Integrated modeling, finite-element analysis, and engineering design for thin-shell structures using subdivision

Autor: Peter Schröder, Michael Ortiz, Fehmi Cirak, Michael J. Scott, Erik K. Antonsson
Rok vydání: 2002
Předmět:
Zdroj: Computer-Aided Design. 34:137-148
ISSN: 0010-4485
DOI: 10.1016/s0010-4485(01)00061-6
Popis: Many engineering design applications require geometric modeling and mechanical simulation of thin flexible structures, such as those found in the automotive and aerospace industries. Traditionally, geometric modeling, mechanical simulation, and engineering design are treated as separate modules requiring different methods and representations. Due to the incompatibility of the involved representations the transition from geometric modeling to mechanical simulation, as well as in the opposite direction, requires substantial effort. However, for engineering design purposes efficient transition between geometric modeling and mechanical simulation is essential. We propose the use of subdivision surfaces as a common foundation for modeling, simulation, and design in a unified framework. Subdivision surfaces provide a flexible and efficient tool for arbitrary topology free-form surface modeling, avoiding many of the problems inherent in traditional spline patch based approaches. The underlying basis functions are also ideally suited for a finite-element treatment of the so-called thin-shell equations, which describe the mechanical behavior of the modeled structures. The resulting solvers are highly scalable, providing an efficient computational foundation for design exploration and optimization. We demonstrate our claims with several design examples, showing the versatility and high accuracy of the proposed method.
Databáze: OpenAIRE
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