Green's Function Solution of Multiple Shallow-Buried Cavities and Inclusions in Elastic Semi-Space

Hong Liang Li; Lei Liu

doi:10.4028/www.scientific.net/KEM.577-578.109

Paper Titles

Improvement of an Ellipsoidal Void Model for Simulating Ductile Fracture Behavior
p.93

Fracture Toughness of Advanced TRIP-Aided Martensitic Steels
p.97

Probabilistic Failure Analysis of Steel Structures Exposed to Fatigue
p.101

Strength Analysis of Energy Storage Flywheel Wrapped with Composite Material
p.105

Green's Function Solution of Multiple Shallow-Buried Cavities and Inclusions in Elastic Semi-Space
p.109

Assessment of UMTS and Averaged SED Fracture Criteria for U-Notched Specimens
p.113

Evaluation of Generalized MTS Criterion for Mixed-Mode Fracture of Polyurethane Materials
p.117

Effects of Variable Loading on Residual Fatigue Life of the Railway Wheelset
p.121

A Multiaxial Notch Fatigue Methodology to Estimate In-Service Lifetime of Corroded Cast Iron Water Pipes
p.125

HomeKey Engineering MaterialsKey Engineering Materials Vols. 577-578Green's Function Solution of Multiple...

Green's Function Solution of Multiple Shallow-Buried Cavities and Inclusions in Elastic Semi-Space

Abstract:

In engineering composite materials, earthquake engineering and modern municipal construction, it can be found that there are shallow-buried cavity or inclusion structure near surface. When structure is impacted by dynamic load, scattering field will be produced because of the cavity or the inclusion, and it could cause dynamic stress concentration at the edge of the cavity or inclusion. In this paper, Green's Function is studied, which is the solution of displacement field for elastic semi-space with multiple shallow-buried cavities and inclusions while bearing anti-plane harmonic line source force at any point. In the complex plane, considering the symmetry of SH-wave scattering, the displacement field aroused by the anti-plane harmonic line source force and the scattering displacement field impacted by multiple cylindrical cavities and inclusions are constructed. Through applying the method of multi-polar coordinate system, the equations with unknown coefficients can be obtained by using the stress or displacement condition of the cylindrical cavities and inclusions in the radial direction. According to orthogonality condition for trigonometric function, these equations can be reduced to a series of algebraic equations. By solving these algebraic equations the value of the unknown coefficients can be obtained. So the total wave displacement field could be got. By using the expressions, an example is provided to show the effect of the change of relative location of the cylindrical cavities, inclusions and the location of the line source force.

You might also be interested in these eBooks

Advances in Fracture and Damage Mechanics XII

View Preview

Info:

Periodical:

Key Engineering Materials (Volumes 577-578)

Pages:

109-112

DOI:

https://doi.org/10.4028/www.scientific.net/KEM.577-578.109

Citation:

Cite this paper

Online since:

September 2013

Authors:

Hong Liang Li, Lei Liu

Keywords:

Dynamic Stress Concentration Factor, Green's Function, Semi-Space, Shallow-Buried Cavity, Shallow-Buried Inclusion

Export:

RIS, BibTeX

Price:

Permissions CCC:

Request Permissions

Permissions PLS:

Request Permissions

Сopyright:

Citation:

References

[1] Liu Diankui, Lin Hong: Scattering of SH-wave by an Interface Linear Crack and a Circular Cavity near Biomaterial Interface. Acta Mechanica Sinica,Vol.20(2004),No.3,pp.317-326

DOI: 10.1007/bf02486724

Google Scholar

[2] Wang Ren, Huang Kezhi, Yang Wei, Zheng Quanshui, He Yousheng: An Introduction to the 19th ICTAM. Mechanics and Practice, Vol.19(1997),No.1,pp.57-64

Google Scholar

[3] Y. Yang and A. Norris: Shear Wave Scattering from a Debonded Fiber. Mech. Phys.Solids, Vol.39(1991),pp.273-280

Google Scholar

[4] J.Tian, U.Gabbert, H.Berger, and X.Y.Su: Lamb Wave Interaction with Delamination in CFRP Laminates. Computers, Materials and Continua, Vol.1(2004),pp.327-336

Google Scholar

[5] Li Hongliang, Zhang Cun:Green's Function Solution of the Semi-space with Double Shallow-buried Cavities. Key Engineering Materials,Vol.417-418(2010),pp.145-148

DOI: 10.4028/www.scientific.net/kem.417-418.145

Google Scholar

[6] Li Hongliang, Li Hong,Yang Yong: Dynamic Stress Intensity Problem of SH-Wave by Double Linear Cracks near A Circular Hole. Key Engineering Materials,Vol.385-387(2008), pp.105-108

DOI: 10.4028/www.scientific.net/kem.385-387.105

Google Scholar

[7] Li Hongliang, Zhang Rui: Green's Function Solution of Semi-Cylindrical Gap with Multiple Shallow-Buried Cavities. Adv. Sci. Lett. Vol.4(2011),No.4,pp.796-799.

DOI: 10.1166/asl.2011.1358

Google Scholar