The Design/Analysis integration problem is typified by the requirement to share geometric shape and analysis information in an iterative environment. The integration is made more difficult when composite structures become a part of the problem. Figure 1 illustrates the interconnectivity that this overview addresses. Most production systems currently employ specific point-to-point translators to enable this process, and very few analysis systems are able to seamlessly return geometric shape information to the design shape modeler. With composite structures there are the additional problems of calculating true fiber directions and ply flat patterns that are shared with the manufacturing process. All of this information needs to be shared with commercial or inhouse detailed analysis codes such as those for fastened joints and panel buckling.
Given this problem AP 209 Edition 1 was created to enable:
It is possible to provide separate, but associated, versioning for
the product, the analysis idealisation of the product, and for the
finite element model.
AP 209 Edition 1 covers:
The second Edition of ISO 10303-209 (AP209) has integrated a generic Engineering Analysis capability complimented by specific CFD and generalized mesh based numerical analysis capabilities to the AP209 Edition 1 classical Finite Element Analysis capabilities. The CFD capability is based upon the NASA/AIAA CGNS standard and the Volvo Aero EAR-model work. The generalized structured and unstructured analysis and mesh capabilities are based upon work done in the Generic Engineering Analysis Model (GEM) project from the European Union. In addition there is a complete discrete/continuous mathematical field representation capability that has been added based upon the Daved Talyor Labs/Boeing DT-NURBS package. All of these added capabilities have been integrated into the STEP common resources Parts 50, 51, 52, 53, 107, and 110 as a basis for use in Application Protocols. The intent is that AP209E2 will now address a much wider set of multi-disciplinary analysis and optimization problems
A high-level planning diagram that provides an overview of the contents of AP209E2 is shown in Figure 2. The SC4 community has gone to a modular approach to developing Application Protocols (APs) to promote integration and ease of re-use. Due the modularization of existing AP209 capabilities it is now possible to take advantage of this new SC4 Modular Architecture by embedding the second edition of AP203 and get all the new shape, presentation, and GD&T capabilities.
Figures 3 and 4 provide a more detailed overview of the capabilities of AP209E2. Figure 3 illustrates the AP203E2 capabilities portion of AP209E2. Here there is more detail on the new Presentation, shape, and product characteristic capabilities. Note that the composite structure shape, structure, and material properties capabilities from the first edition of AP209 have now been incorporated into AP203E2. Figure 4 shows more detail of the modular components of the classical Finite Element capability, and the added capabilities for generic structured and unstructured mesh based numerical analysis, CFD, and field based property definition.