Since the primary grains 11 are each mainly in the form of a plate, the cross section of each primary grain 11 extends in a predetermined direction, typically in a substantially rectangular shape, as shown in FIGS. 2 and 3. That is, when the cross section of the oriented sintered body is analyzed by EBSD, the total area of the primary grains 11 with an aspect ratio of 4 or more in the primary grains 11 contained in the cross section analyzed is preferably 70% or more, more preferably 80% or more, with respect to the total area of the primary grains 11 contained in the cross section (specifically, 30 primary grains 11 used for calculating the average orientation angle). Specifically, in the EBSD image as shown in FIG. 3, the mutual adhesion between the primary grains 11 can be further improved by above, as a result of which the rate characteristic can be further improved. The aspect ratio of each primary grain 11 is a value obtained by dividing the maximum Feret diameter of the primary grain 11 by the minimum Feret diameter. The maximum Feret diameter is the maximum distance between two parallel straight lines that interpose the primary grain 11 therebetween on the EBSD image in observation of the cross section. The minimum Feret diameter is the minimum distance between two parallel straight lines that interpose the primary grain 11 therebetween on the EBSD image.
