Water-based 8YSZ electrolyte suspension optimised by design of experiments

IF 2.9 Q1 MATERIALS SCIENCE, CERAMICS

Open Ceramics Pub Date : 2024-12-03 DOI:10.1016/j.oceram.2024.100717

Bernardo Jordão Moreira Sarruf , Laura Buccoli , Zoé Barbry

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Abstract

Solid oxide cells are approaching commercial viability, with most of the currently used materials representing state-of-the-art advancements. However, widespread market adoption hinges on reducing costs. In this context, manufacturing improvements—particularly those that minimise material waste during production—can play a crucial role in lowering the capital expenditure (CAPEX) of solid oxide cells, ultimately influencing the levelised cost of fuel for end users.

This study presents an optimisation of electrolyte slurry formulation for tape casting. By controlling variables such as solid loading, binder content, milling parameters, and casting conditions, we achieved reproducible results in electrolyte thickness, porosity, and electrical conductivity.

The slurries were prepared by ball milling, employing a range of compositions that included both low and high solid and binder contents. The resulting rheological profiles, tape quality, thickness, and porosity were carefully evaluated. The experimental design culminated in an optimised composition, for which electrical conductivity was measured using electrochemical impedance spectroscopy. The impedance data were deconvoluted into grain bulk and grain boundary contributions, enabling further refinement of the sintering temperature and subsequent microstructure.

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通过实验设计对水基8YSZ电解质悬浮液进行了优化

固体氧化物电池正在接近商业可行性，目前使用的大多数材料都代表了最先进的技术。然而，市场的广泛采用取决于降低成本。在这种情况下，制造技术的改进——特别是那些在生产过程中最大限度地减少材料浪费的改进——可以在降低固体氧化物电池的资本支出（CAPEX）方面发挥关键作用，最终影响最终用户的燃料成本。本研究提出了一种带状铸造用电解液配方的优化方法。通过控制固体载荷、粘结剂含量、铣削参数和铸造条件等变量，我们在电解质厚度、孔隙率和电导率方面获得了可重复的结果。浆料是通过球磨制备的，采用一系列的成分，包括低和高固体和粘结剂含量。我们仔细地评估了所得的流变曲线、胶带质量、厚度和孔隙度。实验设计最终优化了组合物，并使用电化学阻抗谱测量了其电导率。阻抗数据被解卷积为晶粒体积和晶界贡献，从而进一步细化烧结温度和随后的微观结构。

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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