Exponential convergence to steady-states for trajectories of a damped dynamical system modeling adhesive strings

Mathematical Models and Methods in Applied Sciences Pub Date : 2024-04-20 DOI:10.1142/s021820252450026x
Giuseppe Maria Coclite, Nicola De Nitti, Francesco Maddalena, Gianluca Orlando, Enrique Zuazua
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Abstract

We study the global well-posedness and asymptotic behavior for a semilinear damped wave equation with Neumann boundary conditions, modeling a one-dimensional linearly elastic body interacting with a rigid substrate through an adhesive material. The key feature of of the problem is that the interplay between the nonlinear force and the boundary conditions allows for a continuous set of equilibrium points. We prove an exponential rate of convergence for the solution towards a (uniquely determined) equilibrium point.

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以粘合剂弦为模型的阻尼动力系统轨迹向稳态的指数收敛
我们研究了具有诺伊曼边界条件的半线性阻尼波方程的全局拟合和渐近行为,该方程模拟了一个通过粘合材料与刚性基体相互作用的一维线性弹性体。该问题的主要特点是,非线性力和边界条件之间的相互作用允许存在一组连续的平衡点。我们证明了向一个(唯一确定的)平衡点求解的指数收敛率。
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Mathematical Models and Methods in Applied Sciences
Mathematical Models and Methods in Applied Sciences
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