A magnetically impermeable and electrically permeable interface crack with a contact zone in a magnetoelectroelastic bimaterial under concentrated magnetoelectromechanical loads on the crack faces

Abstract: An interface crack with a frictionless contact zone at the right crack-tip between two dissimilar magnetoelectroelastic materials under the action of concentrated magnetoelectromechanical loads on the crack faces is considered. The open part of the crack is assumed to be magnetically impermeable and electrically permeable. The Dirichlet-Riemann boundary value problem is formulated and solved analytically. Stress, magnetic induction and electrical displacement intensity factors as well as energy release rate ar… Show more

“…The governing equations and general solutions for MEE halfspaces in a Cartesian coordinate system are consistent with those in Feng et al (2011). Hence, for brevity, those equations will not be presented in this paper.…”

“…. ; 5Þ and the matrices M and N are found by means of the reconstruction of the matrices A and B in Feng et al (2011). They can be expressed as…”

“…This is the main reason behind structural failure. In the past couple of decades, many researchers have studied the interface crack problems of MEE materials (Gao and Noda, 2004;Li and Kardomateas, 2007;Herrmann et al, 2010;Zhu et al, 2010;Feng et al, 2011;Ma et al, 2012).…”

Fracture analysis of an electrically conductive interface crack with a contact zone in a magnetoelectroelastic bimaterial system

“…The governing equations and general solutions for MEE halfspaces in a Cartesian coordinate system are consistent with those in Feng et al (2011). Hence, for brevity, those equations will not be presented in this paper.…”

“…. ; 5Þ and the matrices M and N are found by means of the reconstruction of the matrices A and B in Feng et al (2011). They can be expressed as…”

“…This is the main reason behind structural failure. In the past couple of decades, many researchers have studied the interface crack problems of MEE materials (Gao and Noda, 2004;Li and Kardomateas, 2007;Herrmann et al, 2010;Zhu et al, 2010;Feng et al, 2011;Ma et al, 2012).…”

Fracture analysis of an electrically conductive interface crack with a contact zone in a magnetoelectroelastic bimaterial system

“…d 0 = c 33 ε 33 + e 2 33 ε ∞ − e 33 D ∞ + (e 33 g 33 − f 33 ε 33 ) H ∞ ε 33 , (B26) e 0 = D ∞ , f 0 = (f 33 ε 33 − e 33 g 33 ) ε ∞ + g 33 D ∞ + ε 33 μ 33 − g 2 33 H ∞ ε 33 .…”

“…Therefore, the fracture analysis of MEE solids with cracks is very important and numerous research achievements are made over the past two decades. Certainly, the main works are still concentrated on anti-plane problems [1][2][3][4][5][6][7][8][9][10][11][12][13], two-dimensional plane problems including internal crack [14][15][16][17][18][19][20][21][22][23][24][25][26] and interface crack problems [27][28][29][30][31][32][33].…”

A penny-shaped crack in a magneto- electroelastic cylinder surrounded by a rigid body and subjected to magnetoelectro- mechanical loads

A new extended pre-fracture zone model for a limited permeable crack in an interlayer between magnetoelectroelastic materials