REACTOR USE OF ALUMINUM

Plant Materials DOE-HDBK-1017/2-93 REACTOR USE OF ALUMINUM REACTOR USE OF ALUMINUM Aluminum is a favorite material for applications in tritium production and reactor plants. This chapter discusses the applications of aluminum in a reactor plant. EO 1.27 STATE the applications and the property that makes aluminum ideally suited for use in reactors operating at: a. Low kilowatt power b. Low temperature ranges. c. Moderate temperature range EO 1.28 STATE why aluminum is undesirable in high temperature power reactors. Applications Aluminum, with its low cost, low thermal neutron absorption, and freedom from corrosion at low temperature, is ideally suited for use in research or training reactors in the low kilowatt power and low temperature operating ranges. Aluminum, usually in the relatively pure (greater than 99.0%) 2S (or 1100) form, has been extensively used as a reactor structural material and for fuel cladding and other purposes not involving exposure to very high temperatures. Aluminum with its low neutron capture cross section (0.24 barns) is the preferred cladding material for pressurized and boiling water reactors operating in the moderate temperature range. Aluminum, in the form of an APM alloy, is generally used as a fuel-element cladding in organic- moderated reactors. Aluminum has also been employed in gas-cooled reactors operating at low or moderately high temperatures. Generally, at high temperatures, the relative low strength and poor corrosion properties of aluminum make it unsuitable as a structural material in power reactors due to hydrogen generation. The high temperature strength and corrosion properties of aluminum can be increased by alloying, but only at the expense of a higher neutron capture cross section. In water, corrosion limits the use of aluminum to temperatures near 100�C, unless special precautions are taken. In air, corrosion limits its use to temperatures slightly over 300�C. Failure is caused by pitting of the otherwise protective Al(OH)₃ film. The presence of chloride salts and of some other metals that form strong galvanic couples (for example, copper) can promote pitting. Rev. 0 Page 49 MS-05