Rayleigh waves in isotropic elastic materials with micro-voids
In: International Journal of Solids and Structures, Vol. 290 (2024), Article 112661
2024article/chapter in journalOA Green
MathematicsFaculty of Mathematics » Analysis
Related: 1 publication(s)
Title in English:
Rayleigh waves in isotropic elastic materials with micro-voids
Author:
Bulgariu, Emilian
- LSF ID
- 56905
- ORCID
-
0000-0002-8466-8010
- Other
- connected with university
corresponding author
- LSF ID
- 13332
- ORCID
-
0000-0002-1615-8879
- Other
- connected with university
Year of publication:
2024
Open Access?:
OA Green
arXiv.org ID
Scopus ID
Language of text:
English
Title in English (abbreviated):
Inter J Solids Structur
Place of publication:
New York
Publisher:
Elsevier
in:
Vol. 290 (2024), Article 112661
ISSN
ISSN
ZDB ID
Library shelfmark:
Keyword, Topic:
Existence and uniqueness ; Fu and Mielke's method ; Materials with micro-voids ; Micro-voids model ; Rayleigh waves ; Relaxed micromorphic model ; Riccati equation ; Secular equation
Type of resource:
Text
Abstract in English:
In this paper, we show that a general method introduced by Fu and Mielke allows to give a complete answer on the existence and uniqueness of a subsonic solution describing the propagation of surface waves in an isotropic half space modelled with the linear theory of isotropic elastic materials with micro-voids. Our result is valid for the entire class of materials admitting real wave propagation which include auxetic materials (negative Poisson's ration) and composite materials with negative-stiffness inclusions (negative Young's modulus). Moreover, the used method allows to formulate a simple and complete numerical strategy for the computation of the solution.