-010-1351-9

Cited by 4 publications

(3 citation statements)

References 13 publications

(12 reference statements)

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“…Spiral shapes possess large stretchability attributed to the presence of multiple helical coils along the axial direction, which can distribute large deformation into small parts. [ 115 ] This structure can be well applied to materials with poor stretchability (such as metal electrodes) to achieve good bending properties and stretchability. [ 116 ] Zamarayeva et al.…”

Section: Spiral/helical Shapesmentioning

confidence: 99%

“…direction, which can distribute large deformation into small parts. [115] This structure can be well applied to materials with poor stretchability (such as metal electrodes) to achieve good bending properties and stretchability. [116] Zamarayeva et al [17] designed a flexible spiral structured Ag-Zn batteries composed of an electro-galvanizing anode, dip-coating polyvinyl alcohol (PVA) electrolyte, wrapping cellophane on prefabricated tin-coated copper spiral ribbon current collectors and silver cathode as shown in Figure 9a.…”

Section: Buckling Structurementioning

confidence: 99%

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Material Choice and Structure Design of Flexible Battery Electrode

et al. 2022

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With the development of flexible electronics, the demand for flexibility is gradually put forward for its energy supply device, i.e., battery, to fit complex curved surfaces with good fatigue resistance and safety. As an important component of flexible batteries, flexible electrodes play a key role in the energy density, power density, and mechanical flexibility of batteries. Their large‐scale commercial applications depend on the fulfillment of the commercial requirements and the fabrication methods of electrode materials. In this paper, the deformable electrode materials and structural design for flexible batteries are summarized, with the purpose of flexibility. The advantages and disadvantages of the application of various flexible materials (carbon nanotubes, graphene, MXene, carbon fiber/carbon fiber cloth, and conducting polymers) and flexible structures (buckling structure, helical structure, and kirigami structure) in flexible battery electrodes are discussed. In addition, the application scenarios of flexible batteries and the main challenges and future development of flexible electrode fabrication are also discussed, providing general guidance for the research of high‐performance flexible electrodes.

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Section: Spiral/helical Shapesmentioning

confidence: 99%

Section: Buckling Structurementioning

confidence: 99%

Material Choice and Structure Design of Flexible Battery Electrode

et al. 2022

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“…For flexible mechanisms, the degrees of freedom and constraints are determined by the flexibility matrix. e cantilever beam flexibility matrix is as follows [14]:…”

Section: Soft Actuator Deformation Mechanismmentioning

confidence: 99%

Application and Analysis of an Ionic Liquid Gel in a Soft Robot

Zhang

Wang

et al. 2019

Advances in Materials Science and Engineering

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Due to their light weight, flexibility, and low energy consumption, ionic electroactive polymers have become a hotspot for bionic soft robotics and are ideal materials for the preparation of soft actuators. Because the traditional ionic electroactive polymers, such as ionic polymer-metal composites (IPMCs), contain water ions, a soft actuator does not work properly upon the evaporation of water ions. An ionic liquid polymer gel is a new type of ionic electroactive polymer that does not contain water ions, and ionic liquids are more thermally and electrochemically stable than water. These liquids, with a low melting point and a high ionic conductivity, can be used in ionic electroactive polymer soft actuators. An ionic liquid gel (ILG), a new type of soft actuator material, was obtained by mixing 1-butyl-3-methylimidazolium tetrafluoroborate (BMIMBF4), hydroxyethyl methacrylate (HEMA), diethoxyacetophenone (DEAP) and ZrO2 and then polymerizing this mixture into a gel state under ultraviolet (UV) light irradiation. An ILG soft actuator was designed, the material preparation principle was expounded, and the design method of the soft robot mechanism was discussed. Based on nonlinear finite element theory, the deformation mechanism of the ILG actuator was deeply analyzed and the deformation of the soft robot when grabbing an object was also analyzed. A soft robot was designed with the soft actuator as the basic module. The experimental results show that the ILG soft robot has good driving performance, and the soft robot can grab a 105 mg object at an input voltage of 3.5 V.

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Modal Analysis of a 2R Flexible Platform Using Screw Theory

Pucheta

Gallardo

2023

Proceedings of the XV Ibero-American Congress of Mechanical Engineering

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Compliant mechanisms perform precision movements generated by the elastic deformation of their flexible elements. For most applications, resonance frequencies must be bounded by a defined range of values. Therefore, a modal analysis of the mechanisms is required at the initial stage of design. In this work, a novel flexible platform with 2 degrees of rotational freedom restricted by beam-type flexure elements is analyzed. The Screw Theory description of the movement of the mechanism is used for the rigid and the flexible elements. Using this formalism, the stiffness and mass matrices for a two-node beam element are derived and can be assembled using a standard finite-element-like procedure to perform the modal analysis of the mechanism. Starting from the desired movements, the mechanism is synthesized using screws and a hybrid (series/parallel) solution is proposed. The analytical results for the modal analysis obtained by Screw Theory are compared with the results of finite element analysis. Due to the computational efficiency, the analytical equations are chosen to be applied in the optimization of the designs.

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Screw theoretic view on dynamics of spatially compliant beam

Cited by 4 publications

References 13 publications

Material Choice and Structure Design of Flexible Battery Electrode

Material Choice and Structure Design of Flexible Battery Electrode

Application and Analysis of an Ionic Liquid Gel in a Soft Robot

Modal Analysis of a 2R Flexible Platform Using Screw Theory

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