Section 6.2  Aluminum and Aluminum Alloys

               Designation of Cast Aluminum Alloys.  Designations for cast aluminum alloys
               also consist of four digits. The first digit indicates the major alloy group, as follows:
                    1xx.x-Aluminum (99.00% minimum)
                    2xx.x-Aluminum-copper
                    3xx.x-Aluminum-silicon (with copper and/or magnesium)
                    4xx.x-Aluminum-silicon
                    5xx.x-Aluminum-magnesium
                    6xx.x-Unused series
                    7xx.x-Aluminum-zinc
                    8xx.x-Aluminum-tin
                   In the 1xx.x series, the second and third digits indicate the minimum aluminum
               content, as do the third and fourth in wrought aluminum. For the other series, the
               second and third digits have no numerical significance. The fourth digit (to the right
               of the decimal point) indicates the product form.

               Temper Designations.  The temper designations for both wrought and cast alu-
               minum are as follows:

                 ° F-As fabricated (by cold or hot working or by casting)
                 ° O-Annealed (from the cold-worked or the cast state)
                 ° H-Strain hardened by cold working (for wrought products only)
                 ° T-Heat treated
                 ° W-Solution treated only (unstable temper)

               Unified Numbering System.  As is the case with steels, aluminum and other nonfer-
              rous metals and alloys now are identified internationally by the Unified Numbering
               System (UNS), consisting of a letter indicating the general class of the alloy, followed
               by five digits indicating its chemical composition. For example, A is for aluminum, C
              for copper, N for nickel alloys, P for precious metals, and Z for zinc. In the UNS des-
              ignation, 2024 wrought aluminum alloy is A92024.
              Production.  Aluminum was first produced in 1 825. It is the most abundant metallic
              element, making up about 8% of the earth’s crust, and is produced in a quantity sec-
              ond only to that of iron. The principal ore for aluminum is bauxite, which is a
              hydrous (water-containing) aluminum oxide and includes various other oxides. After
              the clay and dirt are washed off, the ore is crushed into powder and treated with hot
              caustic soda (sodium hydroxide) to remove impurities. Next, Alumina (aluminum
              oxide) is extracted from this solution and then dissolved in a molten sodium-fluoride
              and aluminum-fluoride bath at 940° to 980°C. This mixture is then subjected to di-
              rect-current electrolysis. Aluminum metal forms at the cathode (negative pole), while
              oxygen is released at the anode (positive pole). Commercially pure aluminum is up to
              99.99% Al, also referred to in industry as “four nines” aluminum. The production
              process consumes a great deal of electricity, which contributes significantly to the cost
              of aluminum.

              Porous Aluminum.   Blocks of aluminum have been produced that are 37% lighter
              than solid aluminum and have uniform permeability (microporosity). This charac-
              teristic allows their use in applications where a vacuum or differential pressure has
              to be maintained. Examples are the vacuum holding of fixtures for assembly and
              automation, and the vacuum forming or thermoforming of plastics (Section 196).
              These blocks are 70 to 90% aluminum powder; the rest is epoxy resin. They can be
              machined with relative ease and can be joined together using adhesives.