Formability

DOE-HDBK-1017/2-93 PROPERTIES CONSIDERED WHEN SELECTING MATERIALS Plant Materials Formability Components may be formed by processes such as rolling or bending, which may cause some parts of the metal to expand more than others. Formability of a material is its ability to withstand peripheral expansion without failure or the capacity of the material to be to manufactured into the final required shape. This becomes important in selecting materials that have to be made into specific shapes by such means as rolling or bending and still retain their required strength. Ductility Ductility is the plastic response to tensile force. Plastic response, or plasticity, is particularly important when a material is to be formed by causing the material to flow during the manufacture of a component. It also becomes important in components that are subject to tension and compression, at every temperature between the lowest service temperature and the highest service temperature. Ductility is essential for steels used in construction of reactor pressure vessels. Ductility is required because the vessel is subjected to pressure and temperature stresses that must be carefully controlled to preclude brittle fracture. Brittle fracture is discussed in more detail in Module 4, Brittle Fracture. Stability Stability of a material refers to its mechanical and chemical inertness under the conditions to which it will be subjected. Nuclear plants have a variety of environments to which materials are subjected. Some of these environments, such as high temperatures, high acid, high radiation, and high pressure, can be considered extreme and harsh; therefore, the stability of the materials selected for service in these areas is a major consideration. Corrosion mechanisms can become very damaging if not controlled. They are identified in Module 2, Properties of Metals. High corrosion resistance is desirable in reactor systems because low corrosion resistance leads to increased production of corrosion products that may be transported through the core. These products become irradiated and contaminate the entire system. This contamination contributes to high radiation levels after shutdown. For these reasons, corrosion resistant materials are specially chosen for use in the primary and secondary coolant systems. Availability The availability of a material used in the construction of nuclear plants refers to the ease with which a material can be obtained and its cost. MS-05 Page 2 Rev. 0