Corrosion Reviews, Volumes 9-10Scientific Publications Division, Freund Publishing House, 1990 |
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Page 53
... cause the oxidation of iron 269 . Later , 270 Prior to this , Mara and Williams had reported a rather surprising finding that Escherichia coli , one of the most ubiquitous bacteria , is able to corrode mild steel . Ashton and co ...
... cause the oxidation of iron 269 . Later , 270 Prior to this , Mara and Williams had reported a rather surprising finding that Escherichia coli , one of the most ubiquitous bacteria , is able to corrode mild steel . Ashton and co ...
Page 229
... cause the coating to crack causing the porosity to increase again ( Figure 8 ) . This type of behaviour is perhaps best known in high temperature oxidation when , due to external effects , the oxide cracks and ceases to be protective ...
... cause the coating to crack causing the porosity to increase again ( Figure 8 ) . This type of behaviour is perhaps best known in high temperature oxidation when , due to external effects , the oxide cracks and ceases to be protective ...
Page 391
... cause negligible wear to the pipework and ducting , but if they are hard , or contain hard phases , then severe wear may occur , particularly where the flow changes direction at bends or junctions , at valves or other constrictions , or ...
... cause negligible wear to the pipework and ducting , but if they are hard , or contain hard phases , then severe wear may occur , particularly where the flow changes direction at bends or junctions , at valves or other constrictions , or ...
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70/30 copper-nickel alloy acid aerobic algae alloy aluminum Anaerobic Corrosion anodic aqueous Association of Corrosion ASTM attack Basin Saline Waters behaviour biocorrosion Biodeterioration biofilm Biofouling Biologically Induced Corrosion boiler brackish water carbon steel cathodic chemical chloride coating components concentration containing copper Corrosion Engineers corrosion potential corrosion process corrosion products corrosion rate crevice corrosion Dead Sea Dead Sea Basin depolarization deposits Desulfovibrio dissolved oxygen Dual Age effect electrochemical environment film fouling fuel H. A. Videla hydrogen sulfide immersed inhibitor ions iron sulphide laboratory layer Marine materials measurements mechanism metal surface Microbial Corrosion microfouling microorganisms mild steel molten salts NACE organisms oxide pipelines pipes piping materials pitting pitting corrosion polarization resistance present protective reaction S.C. Dexter Saline Waters Salvarezza samples Sdom Sea Basin Saline seawater soil solution stainless steel sulfate-reducing bacteria sulfur sulphate sulphide sulphur Table Tamar techniques temperature Thiobacillus tubing vanadium