Author: J. L. Conversi
Publisher:
ISBN:
Category :
Languages : en
Pages : 0
Book Description
Summary of operational history and post-irradiation underwater examination of a defected u-si-a1 fuel element containing two uo2 impregnated molybdenum discs separated by an alumina disc
Summary of the operational history and post-irradiation underwater examination of a defected u-si-a1 fuel element (ekw) containing six uo2 impregnated graphite discs between seven alumina discs
Summary of operational history and post-irradiation underwater examination of a defected u-si-a1 fuel element containing a graphite and alumina disc-type detection device with a corrodible strip
Summary of the operational history and post-irradiation underwater examination of a defected u-si-a1 fuel element containing one low density uo2 pelllet
A summary of the operational history and post-irradiation underwater examination of a defected u-si-a1 fuel element with abutting elements to reduce end flux peaking
The fabrication and pre-irradiation data for u-si-a1 fuel element eky which contained two uo2 impregnated molybdenum discs separated by an alumina disc
A defect test on a previously irradiated u-si-a1 fuel element of simple design - phase 2a
A defect test on a previously irradiated u-si-a1 fuel element of simple design
Comment Issue - Production Test IP-333-D
Author:
Publisher:
ISBN:
Category :
Languages : en
Pages : 27
Book Description
To permit the irradiation of one dummy fuel element assembly for one operating period and to permit, during a subsequent operating period, the irradiation of one defected, four-rod-cluster UO2 fuel element assembly, in a KE front-to-rear test hole. The fuel material is natural UO2 of 95 per cent theoretical density; the cladding is zircaloy. The defect in the assembly is artificial and will be made before irradiation by drilling a .005in. diameter hole through the cladding near the mid-point of two of the rods.
Publisher:
ISBN:
Category :
Languages : en
Pages : 27
Book Description
To permit the irradiation of one dummy fuel element assembly for one operating period and to permit, during a subsequent operating period, the irradiation of one defected, four-rod-cluster UO2 fuel element assembly, in a KE front-to-rear test hole. The fuel material is natural UO2 of 95 per cent theoretical density; the cladding is zircaloy. The defect in the assembly is artificial and will be made before irradiation by drilling a .005in. diameter hole through the cladding near the mid-point of two of the rods.