Physical Properties


                                                    of Materials







           3.|  Introduction  88
           3.2  Density  89          ° Physical properties can have several important roles in the selection, process-
           3.3  MeltingPoint  92       ing, and use of materials.
           3.4  Specific Heat  92    ° These properties are key factors in determining a material’s suitability for spe-
           3.5  Thermal Conductivity  93  cific applications, especially when considered simultaneously with mechanical
           3.6  Thermal Expansion  93
                                       properties.
           3.7  Electrical, Magnetic, and
                Optical Properties  94  ° Strength-to-weight and stiffness-to-weight ratios, as examples, are discussed
           3.8  Corrosion Resistance  95
                                       in the context of lightweight designs, a key consideration in aerospace and
           EXAMPLE:
                                       automotive industries.
           3.|  Selection of Materials  ° Thermal, electrical, magnetic, and optical properties are then presented.
                for Coins  96
                                     ° The importance of corrosion and corrosion-resistant materials are described.
                                     ° Design and manufacturing implications of all of these properties are consid-
                                       ered, with various specific examples given.



                                    3.l    Introduction
                                    Why is electrical wiring generally made of copper? Why are aluminum, stainless
                                    steel, and copper so commonly used in cookware? Why are the handles of cookware
                                    usually made of wood or plastic, while other types of handles are made of metal?
                                    What kind of material should be chosen for the heating elements in toasters? Why
                                    are the metallic components in some machines being replaced with ceramics? Why
                                    are commercial airplane bodies generally made of aluminum, and why are some air-
                                    plane components being replaced gradually with those made of various composite
                                    materials, including reinforced plastics?
                                         It is apparent from these questions that one important criterion in material
                                    selection is consideration of physical properties, such as density, melting point,
                                     specific heat, thermal conductivity, thermal expansion, electrical and magnetic prop-
                                    erties, and resistance to oxidation and corrosion. Combinations of mechanical and
                                    physical properties, such as the strength-to-weight and stiffness-to-weight ratios of
                                    materials, are equally important, particularly for aircraft and aerospace structures.
                                    Also, high-speed equipment such as textile and printing machinery, and forming and
                                    cutting machines for high-speed operations, require lightweight components to re-
                                     duce inertial forces and thus keep machines from excessive vibration. Several other


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