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GC Sih, and JZ Zuo (2000). Multiscale behavior of crack initiation and growth in piezoelectric ceramics. Theor. Appl. Fract. Mech., 34:123–141.SihGCZuoJZ2000Multiscale behavior of crack initiation and growth in piezoelectric ceramics3412314110.1016/S0167-8442(00)00031-8Search in Google Scholar
GC Sih (2002). A field model interpretation of crack initiation and growth behavior in ferroelectric ceramics: Change of poling direction and boundary condition. Theor. Appl. Fract. Mech., 38:1–14.SihGC2002A field model interpretation of crack initiation and growth behavior in ferroelectric ceramics: Change of poling direction and boundary condition3811410.1016/S0167-8442(02)00077-0Search in Google Scholar
LB Sills, Y Motola, and L Shemesh (2008). The M-integral for calculating intensity factors of an impermeable crack in a piezoelectric material. Eng. Fract. Mech., 75:901–925.SillsLBMotolaYShemeshL2008The M-integral for calculating intensity factors of an impermeable crack in a piezoelectric material7590192510.1016/j.engfracmech.2007.05.009Search in Google Scholar
Y Motola, LB Sills, and V Fourman (2009). On fracture testing of piezoelectric ceramics. Int. J. Fract., 159:167–190.MotolaYSillsLBFourmanV2009On fracture testing of piezoelectric ceramics15916719010.1007/s10704-009-9392-xSearch in Google Scholar
K Jangid, and RR Bhargava (2014). A study on influence of poling direction on piezoelectric plate weakened by two collinear semi-permeable cracks. Acta Mech., 225:109–129.JangidKBhargavaRR2014A study on influence of poling direction on piezoelectric plate weakened by two collinear semi-permeable cracks22510912910.1007/s00707-013-0946-7Search in Google Scholar
K Jangid, and RR Bhargava (2017). Influence of polarization on two unequal semi-permeable cracks in a piezoelectric media. Stren. Fract. Complex., 10:129–144.JangidKBhargavaRR2017Influence of polarization on two unequal semi-permeable cracks in a piezoelectric media1012914410.3233/SFC-170205Search in Google Scholar
GC Sih, R Jones, and ZF Song (2003). Piezomagnetic and piezoelectric poling effects on mode I and II crack initiation behavior of magnetoelectroelastic materials. Theor. Appl. Fract. Mech., 40:161–186.SihGCJonesRSongZF2003Piezomagnetic and piezoelectric poling effects on mode I and II crack initiation behavior of magnetoelectroelastic materials4016118610.1016/S0167-8442(03)00044-2Search in Google Scholar
GC Sih, and ZF Song (2003). Magnetic and electric poling effects associated with crack growth in BaTiO3 – CoFe2O4 composite. Theor. Appl. Fract. Mech., 39: 209–227.SihGCSongZF2003Magnetic and electric poling effects associated with crack growth in BaTiO3 – CoFe2O4 composite3920922710.1016/S0167-8442(03)00003-XSearch in Google Scholar
ZF Song, and GC Sih (2003). Crack initiation behavior in magnetoelectroelastic composite under in-plane deformation. Theor. Appl. Fract. Mech., 39:189–207.SongZFSihGC2003Crack initiation behavior in magnetoelectroelastic composite under in-plane deformation3918920710.1016/S0167-8442(03)00002-8Search in Google Scholar
K Jangid (2018). Magnetic-saturation zone model for two semipermeable cracks in magneto-electro-elastic medium. Int. J. Comput. Methd. Eng. Sci. Mech., 19:129–137.JangidK2018Magnetic-saturation zone model for two semipermeable cracks in magneto-electro-elastic medium1912913710.1080/15502287.2018.1430079Search in Google Scholar
AN Stroh (1958). Dislocations and cracks in anisotropic elasticity. Phil. Mag., 30:625–646.StrohAN1958Dislocations and cracks in anisotropic elasticity3062564610.1080/14786435808565804Search in Google Scholar
NI Muskhelishvili (1975). Some Basic Problems of Mathematical Theory of Elasticity. Noordhoff, Leyden.MuskhelishviliNI1975NoordhoffLeydenSearch in Google Scholar