Halogen Corrosion of Metals
References
A. Standen, H. F. Mark, J. J. McKetta, Jr., and D. F. Othmer (eds.), Kirk-Othmer Encyclopedia of Chemical Technology, 2nd ed., John Wiley, New York (1963).
J. H. Canterford and R. Colton, Halides of the Transition Elements: Halides of the Second and Third Row Transition Metals, John Wiley, London (1968).
J. H. Canterford and R. Colton, Halides of the Transition Elements: Halides of the First Row Transition Metals, John Wiley, London (1969).
D. Brown, Halides of the Transition Elements: Halides of the Lanthanides and Actinides, John Wiley, London (1968).
JANAF Thermo chemical Tables, U.S. Department of Commerce PB 168 370, Dow Chemical Co., Clearinghouse for Scientific and Technical Information, Midland, Mich. (1965).
C. E. Wicks and F. E. Block, Thermodynamic Properties of 65 Elements-Their Oxides, Halides, Carbides, and Nitrides, Bulletin 605, Bureau of Mines, Government Printing Office, Washington, D.C. (1963).
L. L. Quill (ed.), The Chemistry and Metallurgy of Miscellaneous Materials: Thermodynamics, McGraw-Hill, New York (1950).
J. W. Hamer, M. S. Malmberg, and B. J. Rubin, Theoretical Electromotive Force for Cells Containing a Single Solid or Molten Fluoride, Bromide, or Iodide, J. Electrochem. Soc. 112, 750–756 (1965).
O. Kubaschewski, E. L. Evans, and C. B. Alcock, Metallurgical Thermochemistry, Pergamon Press, Oxford (1967).
E. Steinmetz and H. Roth, Freie Standard-Bildungsenthalpien der Fluoride nach der Temperaturfunktion, J. Less-Common Metals 16, 295–342 (1968).
W. H. Skelton and J. W. Patterson, Free Energy Changes for Displacement Reactions Involving Metals and Their Fluorides, J. Less-Common Metals 31, 47 (1973).
J. H. Simons, Fluorine Chemistry, Vol. I, Academic Press, New York (1950).
J. H. Simons, Fluorine Chemistry, Vol. V, Academic Press, New York (1964).
R. C. Weast (editor-in-chief), Handbook of Chemistry and Physics, Chemical Rubber Co., Cleveland (1970).
T. B. Reed, Free Energy of Formation of Binary Compounds, MIT Press, Cambridge, Mass. (1971).
W. H. Skelton and J. W. Patterson, Free Energy Determinations by Solid Galvanic Cell Measurements for Selected Metal, Metal Fluoride Reactions, J. Less-Common Metals 31, 47–60 (1973).
K. Schafer and E. Lax, Landolt-Börnstein Zahlenwerte und Funktionen aus Physik, Chemie, Astronomie, Geophysik, und Technik, Vol. II, Pt. 3, Springer-Verlag, Berlin (1956).
E. M. Levin, C. R. Robbins, and H. F. McMurdie, Phase Diagrams for Ceramists (and supplement), American Ceramic Society, Columbus, Ohio (1969).
P. G. Shewmon, Diffusion in Solids, McGraw-Hill, New York (1963).
E. T. Turkdogan, The Theory of Enhancement of Diffusion-Limited Vaporization Rates by Convection-Condensation Process, Trans. Met. Soc. AIME (Amer. Inst. Mining, Met., Petrol. Eng.) 230, 740–750 (1964).
H. H. Kellog, Vaporization Chemistry in Extractive Metallurgy, Trans. Met. Soc. AIME (Amer. Inst. Mining, Met., Petrol. Eng.) 236, 602–615 (1966).
P. Kofstad, High Temperature Oxidation of Metals, John Wiley, New York (1966).
G. C. Wood, Oxidation of Metals, in Techniques of Metals Research, Vol. IV, part 2, International Publishers, New York (1970).
P. E. Brown, J. M. Crabtree, and J. F. Duncan, The Kinetics of the Reaction of Elementary Fluorine with Copper Metal, J. Inorg. Nucl. Chem. 1, 202–212 (1955).
P. M. O’Donnell and A. E. Spakowski, The Fluorination of Copper, J. Electrochem. Soc. 111(6), 633–636 (1964).
W. R. Myers and W. B. DeLong, Fluorine Corrosion. High-Temperature Attack on Metals by Fluorine and Hydrogen Fluoride. Behavior of Insulated Steel Parts in Fluorine Cells, Chem. Eng. Progr. 44(5), 359–362 (1948).
