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Ceramic injection moulding (CIM) has advantages for a cost effective fabrication of large-scale, near-net-shape products. In this work, CIM is carried out to prepare porous anode-support for solid oxide fuel cells (SOFC) applications. The CIM process started with a preparation of feedstocks by mixing powder with binder. The feedstock is then injected into the mould of desired shapes. The mouldings were subsequently undergo the removal of the binder (debinding) and, finally, sintering. It is shown that porous nickel oxide-yttria stabilized zirconia (NiO-YSZ) anode-support for SOFC were successfully prepared by CIM technique. In addition, a water-soluble based binder system, consisted mainly of polyethylene glycol (PEG), has been used in this work. This is to avoid the use of organic solvents when wax-based binder was used. Therefore, it can promote more environmentally friendly process. The removal of binder was carried out using water debinding technique. The porous anode for SOFC was subjected to systematic characterisation. The effect of processing parameters, such as powder characteristics and powder/binder ratio has been investigated. Rate of binder removal was also studied. The porous anode specimens were characterised for their properties and microstructure. It was also found that the porosity of the specimens can be controlled by adjusting the sintering temperatures and holding times.

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Fabrication of yttria stabilized zirconia thin films on powder-injected anode substrates by electrophoretic deposition technique for solid oxide fuel cell application

Chauoon

Meepho

Chuankrerkkul

et al. 2018

Thin Solid Films

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Influence of Reaction Medium on Formation of Nanocrystalline YSZ Prepared by Conventional and Modified Solvothermal Process

et al. 2011

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Reduction of Electrode Polarization in Anode-Supported Solid Oxide Fuel Cell

2015

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Malinee Meepho

Samaria-doped ceria nanopowders for heavy metal removal from aqueous solution

Characterisation of NiO-YSZ Porous Anode-Support for Solid Oxide Fuel Cells Fabricated by Ceramic Injection Moulding

Fabrication of yttria stabilized zirconia thin films on powder-injected anode substrates by electrophoretic deposition technique for solid oxide fuel cell application

Influence of Reaction Medium on Formation of Nanocrystalline YSZ Prepared by Conventional and Modified Solvothermal Process

Reduction of Electrode Polarization in Anode-Supported Solid Oxide Fuel Cell

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