TY - GEN
T1 - Flutter based aeroelastic optimization of an aircraft wing with analytical approach
AU - Nikbay, Melike
AU - Acar, Pinar
PY - 2012
Y1 - 2012
N2 - We present an analytical flutter prediction methodology employing assumed mode technique for three dimensional wing and wing/store configurations. The utter solution makes use of Lagrange formulation for aeroelastic modeling and Theodorsen function for aero- dynamic load calculation. An in-house utter code is developed and validated by using benchmark problems, next applied to Goland and AGARD 445.6 wing models. Flutter results in all cases are in excellent agreement with the reference data. The utter code is further enhanced to enable aeroelastic optimization and uncertainty based utter analysis of AGARD 445.6 wing/store configurations. Firstly, aeroelastic optimization study varying input parameters such as taper ratio, sweep angle, spanwise elasticity and shear modulus is performed to maximize utter boundary of AGARD 445.6 wing and an optimum clean wing model is ascertained. Next, the structural effects of designated external masses are investigated for utter of initial and optimized AGARD 445.6 wing models and optimum configurations of store placement are determined. Finally, structural randomness such as in spanwise elasticity and shear modulus of the wing are propagated through utter analyses and this uncertainty quantification is applied to initial and optimum AGARD 445.6 clean wing models. Finally, for wing/store models, random parameters relevant to store masses, store load placements are added to material property uncertainties and similarly utter boundary uncertainty is examined. In all analyses, uncertainty quantification is accom- plished by Monte Carlo Simulation method with various Coefficient of Variation estimates.
AB - We present an analytical flutter prediction methodology employing assumed mode technique for three dimensional wing and wing/store configurations. The utter solution makes use of Lagrange formulation for aeroelastic modeling and Theodorsen function for aero- dynamic load calculation. An in-house utter code is developed and validated by using benchmark problems, next applied to Goland and AGARD 445.6 wing models. Flutter results in all cases are in excellent agreement with the reference data. The utter code is further enhanced to enable aeroelastic optimization and uncertainty based utter analysis of AGARD 445.6 wing/store configurations. Firstly, aeroelastic optimization study varying input parameters such as taper ratio, sweep angle, spanwise elasticity and shear modulus is performed to maximize utter boundary of AGARD 445.6 wing and an optimum clean wing model is ascertained. Next, the structural effects of designated external masses are investigated for utter of initial and optimized AGARD 445.6 wing models and optimum configurations of store placement are determined. Finally, structural randomness such as in spanwise elasticity and shear modulus of the wing are propagated through utter analyses and this uncertainty quantification is applied to initial and optimum AGARD 445.6 clean wing models. Finally, for wing/store models, random parameters relevant to store masses, store load placements are added to material property uncertainties and similarly utter boundary uncertainty is examined. In all analyses, uncertainty quantification is accom- plished by Monte Carlo Simulation method with various Coefficient of Variation estimates.
UR - http://www.scopus.com/inward/record.url?scp=84881456275&partnerID=8YFLogxK
M3 - Conference contribution
AN - SCOPUS:84881456275
SN - 9781600869372
T3 - Collection of Technical Papers - AIAA/ASME/ASCE/AHS/ASC Structures, Structural Dynamics and Materials Conference
BT - 53rd AIAA/ASME/ASCE/AHS/ASC Structures, Structural Dynamics and Materials Conference
T2 - 53rd AIAA/ASME/ASCE/AHS/ASC Structures, Structural Dynamics and Materials Conference
Y2 - 23 April 2012 through 26 April 2012
ER -