Beskrivelse
2. Static aeroelasticity. - 2. 1 Typical section model of an airfoil. - 2. 2 One dimensional aeroelastic model of airfoils. - 2. 3 Rolling of a straight wing. - 2. 4 Two dimensional aeroelastic model of lifting surfaces. - 2. 5 Nonairfoil physical problems. - 2. 6 Sweptwing divergence. - 3. Dynamic aeroelasticity. - 3. 1 Hamilton's principle. - 3. 2 Lagrange's equations. - 3. 3 Dynamics of the typical section model of an airfoil. - 3. 4 Aerodynamic forces for airfoilsan introduction and summary. - 3. 5 Solutions to the aeroelastic equations of motion. - 3. 6 Representative results and computational considerations. - 3. 7 Generalized equations of motion for complex structures. - 3. 8 Nonairfoil physical problems. - 4. Nonsteady aerodynamics of lifting and non-lifting surfaces. - 4. 1 Basic fluid dynamic equations. - 4. 2 Supersonic flow. - 4. 3 Subsonic flow. - 4. 4 Representative numerical results. - 4. 5 Transonic flow. - 5. Stall flutter. - 5. 1 Background. - 5. 2 Analytical formulation. - 5. 3 Stability and aerodynamic work. - 5. 4 Bending stall flutter. - 5. 5 Nonlinear mechanics description. - 5. 6 Torsional stall flutter. - 5. 7 General comments. - 5. 8 Reduced order models. - 5. 9 Computational stalled flow. - 6. Aeroelastic problems of civil engineering structures. - 6. 1 Vortex shedding. - 6. 2 Galloping. - 6. 3 Divergence. - 6. 4 Flutter and buffeting. - 7. Aeroelastic response of rotorcraft. - 7. 1 Blade dynamics. - 7. 2 Stall flutter. - 7. 3 Rotor-body coupling. - 7. 4 Unsteady aerodynamics. - 8. Aeroelasticity in turbomachines. - 8. 1 Aeroelastic environment in turbomachines. - 8. 2 The compressor performance map. - 8. 3 Blade mode shapes and materials of construction. - 8. 4 Nonsteady potential flow in cascades. - 8. 5 Compressible flow. - 8. 6 Periodically stalled flow in turbomachines. - 8. 7 Stall flutter in turbomachines. - 8. 8 Chokingflutter. - 8. 9 Aeroelastic eigenvalues. - 8. 10 Recent trends. - 9. Unsteady transonic aerodynamics and aeroelasticity. - Summary. - Nomenclature. - 9. 1 Introduction. - 9. 2 Linear / nonlinear behavior in unsteady transonic aerodynamics. - 9. 3 Viable alternative solution procedures to finite difference methods. - 9. 4 Nonuniqueness. - 9. 5 Effective efficient computational approaches for determining aeroelastic response. - 9. 6 Nonlinear flutter analysis in the frequency domain. - 9. 7 Concluding remarks. - 10. Experimental aeroelasticity. - 10. 1 Review of structural dynamics experiments. - 10. 2 Wind tunnel experiments. - 10. 3 Flight experiments. - 10. 4 The role of experimentation and theory in design. - 11. Nonlinear aeroelasticity. - Abstract. - 11. 1 Introduction. - 11. 2 The physical domain of nonlinear aeroelasticity. - 11. 3 The mathematical consequences of nonlinearity. - 11. 4 Representative results. - 11. 5 The future. - 12. Aeroelastic control. - 12. 1 Objectives and elements of aeroelastic control. - 12. 2 Modeling for aeroelastic control. - 12. 3 Control modeling of the typical section. - 12. 4 Control design for the typical section. - Appendix I A primer for structural response to random pressure fluctuations. - References for Appendix I. - Appendix II Some example problems. Language: English
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Fruugo ID:
337497632-741135559
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ISBN:
9780792327899
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