Page 791 - Corrosion Engineering Principles and Practice
P. 791
740 I n d e x I n d e x 741
Length, 720 Magnesium (Cont.):
Life-cycle costing, 441–443, 446 reactivity of, 19, 21
Linear behavior model, 678 for seawater applications, 527–528
Linear energy, 719 Magnesium alloys, 200
Linear polarization resistance (LPR), Magnesium anodes, 540, 554
112–116 Magnetic flux leakage (MFL):
and MIC, 416 and hydrostatic testing, 518
tools for, 114 and ILI, 519
Liquid metals, 709 for metallic water mains, 266
Liters per minute (Lpm), 289 types of tools for, 520, 521
Localized corrosion, 155–184 “Magnetic storm” activity, 570
in cars, 168–169 Magnetite, 19, 561
corrosion under insulation, 169–170 Maintenance, 2
crevice corrosion, 164–175 Maintenance engineers, 9
in cars, 168–169 Mallet, Robert, 711
corrosion under insulation, 169–170 Management, 9
of double-pane windows, 174–175 Manganese, in fresh water, 272
filiform corrosion, 171–174 Manganese bronze, 377
ideal crevice for, 167–168 Manual cleaning, 660
phenolic foam roof insulation, Manufacturing industry, 16
170–171 Maps, 362–366
in real-world crevices, 168–175 Marine atmospheric corrosion, 331,
and steel deck corrosion, 170–171 332, 338
cyclic polarization test for, 109 Marine Coating Inspector Course, 7
dealloying, 181–183 Martensitic stainless steels, 687
dezincification, 181–182 Mass, 720
graphitic corrosion, 182–183 Mass flow rate, 719
and dezincification, 181–182 Mass per area, 720
of double-pane windows, 174–175 Mass transport—control, 185
filiform corrosion, 171–174 Materials, 10
galvanic corrosion, 175–180 in Ashby’s model, 431–432
area effects, 176–180 attributes of, 431
deposition erosion, 180 change of, 249
and galvanic series, 176 corrosion affected by, 217
graphitic corrosion, 182–183 and SCC, 249
hydrogen blistering, 184 Materials engineering, 12
hydrogen-induced cracking, 183–184 Materials Performance (magazine), 9
ideal crevice for, 167–168 Materials Safety Data Sheets
intergranular corrosion, 180–181 (MSDS), 617
and phenolic foam roof insulation, Materials selection, 431–433
170–171 candidate materials, 446–447
pitting corrosion, 155–164 compromises with, 440–441
in real-world crevices, 168–175 condition assessment surveys,
and steel deck corrosion, 170–171 443–444
Location for analysis (LA) matrix, corrosion data for, 437–438
218–221 environmental assessment
Logarithmic behavior, 678–679 for, 447, 450
Long-term corrosion management, evaluation for, 450
263–264 and failure, 450
Lpm (liters per minute), 289 identification, 446–447
LPR (see Linear polarization resistance) life-cycle costing, 441–443
LSI (Langelier saturation index), 314–316 for multiple corrosion forms,
Luggin capillary, 96 433–434
for multiple environments, 434–437
M and performance, 438–439
for prevention and control, 451
Magnesium: prioritization, 445
and calcareous deposits, 281 roadmap for, 445–451
and concrete, 406 screening for, 447
and free iron concentrations, 319
