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Languages : en
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Book Description
HEAVY WATER MODERATED POWER REACTORS PROGRESS REPORT, MARCH-JUNE 1965
Author: HEAVY WATER MODERATED POWER REACTORS. Progress Report, January-February 1965
Author: Heavy Water Moderated Power Reactors
Author: L. IsakoffHeavy water moderated power reactors : progress report : March - April 1964
Author: D. F. BabcockHEAVY WATER MODERATED POWER REACTORS. Progress Report, March-April 1964
Author: Heavy Water Moderated Power Reactors Progress Report for November 1959
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Languages : en
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Book Description
At the end of November, 20% of the construction and 80% of the firm design of the Heavy Water Components Test Reactor (HWCTR) were complete. Proof testing of various seals and mechanisms for the HWCTR continued satisfatorily. Further analyses are given of the transient behavior of the HWCTR isolated coolant loops and of the experimental data on the nuclear effects of hot moderator. The results of additional fabrication and irradiation tests of uranium metal and uranium oxide are recorded. The manufacture of tubular metallurgical joints between Zircaloy and stainless steel is also reported. (See also DP-415.) (auth).
Heavy water moderated power reactors : progress report June 1962
Author: D. F. BabcockHeavy water moderated power reactors : progress report March 1962
Author: D. F. BabcockHeavy water-moderated power reactor program : quarterly progress report for period ending Sept. 30, 1961
Author: J. H. HuttonHeavy Water Moderated Power Reactors. Progress Report for June 1960
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Languages : en
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Book Description
At the end of June 1960, 36% of the construction and 94% of the firm design of the Heavy Water Components Test Reactor (HWCTR) were complete. Revised calculations of transients in the liquid-D2O-cooled loop of the HWCTR showed that the safety of the loop was not impaired by recent changes in the location and design of the loop heat exchanger. Preliminary operation of a full- scale mock-up of the bayonet for the boiling-D2O-cooled loop of the HWCTR indicated that flow-induced vibrations probably will not be a serious problem in this loop. Irradiation specimens were prepared of Zircaloy-clad tubes of uranium oxide that had been vibratory-compacted and swaged to 91% of theoretical density. The National Research University irradiation of a Zircaloy-clad uranium metal fuel tube was terminated because of mechanical damage to the assembly during an attempted reinsertion into the reactor loop. Tandemextruded joints of Zircaloy to stainless steel were readied for long-term irradiation tests to determine the effects of exposure on the mechanical properties of the joints. (For preceding period see DP-505.) (auth).