Linearization and localization of nonconvex functionals motivated by nonlinear peridynamic models

IF 1.9 4区 工程技术 Q3 MECHANICS Continuum Mechanics and Thermodynamics Pub Date : 2024-03-29 DOI:10.1007/s00161-024-01299-z
Tadele Mengesha, James M. Scott
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Abstract

We consider a class of nonconvex energy functionals that lies in the framework of the peridynamics model of continuum mechanics. The energy densities are functions of a nonlocal strain that describes deformation based on pairwise interaction of material points and as such are nonconvex with respect to nonlocal deformation. We apply variational analysis to investigate the consistency of the effective behavior of these nonlocal nonconvex functionals with established classical and peridynamic models in two different regimes. In the regime of small displacement, we show the model can be effectively described by its linearization. To be precise, we rigorously derive what is commonly called the linearized bond-based peridynamic functional as a \(\Gamma \)-limit of nonlinear functionals. In the regime of vanishing nonlocality, the effective behavior of the nonlocal nonconvex functionals is characterized by an integral representation, which is obtained via \(\Gamma \)-convergence with respect to the strong \(L^p\) topology. We also prove various properties of the density of the localized quasiconvex functional such as frame-indifference and coercivity. We demonstrate that the density vanishes on matrices whose singular values are less than or equal to one. These results confirm that the localization, in the context of \(\Gamma \)-convergence, of peridynamic-type energy functionals exhibits behavior quite different from classical hyperelastic energy functionals.

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非线性周动态模型激发的非凸函数线性化和局部化
我们考虑的是连续介质力学周动力学模型框架内的一类非凸能量函数。能量密度是非局部应变的函数,而非局部应变描述的是基于材料点成对相互作用的变形,因此相对于非局部变形是非凸的。我们运用变分分析法研究了这些非局部非凸函数的有效行为与已建立的经典模型和周动力学模型在两种不同情况下的一致性。在小位移状态下,我们发现模型可以通过线性化得到有效描述。准确地说,我们严格地推导出了通常所说的基于键的线性化周动力学函数,即非线性函数的(\γ\)极限。在非局域性消失的情况下,非局域非凸函数的有效行为以积分表示为特征,而积分表示是通过与强(L^p\)拓扑相关的(\(\Gamma \)-收敛)得到的。我们还证明了局部准凸函数密度的各种性质,如框架不相关性和矫顽力。我们证明了密度在奇异值小于或等于 1 的矩阵上消失。这些结果证实,在 \(\Gamma \)-收敛的背景下,围动力型能量函数的局部化表现出与经典超弹性能量函数截然不同的行为。
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来源期刊
CiteScore
5.30
自引率
15.40%
发文量
92
审稿时长
>12 weeks
期刊介绍: This interdisciplinary journal provides a forum for presenting new ideas in continuum and quasi-continuum modeling of systems with a large number of degrees of freedom and sufficient complexity to require thermodynamic closure. Major emphasis is placed on papers attempting to bridge the gap between discrete and continuum approaches as well as micro- and macro-scales, by means of homogenization, statistical averaging and other mathematical tools aimed at the judicial elimination of small time and length scales. The journal is particularly interested in contributions focusing on a simultaneous description of complex systems at several disparate scales. Papers presenting and explaining new experimental findings are highly encouraged. The journal welcomes numerical studies aimed at understanding the physical nature of the phenomena. Potential subjects range from boiling and turbulence to plasticity and earthquakes. Studies of fluids and solids with nonlinear and non-local interactions, multiple fields and multi-scale responses, nontrivial dissipative properties and complex dynamics are expected to have a strong presence in the pages of the journal. An incomplete list of featured topics includes: active solids and liquids, nano-scale effects and molecular structure of materials, singularities in fluid and solid mechanics, polymers, elastomers and liquid crystals, rheology, cavitation and fracture, hysteresis and friction, mechanics of solid and liquid phase transformations, composite, porous and granular media, scaling in statics and dynamics, large scale processes and geomechanics, stochastic aspects of mechanics. The journal would also like to attract papers addressing the very foundations of thermodynamics and kinetics of continuum processes. Of special interest are contributions to the emerging areas of biophysics and biomechanics of cells, bones and tissues leading to new continuum and thermodynamical models.
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