|
|
Pure Mathematics 2025
具时变记忆核的黏弹性弱耗散波动方程解的长时间行为研究
|
Abstract:
本文考虑一类具时变记忆核及线性阻尼的黏弹性波动方程的初边值问题。首先,通过引入记忆函数将问题进行转化,建立适当的时变记忆空间,并证明了记忆函数所满足的积分不等式。进一步,利用 Feado-Galerkin 方法证明了弱解的存在性,并得到了解的一致有界性。其次,我们证明了解对初值的连续依赖性,从而得到解的唯一性。最后,在外源项为 0 的条件下,通过构造辅助泛函,利用积分不等式,证明了系统能量的指数衰减。相关方法在一般非时变黏弹性波动方程解的长时间行为研究中仍然适用。
This paper is concerned with the initial boundary value problem of a viscoelastic wave equations with time dependent memory kernel and linear damping. Firstly, we introduce a memory function and rewrite the problem to a equivalent system. By constructing an appropriate time dependent memory space, we control the memory function by some integral inequalities. Furthermore, the existence of weak solutions is
proved by the Feado-Galerkin method, and the uniform boundedness of the solutions is also obtained. Secondly, we prove the continuous dependence of the solutions on the initial values and obtain the uniqueness of the solution. Finally, by constructing an auxiliary functional and using the integral inequality, we prove the exponential decay of the energy under the condition that the external source term is 0. The related methods are also applicable in the study of the long time behavior of solutions of classical viscoelastic wave equations.
| [1] | Dafermos, C.M. (1969) The Mixed Initial-Boundary Value Problem for the Equations of Non linear One-Dimensional Viscoelasticity. Journal of Differential Equations, 6, 71-86.
https://doi.org/10.1016/0022-0396(69)90118-1 |
| [2] | Dafermos, C.M. (1970) Asymptotic Stability in Viscoelasticity. Archive for Rational Mechanics
and Analysis, 37, 297-308. https://doi.org/10.1007/bf00251609 |
| [3] | Fabrizio, M. and Lazzari, B. (1991) On the Existence and the Asymptotic Stability of Solutions
for Linearly Viscoelastic Solids. Archive for Rational Mechanics and Analysis, 116, 139-152.
https://doi.org/10.1007/bf00375589 |
| [4] | Munoz Rivera, J.E. and Barretot, R.K. (1996) Uniform Rates of Decay in Nonlinear Viscoelas ticity for Polynomial Decaying Kernels. Applicable Analysis, 60, 97-133. https://doi.org/10. 1080/00036819608840437 |
| [5] | Pata, V. and Zucchi, A. (2001) Attractors for a Damped Hyperbolic Equation with Linear
Memory. Advances in Mathematical Sciences and Applications, 11, 505-529. |
| [6] | ] Conti, M. and Pata, V. (2005) Weakly Dissipative Semilinear Equations of Viscoelasticity.
Communications on Pure & Applied Analysis, 4, 705-720.
https://doi.org/10.3934/cpaa.2005.4.705 |
| [7] | Giorgi, C., Mu?oz Rivera, J.E. and Pata, V. (2001) Global Attractors for a Semilinear Hy perbolic Equation in Viscoelasticity. Journal of Mathematical Analysis and Applications, 260,
83-99. https://doi.org/10.1006/jmaa.2001.7437 |
| [8] | Christensen, R.M. (2013) Theory of Viscoelasticity. Courier Corporation. |
| [9] | Berrimi, S. and Messaoudi, S.A. (2004) Exponential Decay of Solutions to a Viscoelastic E quation with Nonlinear Localized Damping. Electronic Journal of Differential Equations, 88,1-10. |
| [10] | onti, M., Danese, V., Giorgi, C. and Pata, V. (2018) A Model of Viscoelasticity with Time Dependent Memory Kernels. American Journal of Mathematics, 140, 349-389. https://doi.org/10.1353/ajm.2018.0008 |
| [11] | Conti, M., Danese, V. and Pata, V. (2018) Viscoelasticity with Time-Dependent Memory
Kernels, II: Asymptotic Behavior of Solutions. American Journal of Mathematics, 140, 1687-
1729. https://doi.org/10.1353/ajm.2018.0049 |
| [12] | Grasselli, M. and Pata, V. (2002) Uniform Attractors of Nonautonomous Dynamical Systems
with Memory. In: Lorenzi, A. and Ruf, B., Eds., Evolution Equations, Semigroups and Func tional Analysis, Birkh?user Basel, 155-178. https://doi.org/10.1007/978-3-0348-8221-7 |
