Add to ORKGThis work considers an aeroelastic wingbox model seeded with run-out blade stiffeners along the skins. Topology optimization is conducted within the shell webs of the stiffeners, in order to add cutouts and holes for mass reduction. This optimization is done with a global-local approach in order to moderate the computational cost: aeroelastic loads are computed at the wing-level, but the topology and sizing optimization is conducted at the panel-level. Each panel is optimized separately under stress, buckling, and adjacency constraints, and periodically reassembled to update the trimmed aeroelastic loads. The resulting topology is baselined against a design with standard full-depth solid stiffener blades, and found to weigh 7.43% less
This paper considers the aeroelastic optimization of a subsonic transport wingbox under a variety of...
Topology optimization is the process of optimizing both the material layout and the connectivity ins...
The design of structures is motivated by the requirement that performance goals must be met at the l...
The goals of this work are to 1) develop an optimization algorithm that can simultaneously handle a ...
Several topology optimization problems are conducted within the ribs and spars of a wing box. It is ...
This work is funded by the Fixed Wing Project under NASA’s Fundamental Aeronautics Program.Peer revi...
A series of aeroelastic optimization problems are solved on a high aspect ratio wingbox of the Commo...
This paper investigates the weight minimization of stiffened panels simultaneously optimizing sizing...
This paper presents a method for simultaneous optimization of the outer shape and internal topology ...
In aeroelastic research the interaction between the structural wing and the aerodynamics is investig...
Metallic blade-stiffenedpanels are optimized for various eigenvaluemetrics of interest to the aerosp...
A series of novel algorithms for performing aerostructural shape and topology optimization are intro...
In this paper, the wing box of an aircraft is optimized using a level set topology optimization meth...
This paper demonstrates a technique for locating the optimal control surface layout of an aeroservoe...
This work considers the multi-objective aeroelastic optimization of a membrane micro air vehicle win...
This paper considers the aeroelastic optimization of a subsonic transport wingbox under a variety of...
Topology optimization is the process of optimizing both the material layout and the connectivity ins...
The design of structures is motivated by the requirement that performance goals must be met at the l...
The goals of this work are to 1) develop an optimization algorithm that can simultaneously handle a ...
Several topology optimization problems are conducted within the ribs and spars of a wing box. It is ...
This work is funded by the Fixed Wing Project under NASA’s Fundamental Aeronautics Program.Peer revi...
A series of aeroelastic optimization problems are solved on a high aspect ratio wingbox of the Commo...
This paper investigates the weight minimization of stiffened panels simultaneously optimizing sizing...
This paper presents a method for simultaneous optimization of the outer shape and internal topology ...
In aeroelastic research the interaction between the structural wing and the aerodynamics is investig...
Metallic blade-stiffenedpanels are optimized for various eigenvaluemetrics of interest to the aerosp...
A series of novel algorithms for performing aerostructural shape and topology optimization are intro...
In this paper, the wing box of an aircraft is optimized using a level set topology optimization meth...
This paper demonstrates a technique for locating the optimal control surface layout of an aeroservoe...
This work considers the multi-objective aeroelastic optimization of a membrane micro air vehicle win...
This paper considers the aeroelastic optimization of a subsonic transport wingbox under a variety of...
Topology optimization is the process of optimizing both the material layout and the connectivity ins...
The design of structures is motivated by the requirement that performance goals must be met at the l...