Magneto-viscoelastic rod model for hard-magnetic soft rods under 3D large deformation: Theory and numerical implementation

•A magneto-viscoelastic rod theory of the HMS curved rod under 3D large deformation is presented.•The generalized Maxwell model under finite deformation is rationally incorporated into the geometrically exact rod theory.•The finite element formulation and corresponding implementation of the problem...

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Veröffentlicht in:International journal of solids and structures Jg. 305; S. 113101
Hauptverfasser: Li, Xin, Zhang, Dingcong, Guan, Jiashen, Liu, Ju, Yuan, Hongyan
Format: Journal Article
Sprache:Englisch
Veröffentlicht: Elsevier Ltd 01.12.2024
Schlagworte:
3D large deformation
Generalized Maxwell Model
Generalized-α method
Geometrically exact curved rod
Hard-magnetic soft (HMS) material
Viscoelasticity
Viscoelasticity
3D large deformation
Hard-magnetic soft (HMS) material
Generalized-α method
Generalized Maxwell Model
Geometrically exact curved rod
ISSN:0020-7683
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Zusammenfassung:•A magneto-viscoelastic rod theory of the HMS curved rod under 3D large deformation is presented.•The generalized Maxwell model under finite deformation is rationally incorporated into the geometrically exact rod theory.•The finite element formulation and corresponding implementation of the problem are obtained.•An extension of generalized-α method to the rotation group are presented.•five numerical examples including the 2D dynamic buckling and 3D dynamic problems are considered. The main purpose of this work is to develop a three-dimensional (3D) viscoelastic rod model for hard-magnetic soft (HMS) rods under large deformation which are widely used active structures in soft robotics. To do so, the Simo’s viscoelasticity theory has been rationally incorporated into the geometrically exact 3D curved rod model. The proposed model includes the deformation modes of axial tension, shear, bending, and torsion, which is applicable to the HMS rods with arbitrarily initial curved and twisted geometries under 3D large deformation. The viscoelastic constitutive equations of the HMS rod in the present formulation are formulated, which include the general relaxation functions. To obtain the expression for the magnetic load, the rotation-based magnetic free energy density is introduced, and the governing equations of the HMS rod with magnetic load and body force are presented. To obtain the numerical implementation, an implicit time integration algorithm that simply extends the generalized-α method for the rotation group, and the corresponding variational formulation and its linearization of the rod model are derived. To validate the model, five numerical examples, including 2D dynamic buckling, 3D static, and 3D dynamic problem are presented. The dynamic problems include the dynamic snap-through behavior of a bistable HMS arch and damped oscillation of a quarter arc cantilever under 3D deformation. The simulation results show good agreement with the results reported in the literature.
ISSN:0020-7683
DOI:10.1016/j.ijsolstr.2024.113101