在复合材料加工过程中模拟复合传热、树脂流动和压实的数值代码的开发

L. Tredoux, J. Van der Westhuizen
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引用次数: 18

摘要

热固性复合材料的固化和固结是一个复杂的物理过程,涉及热传导、树脂固化、纤维床压实和流体流动。该过程的传热部分或树脂流动部分的有限差分模拟可以在文献中找到。本文发展并实现了控制复合材料加工方程的有限元形式,并通过温度依赖粘度成功地将树脂流动和传热模型结合起来。具体而言,本文(i)通过Ritz公式建立了傅里叶热传导方程和Gutowski/ dav树脂流动方程的有限元形式,(ii)概述了这些方程的计算机实现,(iii)给出了选择的输出结果,以证明仿真程序的工程价值。以高压灭菌工艺为例进行了分析。结果表明,所开发的计算机代码(FCURE)将现有的数学模型与有限元方法的通用性相结合,成为具有工程潜力的仿真工具。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Development of a numerical code that simulates combined heat transfer, resin flow and compaction during composites processing

The cure and consolidation of thermoset composite materials is a complex physical process involving combined heat transfer, resin curing, fibre bed compaction and fluid flow. Finite difference simulations for either the heat transfer part of this process or for the resin flow part can be found in the literature. The present paper develops and implements the finite element form of the equations governing composites processing and successfully combines resin flow and heat transfer modelling through the temperature-dependent viscosity. Specifically, this paper (i) sets up the finite element form of the Fourier heat conduction equation and the Gutowski/Davé resin flow equation through the Ritz formulation, (ii) overviews the computer implementation of these equations and (iii) presents selected output results to demonstrate the engineering value of the simulation program. An autoclave process is analysed as a test case. The results illustrate that the developed computer code (FCURE) combines existing mathematical models with the versatility of the finite element method into a simulation tool with engineering potential.

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