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A platform for research: civil engineering, architecture and urbanism
Rigidity and Aerodynamic Stability of Suspension Bridges
Coefficients of rigidity, natural oscillation periods, excitation and amplification of vertical and torsional oscillations, aerodynamic forces and moments, lift and torque graphs, velocity relations, energy relations, positive and negative damping effects, critical wind velocities, rates of amplification, limiting amplitudes, effects of phase difference, and methods of predicting, testing, checking, and preventing aerodynamic instability-all of these factors are treated herein, as they affect the design of suspension bridges against aerodynamic effects.
Rigidity and Aerodynamic Stability of Suspension Bridges
Coefficients of rigidity, natural oscillation periods, excitation and amplification of vertical and torsional oscillations, aerodynamic forces and moments, lift and torque graphs, velocity relations, energy relations, positive and negative damping effects, critical wind velocities, rates of amplification, limiting amplitudes, effects of phase difference, and methods of predicting, testing, checking, and preventing aerodynamic instability-all of these factors are treated herein, as they affect the design of suspension bridges against aerodynamic effects.
Rigidity and Aerodynamic Stability of Suspension Bridges
Steinman, D. B. (author)
Transactions of the American Society of Civil Engineers ; 110 ; 439-475
2021-01-01
371945-01-01 pages
Article (Journal)
Electronic Resource
Unknown
Rigidity and aerodynamic stability of suspension bridges
| Engineering Index Backfile | 1944
Rigidity and aerodynamic stability of suspension bridges
| Engineering Index Backfile | 1945
Aerodynamic stability of suspension bridges
| Engineering Index Backfile | 1947
Aerodynamic stability of suspension bridges
Engineering Index Backfile | 1952