A CONCENTRATION-DEPENDENT DIFFUSION MODEL FOR SELECTIVE ULTRASONIC FOAMING

机译：选择性超声发泡的浓度相关扩散模型

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摘要

A novel technique was developed for the fabrication of porous polymer for biomedical applications using selective ultrasonic foaming. It was found that the gas concentration of saturated polymer samples plays an important role in the creation of open celled, interconnected porous structures. In this paper, we present a concentration-dependent diffusion model for PMMA-CO_2 gas polymer system to understand the open-cell mechanism in the selective ultrasonic foaming process. An explicit finite difference scheme was employed to solve the nonlinear gas diffusion equation. By comparing with the polymer gas saturation data, a necessary condition for open celled structure is established in terms of the gas concentration levels.

机译：开发了一种新技术，用于使用选择性超声发泡技术制造用于生物医学的多孔聚合物。发现饱和聚合物样品的气体浓度在开孔，互连多孔结构的产生中起重要作用。在本文中，我们提出了一种浓度依赖性的PMMA-CO_2气体聚合物扩散模型，以了解选择性超声发泡过程中的开孔机理。采用显式有限差分法求解非线性气体扩散方程。通过与聚合物气体饱和度数据进行比较，就气体浓度水平而言，确定了开孔结构的必要条件。

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来源
《ASME(American Society of Mechanical Engineers) International Conference on Manufacturing Science and Engineering; 20071015-18; Atlanta,GA(US)》|2007年|P.83|共1页
会议地点 AtlantaGA(US)
作者
Hai Wang; Wei Li;
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作者单位

Department of Mechanical Engineering University of Washington Seattle, WA 98195-2600;

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会议组织
原文格式 PDF
正文语种 eng
中图分类机械制造工艺;
关键词
process modeling; finite difference scheme; porous polymers; ultrasound; foaming;

机译：过程建模有限差分方案多孔聚合物超声发泡;

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4. A CONCENTRATION-DEPENDENT DIFFUSION MODEL FOR SELECTIVE ULTRASONIC FOAMING [C] . Hai Wang, Wei Li ASME International Conference on Manufacturing Science and Engineering . 2007

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A CONCENTRATION-DEPENDENT DIFFUSION MODEL FOR SELECTIVE ULTRASONIC FOAMING

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