Page 762 - Corrosion Engineering Principles and Practice

P. 762

712 A p p e n d i x A H i s t o r i c a l P e r s p e c t i v e 713

Date Landmark Source
1908–10 Compilation of corrosion rates in different media Heyn, Bauer
1909 Synthetic resin (Bakelite) Baekeland
1910 Impressed current cathodic protection Cumberland
1910 Microbiological corrosion Gaines
1910 Inhibitive paint Cushman, Gardner
1912 Austenitic chromium-nickel stainless steel Maurer, Strauss
1913 Study of high temperature oxidation kinetics Langmuir
of tungsten
1913 High silicon cast iron (Duriron)
1916 Differential aeration currents Aston
1917 Mechanism of corrosion fatigue Haigh
1916 Chromium stainless steel Brearley
1919 Mechanism of cavitation Parsons, Cook
1920–3 “Season-cracking” of brass as intergranular Moore, Beckinsale
corrosion
1923 Anodized aluminum Bengough, Stuart
1923 High-temperature formation of oxides Pilling, Bedworth
1924 Galvanic corrosion Whitman, Russell
1926 Chromium-nickel-molybdenum stainless steel Strauss
1929 Inconel Merica
1930–31 Subscaling or “Internal corrosion” Smith
1931–9 Quantitative electrochemical nature of corrosion Evans
1936 Langelier index Langelier
1938 Anodic and cathodic inhibitors Chyzewski, Evans
1938 E-pH thermodynamic diagrams Pourbaix
1939 Hastelloy C McCurdy
1950 Autocatalytic nature of pitting Uhlig
1956 Tafel extrapolation for measurement of kinetic Stern, Geary
parameters
1968 Electrochemical noise signature of corrosion Iverson
1970 Study of corrosion processes with Epelboin
electrochemical
impedance spectroscopy (EIS)

TABLE A.1 (continued)

757 758 759 760 761 762 763 764 765 766 767