Title of article
Anti-plane problem of periodic interface cracks in a functionally graded coating-substrate structure
Author/Authors
Sheng-Hu Ding · Xing Li، نويسنده ,
Issue Information
روزنامه با شماره پیاپی سال 2008
Pages
10
From page
53
To page
62
Abstract
In this paper, the interface cracking
between a functionally graded material (FGM) and an
elastic substrate is analyzed under antiplane shear
loads.Two crack configurations are considered, namely
a FGM bonded to an elastic substrate containing a
single crack and a periodic array of interface cracks,
respectively. Standard integral-transform techniques
are employed to reduce the single crack problem to
the solution of an integral equation with a Cauchy-type
singular kernel. However, for the periodic cracks problem,
application of finite Fourier transform techniques
reduces the solution of the mixed-boundary value problem
for a typical strip to triple series equations, then to
a singular integral equation with a Hilbert-type singular
kernel. The resulting singular integral equation is
solved numerically. The results for the cases of single
crack and periodic cracks are presented and compared.
Effects of crack spacing, material properties and FGM
nonhomogeneity on stress intensity factors are investigated
in detail
Keywords
Functionally graded material ·Interface crack · Stress intensity factor
Journal title
International Journal of Fracture
Serial Year
2008
Journal title
International Journal of Fracture
Record number
828664
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