A Bending-Torsion Theory for Thin and Ultrathin Rods as a [math]-Limit of Atomistic Models

Multiscale Modeling and Simulation Pub Date : 2023-12-06 DOI:10.1137/22m1517640
Bernd Schmidt, Jiří Zeman
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引用次数: 2

Abstract

Multiscale Modeling &Simulation, Volume 21, Issue 4, Page 1717-1745, December 2023.
Abstract. The purpose of this note is to establish two continuum theories for the bending and torsion of inextensible rods as [math]-limits of three-dimensional atomistic models. In our derivation we study simultaneous limits of vanishing rod thickness [math] and interatomic distance [math]. First, we set up a novel theory for ultrathin rods composed of finitely many atomic fibers ([math]), which incorporates surface energy and new discrete terms in the limiting functional. This can be thought of as a contribution to the mechanical modelling of nanowires. Second, we treat the case where [math] and recover a nonlinear rod model—the modern version of Kirchhoff’s rod theory.
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作为原子模型[数学]极限的细棒和超细棒弯曲-扭转理论
多尺度建模与仿真》,第 21 卷第 4 期,第 1717-1745 页,2023 年 12 月。 摘要本论文的目的是为不可伸展杆的弯曲和扭转建立两个连续理论,作为三维原子模型的[数学]极限。在推导过程中,我们同时研究了棒厚度[数学]和原子间距离[数学]的消失极限。首先,我们为由有限多原子纤维([math])组成的超细棒建立了一个新理论,它在极限函数中加入了表面能和新的离散项。这可以看作是对纳米线力学建模的贡献。其次,我们处理了[math]的情况,并恢复了非线性棒模型--基尔霍夫棒理论的现代版。
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Multiscale Modeling and Simulation
Multiscale Modeling and Simulation
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