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Modification of ceramic components for the sodium nickel chloride battery

The ZEBRA battery based on Na/NiCb chemistry shows promise for powering
electric vehicles and load leveling systems. The ZEBRA cell consists of a liquid sodium
negative electrode separated from the positive electrode by a W'-alumina solid electrolyte.
The current state of development of this battery makes use of glass sealing and thermo
compression sealing as an integral part of the cell assembly. One objective of the present research was to reduce the thickness of the W'alumina electrolyte thickness as a means to improve perfomance, by lowering the internal cell resistance. The second objective was to develop a ceramic seal with matching thermal expansion coefficient (TEC) to increase battery durability. An added
benefit realized with the new ceramic seal was its use for high temperature applications
such as emf measurements ordinary systems to determine thermodynamic properties. Dense electrolyte tubes with reduced thickness of less than 100 J..Lm and supported
on a porous substrate were successfully produced by slip casting. The slip casting
parameters, sintering conditions and materials were optimized and electrolyte resistance
was measured by a DC method. A ceramic seal was developed from a eutectic mixture of Na20 and Al203 and tested in galvanic cells. The reproducibility of the emf data shows that the seal is fully impervious and can sustain a high alkali pressure atmosphere up to 1 000°C without
cracking or degradation. The seal microstructure revealed liquid phase formation of the
seal and diffusion bonding with the lid and tube. The thermodynamic properties and phase relations of the Na-Si binary system were studied by the emf method using Na|β-alumina|Si-Na galvanic cells over the whole composition range below 600°C. There is very limited solubility of Si in molten Na. Properties of the sodium silicon compounds were determined from the emf
measurements. / Thesis / Doctor of Philosophy (PhD)

Identiferoai:union.ndltd.org:mcmaster.ca/oai:macsphere.mcmaster.ca:11375/21087
Date01 1900
CreatorsMali, Amin
ContributorsPetric, Anthony, Materials Science and Engineering
Source SetsMcMaster University
LanguageEnglish
Detected LanguageEnglish

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