II. Effects on Stone                  129

                                     TABLE 9-2
             Predicted Useful Life of Galvanized Sheet Steel with a 53-/nm Coating at an
                            Average Relative Humidity of 65% fl
                                                    Useful life (years)
        SO 2 concentration,  Type of        Predicted   Predicted  Observed
            jWg/m 2        environment    best estimate  range       range

               13         Rural               244         41.0       30-35
              130         Urban                24       16.0-49.0
              260         Semi-industrial      12       10.0-16.0    15-20
              520         Industrial           6         5.5-7.0
             1,040        Heavy industrial     3         2.9-3.5      3-5

        " Source: Yocom, J. E., and Upham, J. B., Effects of Economic Materials and Structures, in
         "Air Pollution," 3rd ed., Vol. I (A. C. Stern, ed.), p. 80. Academic Press, New York, 1977.

       that limits further corrosion upon exposure to SO 2. Laboratory studies at
       higher concentrations (280 ppm) show corrosion of aluminum at higher
       humidities (>70%), with the formation of a white powder of aluminum
       sulfate.
         Copper and silver are used extensively in the electronics industry because
       of their excellent electrical conductivity. These metals tend to form a protec-
       tive surface coating which inhibits further corrosion. When exposed to H 2S,
       a sulfide coating forms, increasing the resistance across contacts on electrical
       switches (6).


                             II. EFFECTS ON STONE

         The primary concern in regard to air pollution is the soiling and deteriora-
       tion of limestone, which is widely used as a building material and for marble
       statuary. Figure 9-2 shows the long-term effects of urban air pollution on
       the appearance of stone masonry. Many buildings in older cities have been
       exposed to urban smoke, SO 2/ and CO 2 for decades. The surfaces have
       become soiled and are subjected to chemical attack by acid gases. Exterior
       building surfaces are also subjected to a wet-dry cycle from rain and ele-
       vated humidity. SO 2 and moisture react with limestone (CaCO 3) to form
       calcium sulfate (CaSO 4) and gypsum (CaSO 4 • 2H 2O). These two sulfates
       are fairly soluble in water, causing deterioration in blocks and in the mortar
       used to hold the blocks together. The soluble calcium sulfates can penetrate
       into the pores of the limestone and recrystallize and expand, causing further
       deterioration of the stone. CO 2 in the presence of moisture forms carbonic
       acid. This acid converts the limestone into bicarbonate, which is also water
       soluble and can be leached away by rain. This type of mechanism is present
       in the deterioration of marble statues.