Department of Architecture, Setsunan University, Osaka, Japan
Selected Publications (For more see the link, Prof. Hiroyuki Matsunaga):
Yokoo, Y., and H. Matsunaga, A. General Nonlinear Theory of Elastic Shells, Int. J. Solids Structures, 10, 2 (1974, 2) 261–274.
Matsunaga H (1994) Free vibration and stability of thick elastic plates subjected to in-plane forces. Int J Solids Struct 31(22):3113–3124
H. Matsunaga. Buckling instabilities of thick elastic beams subjected to axial stresses. Computers and Structures, 59(5):859–868, 1996.
Matsunaga, H.: Free vibration and stability of thin elastic beams subjected to axial forces. J. Sound Vib. 191(5), 917–933 (1996)
Matsunaga H (1997) Buckling instabilities of thick elastic plates subjected to in-plane stresses. Compos Struct 62(1):205–214
Matsunaga, H.: Vibration and stability of thick simply supported shallow shells subjected to in plane stress. J. Sound Vib. 225, 41–60 (1999)
H. Matsunaga, Vibration and buckling of deep beam-columns on two-parameter elastic foundations, J. Sound Vib., 228 (2) (1999), pp. 359-376
H. Matsunaga: Vibration and stability of, thick plates on elastic foundations. J. Eng. Mech. (ASCE) 126:27–34, 2000.
Matsunaga H (2000) Vibration and stability of cross-ply laminated composite plates according to a global higher-order plate theory. Compos Struct 48(4):231–244
Matsunaga H (2001) Vibration and buckling of multilayered composite beams according to higher order deformation theories. J Sound Vib 246:47–62
Matsunaga H (2001) Vibration and stability of angle-ply laminated composite plates subjected to in-plane stresses. Int J Mech Sci 43:1925–1944
H. Matsunaga, “Interlaminar stress analysis of laminated composite beams according to global higher-order deformation theories”, Compos. Strucut., vol. 55, pp. 105–114, 2002.
Matsunaga, H . Assessment of a global higher-order deformation theory for laminated composite and sandwich plates. Compos Struct 2002; 56: 279–291.
Matsunaga, H (2002) Vibration of cross-ply laminated composite plates subjected to initial in-plane stresses. Thin Wall Struct 40:557–571
H. Matsunaga, Interlaminar stress analysis of laminated composite and sandwich circular arches subjected to thermal/mechanical loading, Compos. Struct 60 (2003), pp. 345–358.
Matsunaga H.: A comparison between 2-D single-layer and 3-D layerwise theories for computing interlaminar stresses of laminated composite and sandwich plates subjected to thermal loadings. Compos. Struct. 64, 161–177 (2004)
Matsunaga H. Thermal buckling of cross-ply laminated composite and sandwich plates according to a global higher-order deformation theory. Composite Structures, 2005, 68(4): 439–454
Matsunaga H (2006) Thermal buckling of angle-ply laminated composite and sandwich plates according to a global higher-order deformation theory. Compos Struct 72:177–192
Hiroyuki Matsunaga, “Thermal buckling of cross-ply laminated composite shallow shells according to a global higher-order deformation theory”, Composite Structures, Vol. 81, pp 210-221, 2007
Matsunaga H (2007) Free vibration and stability of angle-ply laminated composite and sandwich plates under thermal loading. Compos Struct 77:249–262
Matsunaga H. Vibration and stability of cross-ply laminated composite shallow
shells subjected to in-plane stresses. Compos Struct 2007;78:377–91.
Matsunaga H.: Vibration and buckling of cross-ply laminated composite circular cylindrical shells according to a global higher-order theory. International Journal of Mechanical Sciences, Vol. 49, Issue 9, pp. 1060-1075, 2007.
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