The Structure


                                                   of Metals







          l.l  Introduction  40
          l.2  Types of Atomic       ° This chapter introduces the subject of the crystalline structure of metals and
               Bonds 4|                explains why it is important in determining their properties and behavior.
          |.3  The Crystal Structure  ° It begins with a review of the types of atomic bonds and explains the importance
               of Metals  42
          |.4  Deformation and Strength  of ionic, covalent, and metallic bonds.
               of Single Crystals  44  ° Metal structures and the arrangement of atoms within the structure are then
          l.5  Grains and Grain        examined, and the types of imperfections in the crystal structure and their
               Boundaries  47
          l.6  Plastic Deformation     effects are presented.
               of Polycrystalline    * Recognizing that even a small metal pin contains thousands of crystals, or
               Metals  50              grains, the effects of grains and grain boundaries are examined, followed by a
          I.1  Recovery,               discussion of strain hardening and anisotropy of metals.
               Recrystallization, and
               Grain Growth  5|      ° All of these topics are examined Within the framework of their relevance to
          l.8  Cold, Warm, and Hot     manufacturing processes.
               Working  52
          EXAMPLE:
          |.I  Number of Grains in  l.l   Introduction
               the Ball of a Ballpoint
               Pen  49
                                   Why are some metals hard and others soft? Why are some metals brittle, while
                                    others are ductile and thus can be shaped easily without fracture? Why is it that
                                    some metals can withstand high temperatures, while others cannot? Why is it that a
                                    sheet metal may behave differently when stretched in one direction versus another?
                                        These and numerous other questions can be answered by studying the atomic
                                    structure of metals-that is, the arrangement of the atoms within the metals-because
                                    atomic structure greatly influences the properties and behavior of those metals. This
                                    knowledge then guides us in controlling and predicting the behavior and performance
                                    of metals in various manufacturing processes. Understanding the structure of metals
                                    also allows us to predict and evaluate their properties, thus allowing us to make
                                    appropriate selections for specific applications under various conditions. In addition
                                    to atomic structure, several other factors influence the properties and behavior of
                                    metals. Among these are the composition of the metal, impurities and vacancies in the
                                    atomic structure, grain size, grain boundaries, environment, size and surface condi-
                                    tion of the metal, and the methods by which metals are made into products.
                                        The topics described in this chapter and their sequence are outlined in Fig. 1.1.
                                    The structure and general properties of materials other than metals are described in


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          CHAPTER