Biomedical Engineering Reference
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31. Chen H, Yu W (2010) Asymptotical construction of an efficient high-fidelity model for
multilayer functionally graded plates. AIAA J 48(6):1171-1183
32. Lu CF, Chen WQ, Xu RQ, Lim CW (2008) Semi-analytical elasticity solutions for bi-
directional functionally graded beams. Int J Solids Struct 45(1):258-275
33. Zenkour AM, Allam MNM, Sobhy M (2010) Bending analysis of FG viscoelastic sandwich
beams with elastic cores resting on Pasternak's elastic foundation. Acta Mech 212
(3-4):233-252
34. Brischetto S (2009) Classical and mixed advanced models for sandwich plates embedding
functionally graded cores. J Mech Mater Struct 4(1):13-33
35. Li Q, Iu VP, Kou KP (2008) Three-dimensional vibration analysis of functionally graded
material sandwich plates. J Sound Vib 311(1-2):498-515
36. Ke LL, Wang Y-S (2011) Size effect of dynamic stability of functionally graded microbeams
based on a modified couple stress theory. Compos Struct 93:342-350
37. Pradyumna S, Bandyopadhyay JN (2008) Dynamic instability of functionally graded shells
using higher-order theory. J Eng Mech 136(5):551-561
38. Asgari M, Akhlaghi M, Hosseini SM (2009) Dynamic analysis of two-dimensional function-
ally graded thick hollow cylinder with finite length under impact loading. Acta Mech 208
(3-4):163-180
39. Huang H, Han Q (2008) Buckling of imperfect functionally graded cylindrical shells under
axial compression. Eur J Mech A-Solid 27(6):1026-1036
40. Li XF, Peng XL, Kang YA (2009) Pressurized hollow spherical vessels with arbitrary radial
nonhomogeneity. AIAA J 47(9):2262-2265
41. Batra RC (2008) Optimal design of functionally graded incompressible linear elastic cylinders
and spheres. AIAA J 46(8):2050-2057
42. Sofiyev AH, Kuruoglu N, Turkmen M (2009) Buckling of FGM hybrid truncated conical shells
subjected to hydrostatic pressure. Thin Wall Struct 47(1):61-72
43. Pradyumna S, Bandyopadhyay JN (2008) Free vibration analysis of functionally graded curved
panels using a higher-order finite element formulation. J Sound Vib 318(1-2):176-192
44. Arcininega RA, Reddy JN (2007) Large deformation analysis of functionally graded shells. Int
J Solids Struct 44(6):2036-2052
45. Sheng GG, Wang X (2008) Thermomechanical vibration analysis of a functionally graded
shell with flowing fluid. Eur J Mech A-Solid 27(6):1075-1087
46. Birman V, Byrd LW (2007) Vibrations of damaged cantilevered beams manufactured from
functionally graded materials. AIAA J 45(11):2747-2757
47. Librescu L, Maalawi KY (2007) Material grading for improved aeroelastic stability in com-
posite wings. J Mech Mater Struct 2(7):1381-1394
48. Librescu L, Oh S-Y, Song O (2005) Thin-walled beams made of functionally graded materials
and operating in a high temperature environment. J Therm Stress 28(6-7):649-712
49. Ibrahim HH, Yoo HH, Lee KS (2009) Supersonic flutter of functionally graded panels subject
to acoustic and thermal loads. J Aircr 46(2):593-600
50. Kashtalyan M, Menshykova M (2008) Three-dimensional analysis of a functionally graded
coating/substrate system of finite thickness. Philos Transact R Soc A Math Phys Eng Sci 366
(1871):1821-1826
51. Panda S, Ray MC (2009) Control of nonlinear vibrations of functionally graded plates using
1-3 piezoelectric composite. AIAA J 47(6):1421-1434
52. Ke LL, Wang YS, Yang J, Kitipornchai S (2010) Sliding frictional contact analysis of
functionally graded piezoelectric layered half-plane. Acta Mech 209(3-4):249-268
53. Babaei MH, Chen ZT (2008) Analytical solution for the electromechanical behavior of a
rotating functionally graded piezoelectric hollow shaft. Arch Appl Mech 78(7):489-500
54. Sladek J, Sladek V, Solek P, Saez A (2008) Dynamic 3D axisymmetric problems in continu-
ously non-homogeneous piezoelectric solids. Int J Solids Struct 45(16):4523-4542
55. Tsai YH, Wu CP (2008) Dynamic responses of functionally graded magneto-electro-elastic
shells with open-circuit surface conditions. Int J Eng Sci 46(9):843-857
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