Patent ID: 8415268
Filing Date: 2013-04-09
Classification: B01J,B22F,B30B,C04B,C07C,C07D,C22C,Y10T

Abstract:
1. A process for producing a ringlike oxidic shaped body comprising the mechanical compaction of a pulverulent aggregate which has been introduced into the fill chamber of a die and is composed of constituents which comprise at least one metal compound which can be converted to a metal oxide by thermal treatment at a temperature of ≧100° C., or at least one metal oxide, or at least one metal oxide and at least one such metal compound, to give a ringlike shaped precursor body, in which the fill chamber is disposed in a die bore conducted through the die material from the top downward with a vertical bore axis B and is delimited by the inner wall of the die bore, the upper end face of a lower punch introduced from below along the bore axis B into the die bore so as to be liftable and lowerable, on which the pulverulent aggregate introduced into the fill chamber rests, the lower end face, disposed along the bore axis B at an axial starting distance A above the upper end face of the lower punch, of an upper punch mounted so as to be liftable and lowerable along the bore axis B, whose lower end face is in contact with the pulverulent aggregate introduced into the fill chamber from above, and the outer face of a center pin MF conducted from the bottom upward in the die bore along the bore axis B from the geometric center of the upper end face of the lower punch, said center pin MF extending at least up to the geometric center of the lower end face of the upper punch, comprising reducing the axial starting distance A of the two end faces along the bore axis B to an axial end distance E predefined for the compaction by lowering the upper punch while maintaining the position of the lower punch or additionally lifting the lower punch, where the geometric shape of the outer face of the lower punch corresponds to that of the outer face of a circular cylinder I; the geometric shape of the outer face of the upper punch corresponds to that of the outer face of a circular cylinder II; in the geometric center of the upper end face of the lower punch, a center bore MB at the starting distance A of the two end faces, the center pin MF projects from below through the center bore MB the center pin MF, from the bottom upward, has the geometric shape of a circular cylinder Z with a circular cylindrical outer face MZ; the length of the outline of the circular cylinder Z is less than the length of the outline of the circular cylinder I and less than the length of the outline of the circular cylinder II; the position of the center pin MF and the position of the die including the die bore along the bore axis B are fixed relative to one another during the process; in the geometric center of the lower end face of the upper punch, a center bore MB the axes of symmetry of the die bore, of the circular cylinder I, of the circular cylinder II, of the center bore MB MB the die bore, along its bore axis, has a longitudinal section I over whose length I the geometric shape of the inner wall of the die bore corresponds to that of the outer face of a circular cylinder KZ, and which is adjoined at its upper end directly by a longitudinal section II of the die bore which is directed upward and has the length II; the dimensions of the longitudinal section I of the die bore and of the circular cylinder I are such that the lower punch, during the process, is always conducted in each case sliding into the die bore at least for part of the length of the longitudinal section I with its outer face on the inner wall of the die bore; and the dimensions of the center bore MB on completion of compaction, the upper punch is lifted from the ringlike shaped precursor body formed and the ringlike shaped precursor body is removed from the die bore by lifting the lower punch, and a subsequent process for thermal treatment of the ringlike shaped precursor body at a temperature of ≧100° C., in which at least a portion of its constituents is decomposed and/or converted chemically to form at least one gaseous compound and the ringlike oxidic shaped body forms, wherein the geometric shape of the inner wall of the die bore, over the length II of the longitudinal section II, from the bottom upward, corresponds to that of the outer face of a frustocone KS which widens from the bottom upward, whose cross-sectional area, at its lower end, corresponds to the cross-sectional area of the circular cylinder KZ at its upper end, with the proviso that, on attainment of the end distance E, the lower end face of the upper punch is in the longitudinal section II and the upper end face of the lower punch is not below the longitudinal section I, such that the ringlike shaped precursor body formed by the mechanical compaction of the pulverulent aggregate between the two end faces is at least partly in the longitudinal section II on attainment of the end distance E.