Patent Number: 040000397
Section: claims

1. A fuel element for a high temperature reactor comprising a structural graphite block and a fuel zone comprising a graphite matrix containing embedded, coated fissile material particles, said fuel zone being removable from the structural graphite after burnup of the fissile material so that the fuel element can be filled with new fuel and again inserted in the reactor, said graphite matrix having sufficient strength to bind the embedded coated fuel particles which strength is at least 50 kg/cm.sup.2 less than the binding strength of the structural graphite whereby by the action of force said matrix can be easily split up without destroying the fuel particles. 2. A fuel element according to claim 1 wherein the matrix consists essentially of a carbon filler and binder coke, the amount of coke being less than 10. 3. A fuel element according to claim 2 wherein the carbon of the matrix is natural graphite. 4. A process of separating the structural graphite block from the fuel zone of a fuel element for a high temperature reactor, said fuel element comprising a structural graphite block having bore-holes therein and a fuel zone comprising a graphite matrix containing embedded, coated fissile material particles, said fuel zone being compressed into the bore-holes of the structural graphite block and being removable from the structured graphite after burnup of the fissile material so that the fuel element can be filled with new fuel embedded in graphite matrix by compressing it and again inserted in the reactor, said graphite matrix having sufficient strength to bind the embedded coated fuel particles which strength is at least 50 kg/cm.sup.2 less than the binding strength of the structural graphite, said process comprising disintegrating the matrix with a force insufficient to damage the structural graphite. 5. A process according to claim 4 wherein the disintegration is accomplished mechanically. 6. A process according to claim 4 wherein the disintegration is accomplished by erosion. 7. A process according to claim 4 wherein the disintegration is accomplished ultrasonically. 8. A process according to claim 4 including the steps of refilling the bore-holes in the structural graphite block after removal of the disintegrated matrix with lightly precompressed fuel inserts and then finishing the compressing of the fuel inserts in the structural graphite block. 9. A fuel element according to claim 1 wherein the binding strength of the graphite matrix is 50 to 350 kg/cm.sup.2 less than the binding strength of the structural graphite. 10. A process according to claim 4 wherein the binding strength of the graphite matrix is 50 to 350 kg/cm.sup.2 less than the binding strength of the structural graphite.