A. K. Kuriakose and J. L. Margrave, Kinetics of Reaction of Elemental Fluorine. III. Fluorination of Silicon and Boron, J. Phys. Chem. 68, 2671–2675 (1964).
E. A. Gulbransen, Surface Studies with the Vacuum Microbalance: High-Temperature Reactions, Advan. Catalysis 5, 119 (1953).
W. Y. Shiu, D. J. Young, and M. J. Dignam, Kinetics of Chlorination of Metallic Sodium at Low Temperatures, Oxid. Metals 7(2), 77–93 (1973).
G. L. Hung, I. M. Ritchie, R. J. Esdaile, and J. V. Sanders, Nickel-Fluorine Reactions in the Presence of Xenon, J. Catalysis 25(3), 460–462 (1972).
M. J. Dignam and D. A. Huggins, A Kinetic Study of the Heterogeneous Reactions of Metallic Sodium with Chlorine and Bromine, J. Electrochem. Soc. 114(2), 117–123 (1967).
D. E. Rosner and H. D. Allendorf, Kinetics of the Attack of Molybdenum by Dissociated Chlorine, J. Phys. Chem. 69(12), 4290–4296 (1965).
D. E. Rosner and H. D. Allendorf, Kinetics of the Attack of Refractory Solids by Atomic and Molecular Fluorine, J. Phys. Chem. 75(3), 308–317 (1971).
Y. Hasegawa, M. Shiojiri, and S. Matsumura, Quartz-Crystal Microbalance for Studying Chemical Reactions of Thin Metal Films, Shinku 13(9), 296–302 (1970).
M. Shiojiri, Y. Hasegawa, and Y. Tsujikura, Thermal Effect of Ultrasonic Vibration of Quartz-Crystal Microbalance on Chemical Reactions, Japan. J. Appl. Phys. 10(1), 143–148 (1971).
J. Gordon and F. L. Holloway, Handling Gaseous Fluorine and Chlorine Trifluoride in the Laboratory, Ind. Eng. Chem. 52(5), 63A–66A, 69A (1960).
C. Slesser and S. R. Schram (eds.), Preparation, Properties, and Technology of Fluorine and Organic Fluoro Compounds, McGraw-Hill, New York (1951).
H. W. Schmidt, Handling and Use of Fluorine and Fluorine-Oxygen Mixtures in Rocket Systems, NASA SP-3037, National Aeronautics and Space Administration, Washington, D.C. (1967).
R. H. McBride, Metering of Hydrofluoric Acid and Fluorine, AECD-3690, E. I. duPont de Nemours and Co., Wilmington, Del. (1945).
J. F. Froning, M. K. Richards, T. W. Stricklin, and S. G. Turnbull, Purification and Compression of Fluorine, Ind. Eng. Chem. 39, 275 (1947).
H. F. Priest and A. V. Grosse, Storage of Fluorine in Pressure Cylinders, Ind. Eng. Chem. 39, 279 (1947).
S. H. Smiley and C. R. Schmitt, Continuous Disposal of Fluorine, Ind. Eng. Chem. 46(2), 244–247 (1954).
C. J. Sterner and A. H. Singleton, The Compatibility of Various Metals and Carbon with Liquid Fluorine, WADD-TR-60–436, Wright Air Development Division, Wright-Patterson Air Force Base, Ohio (1960).
J. S. Sconce (ed.), Chlorine: Its Manufacture, Properties and Uses, Reinhold, New York (1967).
C. Wagner, Beitrag zur Theorie des Anlauf Vorgangs, Z. Phys. Chem. B21, 25–41 (1933).
C. Wagner, Beitrag zur Theorie des Anlauf Vorgangs II, Z. Phys. Chem. B32, 447–462 (1936).
C. Wagner, Diffusion and High Temperature Oxidation of Metals, in Atom Movements, pp. 153–173, American Society for Metals, Cleveland (1951).
R. A. Rapp and D. A. Shores, Solid Electrolyte Galvanic Cells, in Techniques of Metals Research, Vol. IV, Pt. 2 (R. A. Rapp, ed.), pp. 123–192, John Wiley, New York (1970).
