Optimal design for polymer extrusion. Part I: Sensitivity analysis for nonlinear steady-state systems

Douglas E. Smith; Daniel A. Tortorelli; Charles L. Tucker III

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Optimal design for polymer extrusion. Part I: Sensitivity analysis for nonlinear steady-state systems

机译：聚合物挤出的最佳设计。第一部分：非线性稳态系统的灵敏度分析

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We present a general framework to obtain analytical design sensitivities for steady-state nonlinear systems where special emphasis is given to design variables that define prescribed boundary conditions. The sensitivities are derived for a general response functional using both the direct and adjoint methods and are compared to show that the two sensitivity analysis methods yield identical expressions. Both adjoint and direct sensitivities for the generalized Hele-Shaw system, which models the flow of purely viscous non-Newtonian fluids through thin cavities, are obtained using weak formulations and then discretized for the finite element analysis.

机译：我们提出了一个总体框架，以获得稳态非线性系统的分析设计灵敏度，其中特别强调了定义规定边界条件的设计变量。使用直接方法和伴随方法得出通用响应函数的灵敏度，并进行比较以显示两种灵敏度分析方法产生相同的表达式。广义Hele-Shaw系统的伴随灵敏度和直接灵敏度都可以通过弱公式获得，然后通过离散化将其离散化，以进行有限元分析。广义Hele-Shaw系统通过薄腔模拟纯粘性非牛顿流体的流动。

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《Computer Methods in Applied Mechanics and Engineering》 |1998年第4期|p.283-302|共20页
作者
Douglas E. Smith; Daniel A. Tortorelli; Charles L. Tucker III;
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收录信息美国《科学引文索引》(SCI);美国《工程索引》(EI);
原文格式 PDF
正文语种 eng
中图分类自动化基础理论;工程基础科学;
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Optimal design for polymer extrusion. Part I: Sensitivity analysis for nonlinear steady-state systems

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