Current trends and innovations in porometry and porosimetry applicable to battery separator testing and development: introducing the Micro-Flow Porometer

Proceedings of 11th Annual Battery Conference on Applications and Advances Pub Date : 1996-01-09 DOI:10.1109/BCAA.1996.485007

C. Stillwell, K. M. Gupta

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Abstract

Pore structure of separators is a critical property for efficiency of batteries and fuel cells. As such, porosity characterization is of great interest to those developing, as well as those manufacturing, these materials. This paper discusses the two most frequently used techniques for porosity characterization: porosimetry and porometry. The strengths and limitations of both testing techniques are discussed with a focus on appropriate test selection to obtain optimal results. This paper also describes the new user-friendly instruments now available from Porous Materials Inc. (PMI) and the advances that have made these techniques more useful for those involved with product development, product improvement, and quality control in the battery separator industry. This paper introduces the new Micro-Flow Porometer, which is capable of testing flow rates as low as 0.0001 cc/min. The usefulness of the Micro-Flow Porometer for battery separator testing is discussed and additional advances in porosimetry are introduced.

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适用于电池隔膜测试和开发的孔隙度测定法和孔隙度测定法的最新趋势和创新:介绍微流孔隙度计

隔膜的孔隙结构是影响电池和燃料电池效率的重要因素。因此，孔隙度表征是那些开发和制造这些材料的人非常感兴趣的。本文讨论了两种最常用的孔隙度表征技术:孔隙度测定法和孔隙度测定法。讨论了两种测试技术的优点和局限性，重点讨论了适当的测试选择以获得最佳结果。本文还介绍了多孔材料公司(PMI)目前提供的新型用户友好型仪器，以及使这些技术对电池隔膜行业中涉及产品开发、产品改进和质量控制的人员更有用的进展。本文介绍了一种新型的微流量孔隙计，它能够测试低至0.0001 cc/min的流量。讨论了微流孔计在电池隔膜测试中的作用，并介绍了孔计的其他研究进展。

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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Proceedings of 11th Annual Battery Conference on Applications and Advances

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