C. Ilschner-Gench and C. Wagner, Local Cell Action During the Scaling of Metals, I, J. Electrochem. Soc. 105, 198–200 (1958).
C. S. Tedmon, Jr., The Effect of Oxide Volatilization on the Oxidation Kinetics of Chromium and Iron-Chromium Alloys, J. Electrochem. Soc. 113, 766–768 (1966).
J. P. Hirth and G. M. Pound, Condensation and Evaporation, Nucleation and Growth Kinetics, in Progress in Materials Science, Vol. 11, Macmillan, New York (1963).
C. Gelain, A. Cassuto, and P. LeGoff, Kinetics and Mechanism of Low-Pressure, High-Temperature Oxidation of Silicon-II, Oxid. Metals 3, 139–151 (1971).
H. Graham and H. Davis, Oxidation/Vaporization Kinetics of Chromium(III) Oxide, J. Amer. Ceram. Soc. 54, 89–93 (1971).
C. Wagner, Passivity During the Oxidation of Silicon at Elevated Temperatures, J. Appl. Phys. 29, 1295–1297 (1958).
E. T. Turkdogan, P. Gieveson, and L. S. Darken, Enhancement of Diffusion-Limited Rates of Vaporization of Metals, J. Phys. Chem. 67, 1647–1654 (1963).
F. P. Fehlner and N. F. Mott, Oxidation in the Thin-Film Range, in Oxidation of Metals and Alloys (D. L. Douglass, ed.), pp. 37–62, American Society for Metals, Metals Park, Ohio (1971).
C. Wagner, Formation of Thin Oxide Films on Metals, Corrosion Sci. 13, 23–52, (1973).
R. Herchl, N. N. Khoi, T. Homma, and W. W. Smeltzer, Effect of Product Condensation on Reaction-Enhanced Vaporization Rates and on the Transition from Homogeneous to Heterogeneous Reaction in High-Temperature Metal Oxidation, Oxid. Metals 4, 35–49 (1972).
L. Berry and J. Paidassi, Sur la cinétique et le mécanisme de reaction due nickel avec l’oxygène aux températures élevées, C.R. Acad. Sci., Ser. C 262, 1353–1356 (1966).
J. J. Van den Broeck and J. L. Meijering, Kinetics of the Oxidation of Nickel and Some of Its Alloys, Acta Met. 16, 375–379 (1968).
P. Kofstad, Effect of Impurities on the Defects in Oxides and Their Relationship to Oxidation of Metals,Corrosion 24, 379–388 (1968).
W. E. Boggs, R. H. Kachik, and G. E. Pellissier, The Effects of Crystallographic Orientation and Oxygen Pressure on Oxidation of Iron, J. Electrochem. Soc. 114, 32–39 (1967).
W. E. Boggs, The Role of Structural and Compositional Factors in the Oxidation of Iron and Iron-Based Alloys, in High Temperature Gas-Metal Reactions in Mixed Environments (S. A. Jansson and Z. A. Foroulis, eds.), Metallurgical Society of AIME, New York (1973).
A. G. Goursat and W. W. Smeltzer, Oxidation of Iron, in Reviews of High-Temperature Materials, Vol. I (J. Newkirk, ed.), pp. 351–396, Freund Publications, Tel-Aviv (1973).
A. Brückman, Mechanism of Transport of Matter Through the Scales During Oxidation of Metals and Alloys, Corrosion Sci. 7, 51–59 (1967).
S. Mrowec, Mechanism of High-Temperature Oxidation of Metals and Alloys, Corrosion Sci. 7, 563–578 (1967).
J. A. Roberson and R. A. Rapp, The Observation of Markers During the Oxidation of Columbium, Trans. Met. Soc. AIME(Amer. Inst. Mining, Met., Petrol. Eng.) 239, 1327–1331 (1967).
J. S. Sheasby, The Oxidation of Niobium in the Temperature Range 450°-720°C., J. Electrochem. Soc. 115, 695–700 (1968).
C. Wagner, Reaction Types in the Oxidation of Alloys, Z. Elektrochem. 63, 772–782 (1959).
R. A. Rapp, Kinetics, Microstructures, and Mechanism of Internal Oxidation. Its Effect and Prevention in High-Temperature Alloy Oxidation, Corrosion 21, 382–401 (1965).
