The positive electrode plate 12, that is, the lithium complex oxide sintered plate preferably has a porosity of 20 to 60%, more preferably 25 to 55%, further preferably 30 to 50%, particularly preferably 30 to 45%. The stress relief effect by the pores and the increase in capacity can be expected, and the mutual adhesion between the primary grains 11 can be further improved, so that the rate characteristics can be further improved. The porosity of the sintered body is calculated by polishing a cross section of the positive electrode plate with CP (cross-section polisher) polishing, thereafter observing the cross section at a magnification of 1000 times with SEM, and binarizing the SEM image obtained. The average equivalent circle diameter of pores formed inside the oriented sintered body is not particularly limited but is preferably 8 μm or less. The smaller the average equivalent circle diameter of the pores, the mutual adhesion between the primary grains 11 can be improved more. As a result, the rate characteristic can be improved more. The average equivalent circle diameter of the pores is a value obtained by arithmetically averaging the equivalent circle diameters of 10 pores on the EBSD image. An equivalent circle diameter is the diameter of a circle having the same area as each pore on the EBSD image. Each of the pores formed inside the oriented sintered body is preferably an open pore connected to the outside of the positive electrode plate 12.
The positive electrode plate 12, that is, the lithium complex oxide sintered plate preferably has a mean pore diameter of 0.1 to 10.0 μm, more preferably 0.2 to 5.0 μm, further preferably 0.3 to 3.0 μm. Within such a range, stress concentration is suppressed from occurring locally in large pores, and the stress is easily released uniformly in the sintered body.