Page 782 - Corrosion Engineering Principles and Practice
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Cooling water systems, 287–294 Corrosion (Cont.):
chemical inhibitors for, 310 filiform, 171–174
heat exchangers, 291–294 fretting, 203–205, 248
high-TDS cooling system, 326–327 galvanic, 175–180, 248
and microbiology influenced gaseous halogen, 706
corrosion, 213 of glass, 174–175
once-through systems, 287–288 graphitic corrosion, 182–183
ozonated cooling systems, 321–326 group I, 148
recirculated systems, 288–291 group II, 148–149
closed, 288 group III, 149
open, 288–291 halogen, 706
towers, 288, 289 high-temperature, 663–709
Copper, 686, 687 hydrogen blistering, 184
and aluminum, 180, 378 hydrogen-induced cracking, 183–184
atmospheric corrosion of, 375–376 impact/cost of, 13–17
cladding with, 525 intergranular, 161, 180–181
corrosion of, 362, 377 of iron, 5
and oxidation, 376 in liquid metals, 709
pitting of, 158, 159 localized, 155–184
and soils corrosion, 405 mechanically assisted, 194–205
for spray coat, 632 microbiology influenced, 213
and steels, 371 by molten salts, 708
and stress corrosion cracking, 200 monitoring (see Monitoring)
in supercritical steam plants, 298 in neutral solutions, 32–33
zinc vs., 35 pitting, 155–164, 247
Copper alloys: potential for, measurement of, 71–72
atmospheric corrosion of, 375–376 poultice, 168–169
in heat exchangers, 293 of puddled iron, 4–5
and soils corrosion, 405 reasons for, 19–22
stress corrosion cracking in, 200 recognizing, 147–151
Copper sulfate, 312 region for, 81
Copper/copper sulfate reference rust, 5
electrode (CCSRE), 68–71 of steel, 4–5
calculations for, 70–71 steel deck, 170–171
equilibrium potential of, 63 stress corrosion cracking, 197–201
temperature affecting, 70–71 study of (see Study of corrosion)
Coreactive binders, 612 theory of, 3
Correction-based design analysis thermogalvanic, 235
(CBDA), 216 uniform, 151–154
Corrosion, 207–209 velocity-induced, 149, 185–194
in acids, 31–32 (See also specific types, e.g.: Localized
in alkaline solutions, 32–33 corrosion)
atmospheric, 329–383 Corrosion avoidance, 246–253
of bridges, 4–5 corrosion cracking mitigation, 248–250
in cars, 168–169 crevice corrosion mitigation, 247–248
cavitation, 192–194 fretting corrosion mitigation, 248
as chemical reaction, 31–33 galvanic corrosion mitigation, 248
and cold work, 4 pitting mitigation, 247
corrosion cracking, 248–250 Corrosion cells (see Cells)
cracking (see Cracking) Corrosion Control in the Refining
crevice corrosion, 164–175, 247–248 Industry, 7
cyclic polarization test for, 109 Corrosion control program
dealloying, 181–183 (AWWA), 262
deposition erosion, 180 Corrosion coupons, 577–578
dezincification, 181–182 Corrosion cracking, 248–250
electrolytic theory of, 3–4 Corrosion damage algorithm
erosion-corrosion, 188–192 (CDA), 358
fatigue, 201–202 Corrosion Data Survey of Metals, 436
and ferroxyl indicator, 4 Corrosion Data Survey of Nonmetals, 436