J. Swisher, Internal Oxidation, in Oxidation of Metals and Alloys (D. L. Douglass, ed.), pp. 235–267, American Society for Metals, Metals Park, Ohio (1971).
G. C. Wood, Fundamental Factors Determining the Mode of Scaling of Heat-Resistant Alloys, Werkst. Korros. 22, 491–503 (1971).
B. Chattopadhyay and G. C. Wood, The Transient Oxidation of Alloys, Oxid. Metals 2, 373–400 (1970).
C. Wagner and K. E. Zimens, Die Oxydationsgeschwindigkeit von Nickel bei Kleinen Zusätzen von Chrom und Mangan, Acta Chem. Scand. 1, 547–565 (1947).
F. A. Kroger, The Chemistry of Imperfect Crystals, North-Holland, New York (1964).
J. W. Stout and E. Catalano, Heat Capacity of Zinc Fluoride from 11 to 300°K. Thermodynamic Functions of Zinc Fluoride. Entropy and Heat Capacity Associated with the Antiferromagnetic Ordering of Manganous Fluoride, Ferrous Fluoride, Cobaltous Fluoride, and Nickelous Fluoride, J. Chem. Phys. 23, 2013–2022 (1955).
T. C. Ehlert, R. A. Kent, and J. L. Margrave, Mass Spectrometric Studies at High Temperatures. VI. The Sublimation Pressure of Nickel(II) Fluoride, J. Amer. Chem. Soc. 86, 5093–5095 (1964).
C. F. Hale, E. J. Barber, H. A. Bernhardt, and K. E. Rapp, High-Temperature Corrosion of Some Metals and Ceramics in Fluorinating Atmospheres, K-1459, Nuclear Division, Union Carbide Corporation, Oak Ridge, Tenn. (1960).
Y. A. Luk’yanychev, I. I. Astakhov, and N. S. Nikolaev, Mechanism of the Formation of Fluoride Films on Nickel and Their Properties, Bulletin of the Academy of Science of the U.S.S.R., Division of Chemical Science 1965, 577–581 (1965). [Izv. Akad. Nauk SSSR, Ser. Khim. 4, 588–593 (1965).]
R. L. Jarry, W. H. Gunther, and J. Fischer, The Mechanism and Kinetics of the Reaction Between Nickel and Fluorine, ANL-6684, Argonne National Laboratory, Argonne, III. (1963).
R. L. Jarry, J. Fischer, and W. H. Gunther, The Mechanism of the Nickel-Fluorine Reaction, J. Electrochem. Soc. 110, 346–349 (1963).
A. H. Singleton, J. F. Tompkins, Jr., S. Kleinberg, and C. J. Sterner, Corrosion of Metals by Liquid Fluorine, Ind. Eng. Chem. 57(3), 47–53 (1965).
R. B. Jackson, Corrosion of Metals and Alloys by Fluorine, NP-8845, Allied Chemical Corporation, Morristown, N.J. (1960).
S. Kleinberg and J. F. Tompkins, The Compatibility of Various Metals with Liquid Fluorine, ASD-TDR-62–250, Air Force Systems Command, Wright-Patterson Air Force Base, Ohio (1962).
W. A. Cannon, S. K. Asunmaa, W. D. English, and N. A. Tiner, Passivation Reactions of Nickel and Copper Alloys with Fluorine, Trans. Met. Soc. AIME (Amer. Inst. Mining, Met., Petrol. Eng.) 242(8), 1635–1643 (1968).
N. F. Mott, A Theory of the Formation of Protective Oxide Films on Metals, Trans. Faraday Soc. 35, 1175–1177 (1939).
K. Hauffe and B. Ilschner, The Mechanism of the Oxidation of Nickel at Low Temperatures, Z. Elektrochem. 58, 382–387 (1954).
S. Lawroski, W. A. Rodger, R. C. Vogel, and V. H. Munnecke, Chemical Engineering Division Summary Report-Oct., Nov., Dec. 1959, ANL-6101, Argonne National Laboratory, Argonne, III. (1960).
F. J. Kohl and C. A. Stearns, Vaporization of Chromium Oxide from the Surface of TDNiCr Under Oxidizing Conditions, NASA TM X-52879, National Aeronautics and Space Administration, Washington, D.C. (1970).
