固体自由成形多孔结构的渗透性表征

The Science, Automation, and Control of Material Processes Involving Coupled Transport and Rheology Changes Pub Date : 1999-11-14 DOI:10.1115/imece1999-1254

M. Erdal, Levent Ertoz, S. Güçeri

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引用次数: 3

摘要

基于熔融沉积的固体自由成形制造技术允许为后续的树脂传递成型制造潜在的功能预成型。本文研究了固体自由成形多孔预制体的输运特性(渗透率)。具体来说，研究了孔隙几何形状和网状结构对渗透率的影响。湿(饱和)渗透率实验对不同的孔隙几何形状和不同粘度的液体进行了研究。对于本研究中研究的所有流体和预制体结构，多孔流动均表现出达西安行为。渗透率受流体粘度变化的影响，这种影响在低孔隙度预制件中尤为显著。目前的工作集中在干渗透率测量和有序孔隙几何(通过SFF产生)的数值渗透率模型的发展，这些模型将与实验结果进行比较。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Characterization of Permeability for Solid Freeform Fabricated Porous Structures

Fused deposition based solid freeform fabrication technique allows manufacturing of potential functional preforms for subsequent Resin Transfer Molding. In this study, the transport property (permeability) of solid freeform fabricated porous preform geometries are investigated. Specifically the effect of pore geometry and network on the permeability is sought. Wet (saturated) permeability experiments were performed for various pore geometries with different viscosity liquids. For all fluids and preform structures investigated in this study, the porous flow exhibited Darcian behavior. The permeability is affected by changes in order of magnitude of fluid viscosity, the effect considerably significant in low porosity preforms. Current work concentrates on dry permeability measurement and development of numerical permeability models for ordered pore geometries (as produced through SFF) that will be compared with experimental results.

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The Science, Automation, and Control of Material Processes Involving Coupled Transport and Rheology Changes

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