Add to ORKGImproved inorganic-organic separators developed by NASA were commercially prepared. A single-ply asbestos substrate was developed, as well as alternative substrates based on cellulose and on polypropylene fibers. The single-ply asbestos was bound with butyl rubber and was functionally superior to the formerly used polyphenylene oxide saturated sheet. Commercially prepared separators exhibited better measured separator properties than the NASA standard. Cycle life in Ni/Zn and Ag/Zn cells was related to substrate, decreasing in the order; asbestos cellulose paper nonwoven polypropylene. The cycle life of solvent-coated separators was better than aqueous in Ni/Zn cells, while aqueous coatings were better in Ag/Zn cells
Developmental work resulted in a formulation which can improve the flexibility of the inorganic-orga...
Development and testing of vivyl polymer separator materials for sterilized silver-zinc secondary ba...
Silver oxide diffusion tests on separator membranes for use in silver oxide-cadmium and silver oxide...
Control of resistivity in NASA inorganic-organic separators is achieved by incorporating small perce...
Chemical and electrochemical compatibility of fuel cell type asbestos, zirconia, and ceria for use i...
Several flexible, low-cost inorganic-organic separators with performance characteristics and cycle l...
Asbestos and polypropylene separators for nickel-cadmium cells which are sterilize
This project was initiated to develop alternative separator materials to the previously used asbesto...
Control of resist ivity in NASA inorganic-organic separators is achieved by incorporating small perc...
Absorber evaluation of alkaline battery separator systems with electrolyte wetting and wicking measu...
The separator technology is a critical element in the nickel-hydrogen (Ni-H2) systems. Previous rese...
Separators for silver oxide-zinc and silver oxide- cadmium cells for spacecraft applicatio
Separator compositions have been tested as components of three-plate silver-zinc oxide cells in a st...
The results of three experimental studies related to the inorganic/organic battery separator operati...
Improved separators for silver oxide-zinc and silver oxide-cadmium cells - flexibility and electroly...
Developmental work resulted in a formulation which can improve the flexibility of the inorganic-orga...
Development and testing of vivyl polymer separator materials for sterilized silver-zinc secondary ba...
Silver oxide diffusion tests on separator membranes for use in silver oxide-cadmium and silver oxide...
Control of resistivity in NASA inorganic-organic separators is achieved by incorporating small perce...
Chemical and electrochemical compatibility of fuel cell type asbestos, zirconia, and ceria for use i...
Several flexible, low-cost inorganic-organic separators with performance characteristics and cycle l...
Asbestos and polypropylene separators for nickel-cadmium cells which are sterilize
This project was initiated to develop alternative separator materials to the previously used asbesto...
Control of resist ivity in NASA inorganic-organic separators is achieved by incorporating small perc...
Absorber evaluation of alkaline battery separator systems with electrolyte wetting and wicking measu...
The separator technology is a critical element in the nickel-hydrogen (Ni-H2) systems. Previous rese...
Separators for silver oxide-zinc and silver oxide- cadmium cells for spacecraft applicatio
Separator compositions have been tested as components of three-plate silver-zinc oxide cells in a st...
The results of three experimental studies related to the inorganic/organic battery separator operati...
Improved separators for silver oxide-zinc and silver oxide-cadmium cells - flexibility and electroly...
Developmental work resulted in a formulation which can improve the flexibility of the inorganic-orga...
Development and testing of vivyl polymer separator materials for sterilized silver-zinc secondary ba...
Silver oxide diffusion tests on separator membranes for use in silver oxide-cadmium and silver oxide...