J. D. McKinley, Mass-Spectrometric Investigation of the Nickel-Fluorine Surface Reaction, J. Chem. Phys. 45(5), 1690–1693 (1966).
T. W. Godwin and C. L. Lorenzo, Ignition of Several Metals in Fluorine, Paper No. 740–58, presented at the American Rocket Society Meeting, New York (Nov. 17–21, 1958).
W. H. Gunther and M. J. Steindler, Laboratory Investigations in Support of Fluid-Bed Fluoride Volatility Processes. Part XIV-The Corrosion of Nickel and Nickel Alloys by Fluorine, Uranium Hexafluoride, and Selected Volatile Fission Product Fluorides at 500°C, ANL-7241, Argonne National Laboratory, Argonne, III. (1966).
M. J. Steindler and R. C. Vogel, Corrosion of Materials in the Presence of Fluorine at Elevated Temperatures, ANL-5662, Argonne National Laboratory, Argonne, III. (1957).
E. D. Weisert, Hastelloy Alloy C, Chem. Eng. 59(6), 297–312 (1952).
C. Williams, Reactor Science and Engineering Department Progress Report for January 1-March 31, 1952, BNL-176, Brookhaven National Laboratory, Upton, N.Y. (1952).
A. A. Chilenskas and G. E. Gunderson, Engineering Development of Fluid-Bed Fluoride Volatility Processes. Part VII-The Corrosion of Nickel in Process Environments, ANL-6979, Argonne National Laboratory, Argonne, III. (1965).
L. E. Trevorrow and W. H. Gunther, Fluorine Corrosion Test of Nickel-Thoria Material, ANL-6687, Argonne National Laboratory, Argonne, III. (1963).
J. W. Johnson, D. Cubicciotti, and C. M. Kelly, Interactions of Metals with Their Molten Salts. I. The Nickel-Nickel Chloride System, J. Phys. Chem. 62, 1107–1109 (1958).
W. Fisher and R. Gewher, The Thermal Properties of Halides. IX. Melting and Boiling Points and Polarization Effects of the Manganous (Type) Halides, Z. Anorg. Allgem. Chem. 222, 303–311 (1935).
J. P. Coughlin, High-Temperature Heat Content of Nickel Chloride, J. Amer. Chem. Soc. 73, 5314–5315 (1951).
H. Schafer, L. Bayer, G. Briel, K. Etzel, and K. Krehl, Sättigungsdrucke der Chloride MnCl2, FeCl2, CoCl2 und NiCl2, Z. Anorg. Allgem. Chem. 278, 300–309 (1959).
K. L. Tseitlin and V. A. Strunkin, Effect of Water Vapor Concentration on the Corrosion of Metals by Chlorine, J. Appl. Chem. USSR 29(11), 1793–1800 (1956). (Zh. Prikl. Khim. 29(11), 1664–1672 (1956).)
K. L. Tseitlin, Effects of Water Vapor on the Corrosion of Metals by Chlorine,Zh. Prikl. Khim. 29, 1182–1191 (1956).
A. A. Murashkina, Production of Fittings Corrosion-Resistant to Chlorine at the Zhdanov Heavy Machine Construction Plant, Teknol. Organ. Proizvod. 1971(5), 57–58 (1971).
B. J. Downey, J. C. Bermel, and P. J. Zimmer, Kinetics of the Nickel-Chlorine Reaction at Temperatures Between 350 and 600°C, Corrosion 25(12), 502–508 (1969).
P. J. Zimmer, Personal Communication, Department of Chemistry, Villanova University, Villanova, Pa. (Aug. 1973).
K. L. Tseitlin and V. A. Strunkin, Effect of Dilution of Chlorine with Nitrogen on the Corrosion of Metals at High Temperatures, J. Appl. Chem. USSR 31, 1832–1838 (1958). [Zh. Prikl. Khim. 31, 1843–1849 (1958).]
K. L. Tseitlin, Effect of Temperature in Corrosion of Metals by Chlorine, J. Appl. Chem. USSR 28(5), 467–472 (1955). [Zh. Prikl. Khim. 28(5), 490–496 (1955).]
K. Hauffe and J. Hinrichs, High-Temperature Corrosion of Nickel in Chlorine and Chlorine-Oxygen Mixtures, Werkst. Korros. 21(11), 954–965 (1970).
