Interface Reactions Between Sealing Glass and Metal Interconnect Under Static and Dynamic Heat Treatment Conditions

Journal of Fuel Cell Science and Technology Pub Date : 2015-12-01 DOI:10.1115/1.4032337

Lianwei Peng, Qingshan Zhu, Z. Xie, Ping Wang

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引用次数: 8

Abstract

Chemical compatibility of sealing glass with metal interconnects is a critical issue for planar solid oxide fuel cell (SOFC). In this paper, interface reactions between a sealing glass and a ferritic metal interconnect (SS410) are tested under three different heat treatment conditions: sealing (static), aging (static), and thermal cycling (dynamic). The results show that the BaCrO4 crystals with two different morphology (round-shaped and needle-shaped) form both at the three-phase boundary (where air, glass, and SS410 meet) and on the surface of the sealing glass under the three conditions. Round-shaped BaCrO4 crystals form with low O-2 concentration and short reaction time. Needle-shaped BaCrO4 crystals form with high O-2 concentration and long reaction time. For the thermal cycling condition, the BaCrO4 formed at early stages causes the delamination of the sealing interface. Then, O-2 diffuses into the interior interface along the delamination path, which results in the formation of BaCrO4 at the interior interface. The delaminationenhanced BaCrO4 formation during thermal cycling will lead to crack along the sealing interface, causing the striking increase of leak rates.

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静态和动态热处理条件下密封玻璃与金属互连的界面反应

密封玻璃与金属连接件的化学相容性是平面固体氧化物燃料电池(SOFC)的关键问题。本文测试了密封玻璃与铁素体金属互连(SS410)在三种不同热处理条件下的界面反应:密封(静态)、老化(静态)和热循环(动态)。结果表明，在三种条件下，在三相边界(空气、玻璃和SS410相遇处)和密封玻璃表面均形成了两种不同形态的BaCrO4晶体(圆形和针状)。在较低的o2浓度和较短的反应时间内形成圆形的BaCrO4晶体。反应时间长，O-2浓度高，形成针状BaCrO4晶体。在热循环条件下，早期形成的BaCrO4会导致密封界面分层。然后，O-2沿脱层路径扩散到内部界面，导致内部界面形成BaCrO4。热循环过程中分层增强的BaCrO4形成将导致沿密封界面产生裂缝，导致泄漏率显著增加。

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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来源期刊

Journal of Fuel Cell Science and Technology 工程技术-电化学

自引率

0.00%

发文量

审稿时长

6-12 weeks

期刊介绍： The Journal of Fuel Cell Science and Technology publishes peer-reviewed archival scholarly articles, Research Papers, Technical Briefs, and feature articles on all aspects of the science, engineering, and manufacturing of fuel cells of all types. Specific areas of importance include, but are not limited to: development of constituent materials, joining, bonding, connecting, interface/interphase regions, and seals, cell design, processing and manufacturing, multi-scale modeling, combined and coupled behavior, aging, durability and damage tolerance, reliability, availability, stack design, processing and manufacturing, system design and manufacturing, power electronics, optimization and control, fuel cell applications, and fuels and infrastructure.