FGM/FGPM
[JA11] (Japanese) Liu, G.R., Tani, J. and Ohyoshi, T., Lamb Waves in a Functionally Gradient Material Plates and its Transient Response, Part 1: Theory, Transactions of the Japan Society of Mechanical Engineers, Vol. 57(A), No. 535, 1991, pp. 603-608.
[JA12] (Japanese) Liu, G.R., Tani, J. and Ohyoshi, T., Lamb Waves in a Functionally Gradient Material Plates and its Transient Response, Part 2: Calculation Results, Transactions of the Japan Society of Mechanical Engineers, Japan, Vol. 57(A), No. 535, 1991, pp. 609-611.
[JA13] (Japanese) Liu, G.R., Tani, J., Characteristics of Wave Propagation in Functionally Gradient Piezoelectric Material Plates and its Response Analysis, Part 1: Theory, Transactions of the Japan Society of Mechanical Engineers, Japan, Vol. 57(A), No. 541, 1991, pp. 2122-2127.
[JA14] (Japanese) Liu, G.R., Tani, J., Characteristics of Wave Propagation in Functionally Gradient Piezoelectric Material Plates and its Response Analysis, Part 2: Calculation Results, Transactions of the Japan Society of Mechanical Engineers, Japan, Vol. 57(A), No. 541, 1991, pp. 2128-2133.
[JA15] Liu, G.R., Tani, J., SH Surface Waves in Functionally Gradient Piezoelectric Material Plates, Transactions of the Japan Society of Mechanical Engineers, Japan, Vol. 58(A), No. 547, 1992, pp. 504-507.
[JA17] Liu, G.R., Tani, J., Surface Waves in Functionally Gradient Piezoelectric Material Plates, ASME Journal of Vibration and Acoustics, U. S. A., Vol. 116, 1994, pp. 440-448.
[JA45] Liu, G.R., Han, X., and Lam, K.Y. Stress Waves in Functionally Gradient Materials and its Use for Material Characterization, Composites Part B, Vol.30, 1999, pp.383-394.
[JA69] Han, X., Liu, G. R. and Lam, K.Y., A Quadratic Layer Element For Analyzing Stress Waves In FGMS And Its Application In Material Characterization. Journal of Sound and Vibration. Vol.236(2), 2000, pp.307-321.
[JA79] Han, X., Liu, G.R., Xi, Z.C. and Lam, K.Y., Transient Waves In A Functionally Graded Cylinder. International Journal of Solids and Structures. Vol. 38, 2001, pp.3021-3037.
[JA97] Liu, G.R., Han, X. and Lam, K.Y., Material Characterization Of FGM Plates Using Elastic Waves And An Inverse Procedure. Journal of Composite materials. Vol.35, No.11, (2001),pp. 954-971.
[JA99] Han, X., Liu, G.R. and Lam, K.Y., Transient Waves In Plates Of Functionally Graded Materials. International Journal for Numerical Methods in Engineering, Vol 52, 2001, pp.851-865.
[JA124] Han, X., Liu, G.R., Xi, Z.C. and Lam, K.Y., Characteristics Of Waves In A Functionally Graded Cylinder. International Journal for Numerical Methods in Engineering, 53: (3), 2002, pp.653-676.
[JA149] Han, X. and Liu, G.R., Effects Of SH Waves In A Functionally Graded Plate, Mechanics Research Communications. 29, 2002, pp. 327-338.
[JA174] Han X, Xu D, Liu GR A Computational Inverse Technique For Material Characterization Of A Functionally Graded Cylinder Using A Progressive Neural Network, NEUROCOMPUTING , 51: 341-360 APR 2003.
[JA189] Liu GR, Dai KY, Han X and Ohyoshi T, Dispersion of waves and characteristic wave surfaces in functionally graded piezoelectric plates, Journal of Sound and Vibration, 268(1):131-147, 2003.
[JA190] Han X and Liu GR, Elastic waves propagating in a functionally graded piezoelectric cylinder, Smart Materials & Structures, 12 (6): 962-971, 2003.
[JA210] Dai KY, Liu GR, Lim KM, Han X and Du SY, A meshfree radial point interpolation method for analysis of functionally graded material (FGM) plates, Computational Mechanics, 34 (3): 213-223, 2004.
[JA226] Dai KY, Liu GR, Han X and Lim KM, Thermomechanical analysis and active control of functionally graded material (FGM) plates using Element-free Galerkin method, Computers & Structures, 83 (17-18): 1487-1502, 2005.
