Charging efficiency

Acetylene/carbon black is also quite effective but has an initial irreversible capacity that cannot be ignored. The amount of irreversible loss for acetylene black component ranges up to 20%. The particle size of conductive additives is recommended to be less than 5 microns. The addition is very effective to improve to improve 1) cycle life, 2) high power capability, and 3) the initial charge efficiency (reduce the initial irreversible... 

Hollow Charge (or Munroe-Neumann Effect) Efficiency Tests. See Shaped Charge or Hollow Charge Efficiency in Vol 1, p XXIII... 

Cavity Charge Efficiency. See Shaped Charge Efficiency... 

Shaped charge Efficiency. See Vol 1, pp XXIII and under Detonation, Munroe-Neumann Effect in Vol 4, pp D442-R to D454-L... 

Cavity Charge Performance. See Shaped(or Hollow) Charge Efficiency in this section... 

Lehalleur(1935),66—7 4)Vivas, Feigeospan Ladreda, Vol 4(1944), 116—17 5)Perez Ara(l945), 120 Munroe-Neumann Effect Test. See Shaped Charge Efficiency Test... 

Cells with ternary and buffered electrolytes have been studied, as have electrolytes with various additives. The disparity in charging efficiencies between the two electrodes is a significant technical problem still to be solved. 

Vennin et al(Ref 2) do not recommend this test for brisant expls. (Compare with Ballistic Mortar and with Ballistic Pendulum Tests). Refs l)Barnett(1919)i 181—2 2)Vennin, Burlot Le corche (1932), 189 3)Pepin Lehalleur(1935),66—7 4)Vivas, Feigenspan Ladreda, Vol 4(1944),116—17 5)Perex Ara(1945), 120 Munroe-Noumann Effect Test. See Shaped Charge Efficiency Test... 

Fig. 19. Discharge and charge efficiency of lithium metal in a mixed solvent of ethylene carbonate and dimethoxy ethane containing 1.0 mol dm-3 LiC104 (a) with and (b) without 100 ppm HF at 0.5 mA cm-2.

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