Large scale domain switching around the tip of an impermeable stationary crack in ferroelectric ceramics driven by near-coercive electric field 被引量：3

Large scale domain switching around the tip of an impermeable stationary crack in ferroelectric ceramics driven by near-coercive electric field

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摘要 It is widely accepted that the singular term plays a leading role in driving domain switching around the crack tip of ferroelectric ceramics.When an applied electric field approaches or even exceeds the coercive one,however,non-singular terms are no longer negligible and the switching of a large or global scale takes place.To analyze the large scale switching,one has to get a full asymptotic solution to the electric field in the vicinity of the crack tip.Take a double cantilever beam specimen as an example.The derivation of the full electric field is simplified as a mixed boundary value problem of an infinite strip containing a semi-infinite impermeable crack.The boundary value problem is solved by an analytic function and a conformal mapping to yield a full electric field solution in a closed form.Based on the full field solution,the large scale domain switching is examined.The switching zones predicted by the large and small scale switching models are illustrated and compared with each other near the tip of a stationary crack. It is widely accepted that the singular term plays a leading role in driving domain switching around the crack tip of ferroelectric ceramics.When an applied electric field approaches or even exceeds the coercive one,however,non-singular terms are no longer negligible and the switching of a large or global scale takes place.To analyze the large scale switching,one has to get a full asymptotic solution to the electric field in the vicinity of the crack tip.Take a double cantilever beam specimen as an example.The derivation of the full electric field is simplified as a mixed boundary value problem of an infinite strip containing a semi-infinite impermeable crack.The boundary value problem is solved by an analytic function and a conformal mapping to yield a full electric field solution in a closed form.Based on the full field solution,the large scale domain switching is examined.The switching zones predicted by the large and small scale switching models are illustrated and compared with each other near the tip of a stationary crack.

作者 CUI YuanQing ZHONG Zheng

机构地区 School of Aerospace Engineering and Applied Mechanics

出处《Science China(Physics,Mechanics & Astronomy)》 SCIE EI CAS 2011年第1期121-126,共6页 中国科学：物理学、力学、天文学（英文版）

基金 sponsored by the National Natural Science Foundation of China (Grant No.10702071) the China Postdoctoral Science Foundation the Shanghai Postdoctoral Scientific Program (Grant No.10R21415800) the Shanghai Leading Academic Discipline Project (Grant No.B302)

关键词 ferroelectric ceramics domain switching electric field analytic function impermeable crack STRIP 开关模型裂纹尖端电场驱动铁电陶瓷不透水双悬臂梁试样半无限裂纹边界值问题

分类号 O346.1 [理学—固体力学] TN701 [电子电信—电路与系统]

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