Page 792 - Corrosion Engineering Principles and Practice
P. 792
742 I n d e x I n d e x 743
Materials Selector software system, 432 Microbes, bacteria (Cont.):
Materials Technology Institute organic acid producing
(MTI), 478 bacteria, 415
MCU (moisture curing sulfate reducing bacteria, 413–414
polyurethane), 601 sulfur/sulfide oxidizing bacteria,
MSDS (Materials Safety Data Sheets), 617 414–415
Mechanically assisted corrosion, biofilms, 311–312, 416
194–205 and chlorination, 312
fatigue, 201–202 classification of, 411–416
fretting corrosion, 203–205 degradation by, 386
stress corrosion cracking, 197–201 environments for, 412
and stress corrosion cracking, 194 faculative anaerobes, 411
Melting points, 707 in fresh water, 270
Mercuric oxide reference electrodes, 63 fungi, 412
Mercurous sulfate reference growth of, 418, 419
electrodes, 63 inspection of, 418, 419
Mercury, in power cells, 87 iron/manganese oxidizing
Metabolic activity, 419 bacteria, 415
Metabolites, 422 methane producers, 415
Metals: microaerophiles, 411
admiralty, 377 obligate anaerobes, 411
chemical background of, 22–28 organic acid producing bacteria, 415
crystalline structure of, 23–25 oxidizing bacteria, 415
and drainage, 455 plaktonic, 409–411
and energy, 22 sessile, 409–411, 416
E-pH diagram of, 76–84 slime formers, 412
glass-lined, 588 strict anaerobes, 411
liquid, 709 sulfate reducing bacteria, 312, 413–414
ores vs., 22 sulfur/sulfide oxidizing bacteria,
(See also specific types, e.g.: Steels) 414–415
Metal dusting, 704–705 and surface analysis, 416
Metal loss (corrosion) tools, 520–521 and water treatment, 311–313
Metallic coatings, 587, 588, 627–638 Microbial corrosion attacks, 149
cladding, 630–631 Microbial corrosion cells, 245–246
electroless nickel plating, 629–630 Microbiology influenced corrosion
electroplating, 627–629 (MIC), 213, 385, 407–427
hot-dip galvanizing, 630 and anodic reaction sites, 409
and laser welding propeller, 630–631 and aquatic structures, 213
metallizing, 631–638 biological assessment for, 417, 420–424
thermal spray, 631–638 activity assays, 421–423
Metallizing (thermal spray), 631–638 coupon examinations, 423–424
Metallizing coatings, 600 direct inspection, 420
Methane producers, 415 growth assays, 420–421
Mexico, corrosion in, 365 and cathodic depolorization, 409
MFL (see Magnetic flux leakage) and desalination, 213
MIC (see Microbiology influenced detection of, 425
corrosion) location of, 214
Microaerophiles, 411 mechanisms involved in, 409
Microbes: and microbial corrosion cells, 245
activity assays for, 418, 419 monitoring, 416–427
aerobes, 411 with biological assessment, 417,
aerobic slime formers, 415–416 420–424
affecting failure, 213 with deposition accumulation
algae, 311, 412 monitors, 424–425
bacteria, 413–416 of effects, 424–427
aerobic slime formers, 415–416 electrochemical methods
anaerobic, 407, 412 for, 425, 426
iron/manganese oxidizing with sampling, 417
bacteria, 415 and occluded surface cells, 409
methane producers, 415 and piping, 213
