Open AccessLevel-Set Topology Optimization with Aeroelastic Constraints
Author(s) -
Peter D. Dunning,
Bret Stanford,
Hyunsun A. Kim
Publication year - 2015
Publication title -
56th aiaa/asce/ahs/asc structures, structural dynamics, and materials conference
Language(s) - English
Resource type - Conference proceedings
DOI - 10.2514/6.2015-1128
Subject(s) - aeroelasticity , topology optimization , topology (electrical circuits) , set (abstract data type) , computer science , mathematical optimization , mathematics , aerodynamics , engineering , structural engineering , aerospace engineering , finite element method , combinatorics , programming language
Level-set topology optimization is used to design a wing considering skin buckling under static aeroelastic trim loading, as well as dynamic aeroelastic stability (flutter). The level-set function is defined over the entire 3D volume of a transport aircraft wing box. Therefore, the approach is not limited by any predefined structure and can explore novel configurations. The Sequential Linear Programming (SLP) level-set method is used to solve the constrained optimization problems. The proposed method is demonstrated using three problems with mass, linear buckling and flutter objective and/or constraints. A constraint aggregation method is used to handle multiple buckling constraints in the wing skins. A continuous flutter constraint formulation is used to handle difficulties arising from discontinuities in the design space caused by a switching of the critical flutter mode.
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