Probabilistic Analysis and Design of a Raked Wing Tip for a Commercial Transport | Zendy

Brian H. Mason | Zendy; Tzi-Kang Chen | Zendy; Sharon L. Padula | Zendy; Jonathan B. Ransom | Zendy; W. J. Stroud | Zendy

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Probabilistic Analysis and Design of a Raked Wing Tip for a Commercial Transport

Author(s) -

Brian H. Mason,

Tzi-Kang Chen,

Sharon L. Padula,

Jonathan B. Ransom,

W. J. Stroud

Publication year - 2008

Publication title -

12th aiaa/issmo multidisciplinary analysis and optimization conference

Language(s) - English

Resource type - Conference proceedings

DOI - 10.2514/6.2008-5824

Subject(s) - wing , probabilistic logic , computer science , statistics , engineering , mathematics , aerospace engineering , artificial intelligence

An approach for conducting reliability-based design and optimization (RBDO) of a Boeing 767 raked wing tip (RWT) is presented. The goal is to evaluate the benefits of RBDO for design of an aircraft substructure. A finite-element (FE) model that includes eight critical static load cases is used to evaluate the response of the wing tip. Thirteen design variables that describe the thickness of the composite skins and stiffeners are selected to minimize the weight of the wing tip. A strain-based margin of safety is used to evaluate the performance of the structure. The randomness in the load scale factor and in the strain limits is considered. Of the 13 variables, the wing-tip design was controlled primarily by the thickness of the thickest plies in the upper skins. The report includes an analysis of the optimization results and recommendations for future reliability-based studies.

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