论文信息 - Composite part design based on numerical simulation of the manufacturing process

Composite part design based on numerical simulation of the manufacturing process

In aeronautics, the decreased density of structural components is a major factor to consider in order to satisfy economic, environmental, and technical requirements. Using composite materials is justifying good weight to mechanical strength compromise. Mechanical strength depends on shapes, dimensions, and materials defined at the design stage and in manufacturing and assembling process of the part. In this article, a general method is proposed to evaluate the performance of the design choices based on the failure risk of an assembled part. This evaluation integrates manufacturing deviations from the shaping operation (resin transfer molding). Three criteria are derived from numerical simulations of RTM process and assembly phase. These criteria assist the designer early in the design cycle to appreciate the consequences of manufacturing choices on the mechanical strength of an assembled part. The approach will be applied to an airplane component.

Serge Mouton | Denis Teissandier | Yann Ledoux | Patrick Sébastian

[1] V. P. Agrawal,et al. Design for ‘X’-abilities of RTM Products - A Graph Theoretic Approach , 2006, Concurr. Eng. Res. Appl..

[2] Ben Wang,et al. Optimum arrangement of gate and vent locations for RTM process design using a mesh distance-based approach , 2002 .

[3] Lloyd V. Smith,et al. A linear finite element model to predict processing-induced distortion in FRP laminates , 2005 .

[4] Jun Li,et al. Curing Deformation Analysis for the Composite T-shaped Integrated Structures , 2008 .

[5] C. Dong. Dimension variation prediction and control for composites , 2003 .

[6] Serge Mouton,et al. MANUFACTURING REQUIREMENTS IN DESIGN: THE RTM PROCESS IN AERONAUTICS , 2008 .

[7] Ben Wang,et al. Optimum tooling design for resin transfer molding with virtual manufacturing and artificial intelligence , 2001 .

[8] Christos Kassapoglou. Minimum cost and weight design of fuselage frames: Part A: design constraints and manufacturing process characteristics , 1999 .

[9] Z. Hashin. Analysis of Composite Materials—A Survey , 1983 .

[10] Edu Ruiz,et al. Porosity reduction using optimized flow velocity in Resin Transfer Molding , 2008 .

[11] Larry Lessard,et al. Optimization of RTM processing parameters for Class A surface finish , 2008 .

[12] Donald F. Adams,et al. Analysis of Composite Materials , 2002 .

[13] Frédéric Ratle,et al. Evolutionary operators for optimal gate location in liquid composite moulding , 2009, Appl. Soft Comput..