The modeling process of complex assemblies with modern parametric 3D CAD systems generates a large network of various parametric dependencies and parameter information that is difficult to manage. In this paper, a new method and a software solution for extraction and visualization of all parametric information within 3D CAD models are presented. The requirements for the visualization of complex 3D CAD models are discussed and an overall solution concept is described. Based on the general structural analysis of the parametric 3D models, a CAD system-independent graphical language with two forms of visualization will be introduced. A data model to store parametric information from CAD models, as well as a method to export them has been developed. This paper also presents the implementation of the method in CATIA V5 and the validation on a number of CAD models.
Fully parametric 3D CAD models of deep drawing tools require an enormous amount of temporal and financial effort which makes design engineers shy away from it. The Institute of Forming Technology and Machines (IFUM) and the Society for the Advancement of Applied Computer Science (GFaI) are currently developing a new method for the model driven design of deep drawing tools. The core of this method is a graphical modelling language for this domain that is based on and compatible with SysML but improves several diagram types. The new language aims to make the modelling of parametric relations and dependencies easier and less error‐prone.
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