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Bibliografia<br />
Bibliografia 105<br />
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[3.3] F. Bleich, “Dynamic instability of truss-stiffned suspension bridges under wind action”, Proc. ASCE<br />
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[3.4] British Bridge Builders, Bridging the Humber, Cerialis Press, York (1981).<br />
[3.5] L. Corradi Dell’Acqua, “Meccanica delle strutture”, Milano: McGraw-Hill (1994).<br />
[3.6] J. P. Den Hartog, “Transmission line vibration due to sleet”, Trans. AIEE, 51 (1932), 1074-1076.<br />
[3.7] H. Glauert, “Rotation of an airfoil about a fixed axis”, Aeronautical Research Committee, R&M 595,<br />
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long-span bridges”, J. Wing Engng. Ind. Aerod. 60 (1996), 69-80.<br />
[3.11] H. Katsuchi, N. P. Jones, R. H. Scanlan, H. Akiyama, “Multi-mode flutter and buffeting analysis of<br />
the Akashi-Kaikyo bridge”, J. Wing Engng. Ind. Aerod. 77-78 (1998), 431-441.<br />
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Ind. Aerod., 72 (1997), 265-274.<br />
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[3.14] H. H. E. Leipholz, “On a generalization of the self-adjiointness and of Rayleigh’s quotient”, Mech.<br />
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[3.16] F. Maceri, G. Vairo, “Modelling and simulation of long-span bridges under aerodynamic loads”, Proc.<br />
I Colloquium Lagrangianum, Taormina (2000).<br />
[3.17] F. Maceri, G. Vairo, “Simulazione numerica dello Stall flutter nei ponti strallati di grande luce”,<br />
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[3.18] M. Matsumoto, K. Abe, “Role of coupled derivatives on flutter instabilities”, J. Wind and Struct.,<br />
1, 2 (1998).<br />
[3.19] J. D. Ragget, “Linear theory of stall flutter”, AIAA J., II(5) (1973), 733-735.<br />
[3.20] R. H. Scanlan, “Problematics in Formulation of Wind-Force Models for Bridge Decks”,J. Eng. Mech.,<br />
119(7) (1993), 1353-1375.<br />
[3.21] R. H. Scanlan, “Aerodynamics of cable-supported Bridges”, J. Construct. Steel Res., 39(1) (1996),<br />
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[3.23] R. H. Scanlan, “Some observation on the state of bluff-body aeroelasticity” , J. Wing Engng. Ind.<br />
Aerod. 69-71 (1997) 77-90.
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