Section 3.3  Irons and Steels                                                75

                 Table 3.5 Summary of the AISI–SAE Designations for Common Carbon and
                 Low-Alloy Steels
                 Designation 1  Approx. Alloy Content, %  Designation  Approx. Alloy Content, %
                 Carbon steels                          Nickel–molybdenum steels
                 10XX        Plain carbon               46XX       Ni 0.85 or 1.82; Mo 0.25
                 11XX        Resulfurized               48XX       Ni 3.50; Mo 0.25
                 12XX        Resulfurized and
                               rephosphorized
                 15XX        Mn 1.00 to 1.65
                 Manganese steels                       Chromium steels
                 13XX        Mn 1.75                    50XX(X)    Cr 0.27 to 0.65
                                                        51XX(X)    Cr 0.80 to 1.05
                                                        52XXX      Cr 1.45
                 Molybdenum steels                      Chromium–vanadium steels
                 40XX        Mo 0.25                    61XX       Cr 0.6 to 0.95; V 0.15
                 44XX        Mo 0.40 or 0.52
                 Chromium–molybdenum steels             Silicon–manganese steels
                 41XX        Cr 0.50 to 0.95;           92XX       Si 1.40 or 2.00;
                               Mo 0.12 to 0.30                      Mn 0.70 to 0.87;
                                                                    Cr 0 or 0.70
                 Nickel–chromium–molybdenum steels      Boron steels 2
                 43XX        Ni 1.82; Cr 0.50           YYBXX      B 0.0005 to 0.003
                               or 0.80; Mo 0.25
                 47XX        Ni 1.45; Cr 0.45;
                               Mo 0.20 or 0.35
                 81XX        Ni 0.30; Cr 0.40; Mo 0.12
                 86XX        Ni 0.55; Cr 0.50; Mo 0.20
                 87XX        Ni 0.55; Cr 0.50; Mo 0.25
                 94XX        Ni 0.45; Cr 0.40; Mo 0.12
                      1
                 Notes: Replace “XX” or “XXX” with carbon content in hundredths of a percent, such as AISI
                                                     2
                 1045 having 0.45% C, or 52100 having 1.00% C. Replace “YY” with any two digits from
                 earlier in table to indicate the additional alloy content.
            of carbon present exceeds the 2% that can be held in solid solution at elevated temperature, and in
            most cast irons the excess is present in the form of graphite.
               Gray iron contains graphite in the form of flakes, as seen in Fig. 3.7 (left). These flakes easily
            develop into cracks under tensile stress, so that gray iron is relatively weak and brittle in tension. In
            compression, the strength and ductility are both considerably higher than for tension. Ductile iron,
            also called nodular iron, contains graphite in the more nearly spherical form of nodules, as seen in
            Fig. 3.7 (right). This is achieved by careful control of impurities and by adding small amounts of
            magnesium or other elements that aid in nodule formation. As a result of the different form of the
            graphite, ductile iron has considerably greater strength and ductility in tension than gray iron.
               White iron is formed by rapid cooling of a melt that would otherwise form gray iron. The
            excess carbon is in the form of a multiphase network involving large amounts of iron carbide,