Page 428 - Challenges in Corrosion Costs Causes Consequences and Control(2015)
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406                                                           INDEX

           Failure (Continued)                High-Mobility Multipurpose Wheeled
             Flixborough chemical reactor, 387         Vehicles (HMMWV), 189–192,
             functional, 329                           309–310
             gas distribution, 255            High temperature corrosion and wear, 354
             Guadalajara Sewer Explosion, 383–384  Hoar report, 96–102, 318, 321, 392
             heat recovery steam generators, 374  Home appliances, 122, 186–188, 306–308
             hot water systems, 342–346       Howitzer firing platforms, 192, 311
             landing gear steel pin, 370–372  Hydraulic plants, 156–157
             oil storage tank, 375–376        Hydrocarbons, 42, 79
             pipe clamp joint connector, 358–361  Hydrogen embrittlement, 33, 64, 66, 70,
             pipeline failures, 388–389                74–76, 79–83, 85, 88
             piping rupture at Mihama Nuclear Power  Hydrogen-induced blistering, 76–78, 83,
                    Plant, 385–386                     88
             Point Pleasant Bridge, Ohio, 396  Hydrogen-induced cracking, 74–78, 372,
             potential, 329                            374
             radioactive waste storage, 381–382  prevention, 87–88
             rock bolts, 365–367              Hydrogen-induced plasticity, 86
             stainless steel tubing, 367–372  Hydrogen stress cracking See
             steel coal-conveyor drive shaft, 361–362  Hydrogen-induced cracking
             swimming pool roof collapse, 387–388
             tanker (Erika), 386–387          Impact wear, 47–48
             tie rods of suspension bridge, 339–343  Impingement, 44, 47, 51–53
             water pipes, 376–377             Inclusions, 27, 65, 77–78, 88
           Fatigue wear, 47                   Inhibitors, 216–218
           Fault, 327                           additives, inhibiting, 218
           Film-induced cleavage models, 85     deicers, 219
           Flow accelerated corrosion, 385–386  iron and steel, 218
           Food processing sector, 122, 182–183,  petroleum industry, 217–218, 379–380
                    303–304                     pulp and paper, 218
           Fossil fuel energy systems, 393      water systems, 267–268
           Fossil fuel steam supply systems, 154–156  Intergranular corrosion (IGC), 23, 30–34,
           Fresh water, 144                            42, 60–61, 70, 72–73, 84–85
           Fretting corrosion, 44–46, 50, 55–59, 65,  Internal attack, 25–26, 28
                    305
           Furnaces, 187                      Japan, 100, 321, 386
           Galling stress, 59                 KC-135 Stratotanker, 193–195, 312
           Galvanic series, 9–11
                                              Magnetic and magneto-optic devices, 306
           Gas distribution, 254–255 See also
                    Corrosion –Costs –Gas     Marine and offshore industry, 394–395
                    distribution              Mechanically assisted corrosion, 44–67, 69
           Grain boundaries, 25–27, 30–31, 46,  wear impact, 45–46
                                              Medical implants and prosthesis, 397
                    62–63, 65, 72, 79, 81, 85
                                              Metallic coatings See under Protective
           Hazardous materials storage, 117–118,       coatings
                    145–148, 257–260          Metals and alloys, corrosion resistant,
           Hazardous materials transport, 121,         214–215, 293–294, 296–297
                    167–170, 288–289          Microbiologically-influenced corrosion
           HE See Hydrogen embrittlement               (MIC), 36–44, 139, 245–246
           Helicopters, 192–193                 freshwater environments, 37
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