MDO-1601 : Multidisciplinary Framework for Optimization of wingboX – 1a

The proposal aims at improving the design process of a wingbox by focusing on the disciplines using the finite element model. The Ecole Polytechnique de Montréal will provide improvements on the aerodynamic loads, create topology optimzation set-up and tools for sizing the structure and develop an image-based methodology for monitoring and measuring the deformation of the wing under load to enable the validation of the design. Carleton University will develop a tool to generate external forces as a function of mass and stiffness distribution changes. Stelia North America will act as a structural supplier by learning how to design and size the wingbox. Bombardier will be integrating these new technologies and support Stelia development while jointly developing a way to dynamically manage the requirements.

Faculty Supervisor:

Sofiane Achiche;Éric Laurendeau;Aurelian Vadean;Éric Laurendeau;Sofiane Achiche

Student:

Partner:

Bombardier Aerospace Inc (Dorval, QC);STELIA Aéronautique Amérique du Nord Inc

Discipline:

Engineering

Sector:

Manufacturing; Transportation and warehousing

University:

École Polytechnique de Montréal; Polytechnique Montréal

Program: