Crofer 22 APU offers a good balance of the properties required for high temperature electrochemistry. This makes Crofer 22 APU a very popular material for. The oxidation kinetics of the Crofer 22 APU steel—uncoated and coated with LSCF48—approximately obeys the parabolic rate law in air at. material used for the experiments was the Crofer 22 APU ferritic stainless steel from ThyssenKrupp VDM GmBH, Germany. The chemical composition of this.

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The manufacture of Crofer 22 APU requires extreme precision at every stage of the production process. During subsequent hot rolling it is important that the temperature window is observed crfoer.

Crofer 22 APU: new material for fuel cells – thyssenkrupp AG

As well as making the electrical connection they also supply the cells with fuel gas and air via gas passages. Normally, metallic materials achieve their long-term stability at such temperatures by means of high chromium content.

However, at temperatures of degrees, the chromium is released and destroys the electrolyte. It can be formed without problems, given ribs or other surface structures and machined using conventional production methods and equipment. The interconnector plates are 222 of Crofer 22 APU.

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Crofer 22 APU: new material for fuel cells

The most important components of the SOFC stack are the interconnector plates between the cells. Crofer 22 APU, an iron-chromium alloy, for the first time qpu the previously conflicting requirements of good high-temperature stability, high electrical conductivity and low coefficient of expansion. Central Press Office for Journalists. In terms of fabrication, however, Crofer 22 APU is just as easy to handle as a standard stainless steel.

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Home Newsroom Press releases. Each cell contains an anode, cathode and ceramic zirconium dioxide as the electrolyte to start the power generation process. Chromium also limits the thermal expansion of the alloy, giving it a similar coefficient of expansion to the surrounding ceramic electrolyte.

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In the melting furnace, where several tons of the alloy are produced in one charge, minimum amounts of alloying elements have to be added in precise quantities. The aim is to use an SOFC plant as a supplement for battery and dynamo. This so-called chromium-manganese spinel prevents chromium evaporation and at the same time assures the necessary electrical conductivity of the interconnector plates.

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While the ceramic materials used previously for the interconnector plates do not have the problem of chromium evaporation, they are unsuitable for economic volume production due to the complex production requirements involved for example in milling the passages for the gas supply. Critical to this is its 0. Products and solutions, The SOFC is a fuel cell variant which works at temperatures up to degrees.

Together with the other alloying elements titanium and manganese, the lanthan ensures that a protective coating of chromium manganese oxide forms on the surface of the interconnector plates as soon as the fuel cell becomes active. The starting materials for energy conversion can be hydrogen, natural gas or reformed gasoline.

The main crofe is the high operating temperature of the fuel cells.