Nuclear reactors control rods

Control of Substances Hazardous to Health Regulations (COSHH UK), 14 220 Control rods, nuclear reactor, 17 569 Control room, in plant layout, 10 514—515 Controls, food processing, 12 87-88 Control stations, 20 668 Control strategies, for fermentation, 11 36-40 Control systems... 

Some of the rare earth nuclei have small capture cross-sections for neutrons, and some have extremely large capture cross-sections. From the practical viewpoint, since the rare earths are formed in fission, such information plays an important role in nuclear energy technology. A knowledge of the cross-section, lifetimes and chemical behavior of the isotopes is extremely important in the design of reactors, control rods, nuclear poisons and reactor waste disposal processes. 

XVn-3] KAMBE, M., TSUNODA, H., NAKAJIMA, K., IWAMURA, T., RAPID-L operator-free fast reactor concept without any control rods, Nuclear Technology, Vol. 143, pp. 11-21 (July 2003). 

Because the element not only has a good absorption cross section for thermal neutrons (almost 600 times that of zirconium), but also excellent mechanical properties and is extremely corrosion-resistant, hafnium is used for reactor control rods. Such rods are used in nuclear submarines. 

Chain reactions do not go on forever. The fog may clear and the improved visibility ends the succession of accidents. Neutron-scavenging control rods may be inserted to shut down a nuclear reactor. The chemical reactions which terminate polymer chain reactions are also an important part of the polymerization mechanism. Killing off the reactive intermediate that keeps the chain going is the essence of these termination reactions. Some unusual polymers can be formed without this termination these are called living polymers. 

Hafnium is obtained as a by-product of the production of hafnium-free nuclear-grade 2irconium (see Nuclear reactors Zirconiumand zirconium compounds). Hafnium s primary use is as a minor strengthening agent in high temperature nickel-base superakoys. Additionally, hafnium is used as a neutron-absorber material, primarily in the form of control rods in nuclear reactors. 

Gadolinium s extremely high cross section for thermal neutrons, 4.6 x 10 (46,000 bams) per atom, is the reason for its extensive use in the nuclear energy (see Nuclearreactors). It is used as a component of the fuel or control rods, where it acts as a consumable poison, a trap for neutrons in the reactor (39). 

Nuclear Radiation Effects. Components of a nuclear reactor system that require lubrication include control-rod drives, coolant circulating pumps or compressors, motor-operated valves, and fuel handling devices, and, of course, are exposed to varying amounts of ionising (14). 

Boron-10 has a natural abundance of 19.61 atomic % and a thermal neutron cross section of 3.837 x 10 m (3837 bams) as compared to the cross section of 5 x 10 m (0.005 bams). Boron-10 is used at 40—95 atomic % in safety devices and control rods of nuclear reactors. Its use is also intended for breeder-reactor control rods. 

Cadmium is an impoitant component in brazing and low melting alloys, used in bearings, solders, and nuclear reactor control rods, and as a hardener for... 

An alloy containing 80% Ag, 15% In, and 5% Cd is used in control rods in nuclear reactors because it has a high neutron cross-section and good mechanical strength (see Nuclearreactors). 

Carbide-based cermets have particles of carbides of tungsten, chromium, and titanium. Tungsten carbide in a cobalt matrix is used in machine parts requiring very high hardness such as wire-drawing dies, valves, etc. Chromium carbide in a cobalt matrix has high corrosion and abrasion resistance it also has a coefficient of thermal expansion close to that of steel, so is well-suited for use in valves. Titanium carbide in either a nickel or a cobalt matrix is often used in high-temperature applications such as turbine parts. Cermets are also used as nuclear reactor fuel elements and control rods. Fuel elements can be uranium oxide particles in stainless steel ceramic, whereas boron carbide in stainless steel is used for control rods. 

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