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Low temperature processed MnCo₂O₄ and MnCo_1.8Fe_0.2O₄ as effective protective coatings for solid oxide fuel cell interconnects at 750 °C

机译：低温处理的mnCo _{2 O _{4 和mnCo _{1.8 Fe _{0.2 O _{4 用于固体氧化物燃料电池互连的有效保护涂层，温度为750°C}}}}}

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In this study two materials, MnCo2O4 and MnCo1.8Fe0.2O4 are studied as potential protective coatings for Solid Oxide Fuel Cell interconnects working at 750 °C. First powder fabrication by a modified Pechini method is described followed by a description of the coating procedure. The protective action of the coating applied on Crofer 22 APU is evaluated by following the area specific resistance (ASR) of the scale/coating for 5500 h including several thermal cycles. The coating is prepared by brush painting and has a porous structure after deposition. Post mortem microstructural characterization performed on the coated samples shows good protection against chromium diffusion from the chromia scale ensured by a formation of a dense reaction layer. This study shows, that even without high temperature sintering and/or reactive sintering it is possible to fabricate protective coatings based on MnCo spinels.

机译：在这项研究中，研究了两种材料MnCo2O4和MnCo1.8Fe0.2O4作为在750°C下工作的固体氧化物燃料电池互连件的潜在保护涂层。首先描述通过改进的Pechini方法制造粉末，然后描述涂覆过程。通过遵循5500小时的氧化皮/涂层的面积比电阻（ASR）（包括多个热循环）来评估在Crofer 22 APU上施加的涂层的保护作用。该涂层通过刷涂制备，并且在沉积后具有多孔结构。对涂覆的样品进行的事后微观结构表征显示出良好的保护作用，防止铬从氧化铬鳞片上扩散，这是通过形成致密的反应层而确保的。该研究表明，即使不进行高温烧结和/或反应烧结，也可以制造基于MnCo尖晶石的保护涂层。

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Molin Sebastian; Jasinski P.; Mikkelsen Lars; Zhang W.; Chen Ming; Hendriksen Peter Vang;
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年度 2016
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1. Low temperature processed MnCo2O4 and MnCo1.8Fe0.2O4 as effective protective coatings for solid oxide fuel cell interconnects at 750 degrees C [J] . Molin S., Jasinski P., Mikkelsen L., Journal of power sources . 2016,第deca30期

机译：低温处理的MnCo2O4和MnCo1.8Fe0.2O4作为在750摄氏度下用于固体氧化物燃料电池互连的有效保护涂层
2. Low temperature deposition of dense MnCo(2)O4 protective coatings for steel interconnects of solid oxide cells [J] . Kamecki B., Karczewski J., Miruszewski T., Journal of the European Ceramic Society . 2018,第13期

机译：用于钢互连的稠密MNCO（2）O4保护涂层的低温沉积
3. Oxidation behavior of Cu-doped MnCo2O4 spinel coating on ferritic stainless steels for solid oxide fuel cell interconnects [J] . Xiao Jinhua, Zhang Wenying, Xiong Chunyan, International journal of hydrogen energy . 2016,第22期

机译：固体氧化物燃料电池互连的铁素体不锈钢上掺杂Cu的MnCo2O4尖晶石涂层的氧化行为
4. APS Deposition of MnCo_2O_4 on Commercial Alloys K41X Used asSolid Oxide Fuel Cell Interconnect: The Importance of Post Heat-Treatment forDensification of the Protective Layer [C] . E. Saoutieff, G. Bertrand, M. Zahid, Solid oxide fuel cells 11 (SOFC-XI) . 2009

机译：在用作固体氧化物燃料电池互连件的商用合金K41X上进行MnCo_2O_4的APS沉积：热处理后保护层致密化的重要性
5. Protective/conductive coatings for ferritic stainless steel interconnects used in solid oxide fuel cells. [D] . Shaigan, Nima. 2009

机译：固体氧化物燃料电池中用于铁素体不锈钢互连的保护/导电涂层。
6. Fabrication of low-temperature solid oxide fuel cells with a nanothin protective layer by atomic layer deposition [O] . Sanghoon Ji, Ikwhang Chang, Yoon Ho Lee, 2013

机译：通过原子层沉积制备具有纳米薄保护层的低温固体氧化物燃料电池
7. Cu-Doped Nano- La0.8Sr0.2MnO3 Protective Coatings on Metallic Interconnects for Solid Oxide Fuel Cell Application [O] . Farnoush H.R., Abdoli H., Bozorgmehri S. 2015

机译：用于固体氧化物燃料电池的金属互连上的Cu掺杂纳米La0.8Sr0.2MnO3防护涂层

Low temperature processed MnCo2O4 and MnCo1.8Fe0.2O4 as effective protective coatings for solid oxide fuel cell interconnects at 750 °C

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Low temperature processed MnCo₂O₄ and MnCo_1.8Fe_0.2O₄ as effective protective coatings for solid oxide fuel cell interconnects at 750 °C