代表性论文和专著: [1] Zhang Z. K., Fang D.N. and Soh A.K., A New Criterion for Domain Switching in Ferroelectric Materials, Mechanics of Materials, 2006, 38:25-32. [2] Li Fa-Xin and Fang Dai-Ning, Effects of electrical boundary conditions and poling approaches on the nonlinear compressive behavior of PZT ceramics, Acta Mater., 53 (9): 2665-2673, 2005. [3] Fang Dai-Ning, Zhang Zhen-Ke, Soh Ai Kah, Lee Kwok Lun, Fracture criteria of piezoelectric ceramics with defects,Mechanics of Materials, 2004, 36(10): 917-928. [4] Fang Daining, Liu Bin, SUN C.T., Fatigue Crack Growth in Ferroelectric Ceramics Driven by Alternating Electric Fields, J. Am. Ceram. Soc., 2004, 87(5): 840-846. [5] Wan Y. P., Fang D. N. and Soh A. K., A Small-scale Magnetic-yielding Model For An Infinite Magnetostrictive Plane With A Crack-like Flaw, Inter. J. Solida & Struc., 2004, 41(22-23): 6129-6146 . [6] Feng Xue, Fang Dai-Ning, Hwang Keh-Chih, Wu Guang-Heng Ferroelastic properties of oriented TbxDy1-xFe2 polycrystals, Applied Physics Letters, 2003, 83(19): 3960-3962, [7] Fang Daining,Jiang Bing and Hwang Keh-Chih A model for predicting effective properties of piezocomposites with non-piezoelectric inclusions, J. of Elasticity, 2001, 62: 95-118. [8] Soh A. K., Fang Daining and Lee Kwok Lun, Analysis of a bi-piezoelectric ceramic layer with an interfacial crack subjected to anti-plane shear and in-plane electric loading, European Journal of Mechanics, A, 2000, 19: 961-977. [9] Lu W., Fang Daining and Hwang Keh-Chih, Nonlinear Electric-mechanical Behavior and Micormechanics Modeling of Ferroelectric Domain Evolution, Acta Mater., 1999, 47(10):... 代表性论文和专著: [1] Zhang Z. K., Fang D.N. and Soh A.K., A New Criterion for Domain Switching in Ferroelectric Materials, Mechanics of Materials, 2006, 38:25-32. [2] Li Fa-Xin and Fang Dai-Ning, Effects of electrical boundary conditions and poling approaches on the nonlinear compressive behavior of PZT ceramics, Acta Mater., 53 (9): 2665-2673, 2005. [3] Fang Dai-Ning, Zhang Zhen-Ke, Soh Ai Kah, Lee Kwok Lun, Fracture criteria of piezoelectric ceramics with defects,Mechanics of Materials, 2004, 36(10): 917-928. [4] Fang Daining, Liu Bin, SUN C.T., Fatigue Crack Growth in Ferroelectric Ceramics Driven by Alternating Electric Fields, J. Am. Ceram. Soc., 2004, 87(5): 840-846. [5] Wan Y. P., Fang D. N. and Soh A. K., A Small-scale Magnetic-yielding Model For An Infinite Magnetostrictive Plane With A Crack-like Flaw, Inter. J. Solida & Struc., 2004, 41(22-23): 6129-6146 . [6] Feng Xue, Fang Dai-Ning, Hwang Keh-Chih, Wu Guang-Heng Ferroelastic properties of oriented TbxDy1-xFe2 polycrystals, Applied Physics Letters, 2003, 83(19): 3960-3962, [7] Fang Daining,Jiang Bing and Hwang Keh-Chih A model for predicting effective properties of piezocomposites with non-piezoelectric inclusions, J. of Elasticity, 2001, 62: 95-118. [8] Soh A. K., Fang Daining and Lee Kwok Lun, Analysis of a bi-piezoelectric ceramic layer with an interfacial crack subjected to anti-plane shear and in-plane electric loading, European Journal of Mechanics, A, 2000, 19: 961-977. [9] Lu W., Fang Daining and Hwang Keh-Chih, Nonlinear Electric-mechanical Behavior and Micormechanics Modeling of Ferroelectric Domain Evolution, Acta Mater., 1999, 47(10): 2913-2926. [10] Fang Daining, Lu W., Inoue T. and Hwang Keh-Chih, Stress-strain relation of CuAlNi SMA single crystal under biaxial loading |