Reduced-order model of optimal temperature control for the automated fibre placement process

Industrialising manufacturing processes for aeronautic composite parts is a challenging issue. Among the existing techniques, the Automated Fibre Placement (AFP) is a promising one, since it allows the making of large and complex pieces with good productivity and repeatability. However, in order to...

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Bibliographic Details
Published inComptes rendus. Mecanique Vol. 346; no. 7; pp. 556 - 570
Main Authors Bur, Nicolas, Joyot, Pierre, Villon, Pierre
Format Journal Article
LanguageEnglish
Published Elsevier Masson SAS 01.07.2018
Académie des sciences (Paris)
Subjects
Automated Fibre Placement
Composites
Engineering Sciences
Mechanics
Model order reduction
Numerical simulation
Optimal control
Proper Generalized Decomposition
Simulation based control
Structural mechanics
Composites
Simulation based control
Optimal control
Proper Generalized Decomposition
Automated Fibre Placement
Numerical simulation
Model order reduction
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Summary:Industrialising manufacturing processes for aeronautic composite parts is a challenging issue. Among the existing techniques, the Automated Fibre Placement (AFP) is a promising one, since it allows the making of large and complex pieces with good productivity and repeatability. However, in order to ensure the regulatory requirements, the process must be controlled efficiently. In this paper, we propose the off-line computation of a parametric solution to a minimisation problem subject to heat equation. To solve this saddle-point problem with the so-called PGD method, we considered using Uzawa's technique or the Ideal Minimal Residual-based formulation, the aim being real-time control of the heat source within the AFP process.
ISSN:1631-0721
1873-7234
1873-7234
DOI:10.1016/j.crme.2018.04.007