Add to ORKGStudies on a number of types of nickel electrodes after cycle failure in a Ni/H2 cell showed that the failure is due to the loss of high rate discharge capability rather than an absolute capacity loss. The failure mechanism is speculated to be a combination of migration of the active material away from the current collecting nickel sinter, increased porosity of the active material caused by cycling, and an electrical isolation process of the active material during discharge
A mathematical equation is presented which gives a quantitative relationship between time-voltage di...
Over 6,9000 Low Earth Orbit cycles were accumulated at 30% Depth of Discharge on twelve INTELSAT-des...
The 3.5 inch, 50 ampere-hour nickel-hydrogen cell was on a Low Earth Orbit (LEO) test regime and was...
Six ampere hour individual pressure vessel nickel hydrogen cells were charge/discharge cycled to fai...
The nickel electrode has been identified as the life limiting component for individual pressure vess...
KOH concentration effects on cycle life of a Ni/H2 cell have been studied by carrying out a cycle li...
During recent years there have been a number of instances where the capacity of nickel hydrogen batt...
Yardney Manufacturing Technology (MANTECH) 50 A-hr space weight individual pressure vessel nickel-hy...
Research and operational experience with capacity fade in nickel cadmium and nickel hydrogen cells a...
Advanced designs for individual pressure vessel nickel hydrogen cells were conceived which should im...
Six 48-Ah individual pressure vessel (IPV) Ni/H2 cells containing 26 and 31 percent KOH electrolyte ...
Negatively precharged nickel hydrogen cells will experience a useable capacity loss during extended ...
The current major activites in nickel hydrogen technology being addressed at Yardney Battery Divisio...
A cycle life test of Ni/H2 cells containing electrolytes of various KOH concentrations and a sintere...
A study was undertaken to examine the capacity maintenance features of SUPER nickel-cadmium cells wh...
A mathematical equation is presented which gives a quantitative relationship between time-voltage di...
Over 6,9000 Low Earth Orbit cycles were accumulated at 30% Depth of Discharge on twelve INTELSAT-des...
The 3.5 inch, 50 ampere-hour nickel-hydrogen cell was on a Low Earth Orbit (LEO) test regime and was...
Six ampere hour individual pressure vessel nickel hydrogen cells were charge/discharge cycled to fai...
The nickel electrode has been identified as the life limiting component for individual pressure vess...
KOH concentration effects on cycle life of a Ni/H2 cell have been studied by carrying out a cycle li...
During recent years there have been a number of instances where the capacity of nickel hydrogen batt...
Yardney Manufacturing Technology (MANTECH) 50 A-hr space weight individual pressure vessel nickel-hy...
Research and operational experience with capacity fade in nickel cadmium and nickel hydrogen cells a...
Advanced designs for individual pressure vessel nickel hydrogen cells were conceived which should im...
Six 48-Ah individual pressure vessel (IPV) Ni/H2 cells containing 26 and 31 percent KOH electrolyte ...
Negatively precharged nickel hydrogen cells will experience a useable capacity loss during extended ...
The current major activites in nickel hydrogen technology being addressed at Yardney Battery Divisio...
A cycle life test of Ni/H2 cells containing electrolytes of various KOH concentrations and a sintere...
A study was undertaken to examine the capacity maintenance features of SUPER nickel-cadmium cells wh...
A mathematical equation is presented which gives a quantitative relationship between time-voltage di...
Over 6,9000 Low Earth Orbit cycles were accumulated at 30% Depth of Discharge on twelve INTELSAT-des...
The 3.5 inch, 50 ampere-hour nickel-hydrogen cell was on a Low Earth Orbit (LEO) test regime and was...