J. D. McKinley, Mass-Spectrometric Investigation of the High-Temperature Reaction Between Nickel and Chlorine,J. Chem. Phys. 40(1), 120–125 (1964).
J. D. McKinley, Jr., and K. E. Shuler, Kinetics of the High-Temperature Heterogeneous Reaction of Chlorine and Nickel Between 1200 and 1700°K, J. Chem. Phys. 28, 1207–1212 (1958).
P. J. Gegner and W. L. Wilson, Corrosion Resistance of Titanium and Zirconium in Chemical Plant Exposures, Corrosion 15, 341t–350t (1959).
R. S. Sheppard, D. R. Hise, P. J. Gegner, and W. L. Wilson, Performance of Titanium vs. Other Materials in Chemical Plant Exposures, Corrosion 18, 211t–218t (1962).
M. H. Brown, W. B. DeLong, and J. R. Auld, Corrosion by Chlorine and by Hydrogen Chloride at High Temperatures, Ind. Eng. Chem. 39, 839–844 (1947).
J. Halfdanarson and K. Hauffe, High-Temperature Chlorination of Nickel and Nickel-Chromium Alloys, Werkst. Korros. 24(1), 8–15 (1973).
H. Schafer and H. Jacob, Sättigungsdrucke über Nickelbromid, Z. Anorg. Allgem. Chem. 286, 56–57 (1956).
G. S. Haines, Materials for Bromine Containers, Ind. Eng. Chem. 41, 2792–2797 (1949).
D. E. Lake and A. A. Gunkler, Moisture: Key to Bromine Corrosion, Chem. Eng. 67, 137–138 (1960).
L. Gal-Or, Corrosion of Metals by Bromine, Hamatekhet 1971 (4), 1–3 (1971).
P. D. Miller, E. F. Stephan, W. E. Berry, and W. K. Boyd, Corrosion Resistance of Nickel and Two Nickel Alloys to Gaseous Bromine, BMI-X-489, Battelle Memorial Institute, Columbus, Ohio (1968).
J. D. McKinley, Mass-Spectrometric Investigation of the Nickel-Bromine Surface Reaction, J. Chem. Phys. 40(2), 576–581 (1964).
R. F. Rolsten, Iodide Metals and Metal Iodides, John Wiley, New York (1961).
V. I. Ginzburg and O. I. Kabakova, Corrosion Stability of Metals in Iodine and Iodine-Containing Media, Zashch. Metal. 5(6), 627–632 (1969).
N. S. Mott, Materials Selection Chart, Chem. Eng. 57(8), 197–200 (1950).
L. Arbellot, Behavior of Nickel and Its Alloys in the Presence of Halogens, Corros. et Anticorros. 5, 112–119 (1957).
H. von Wartenberg, Copper Fluoride, Z. Anorg. Allgem. Chem. 241, 381–394 (1939).
H. M. Haendler, L. H. Towle, E. F. Bennett, and W. L. Patterson, Jr., The Reaction of Fluorine with Copper and Some of Its Compounds. Some Properties of Copper(II) Fluoride,J. Amer. Chem. Soc. 76, 2178–2179 (1954).
R. A. Kent, J. D. McDonald, and J. L. Margrave, Mass-Spectrometric Studies at High Temperatures. IX. The Sublimation Pressure of Copper(II) Fluoride, J. Phys. Chem. 70, 874–877 (1966).
J. Gillardeau, L. M. Vincent, and J. Oudar, Behavior of Copper in Gas Fluorinating Medium, Metallurgie (Mons, Belg.) 6(3), 125–132 (1966).
S. M. Toy, W. D. English, and W. E. Crane, Studies of Galvanic Corrosion Couples in Liquid Fluorine, Corrosion 24(12), 418–421 (1968).
J. D. Jackson, Corrosion in Cryogenic Liquids, Chem. Eng. Progr. 57(4), 61–64 (1961).
J. M. Crabtree, C. S. Lees, and K. Little, The Copper Fluorides. Part I-X-Ray and Electron Microscope Examination, J. Inorg. Nucl. Chem. 1, 213–217 (1955).
Y. A. Luk’yanychev, N. S. Nikolaev, I. I. Astakhov, and V. I. Luk’yanychev, A Study of the Mechanism of Copper Fluorination at High Temperatures, Dokl. Akad. Nauk SSSR 147(5), 1130–1132 (1962).
U. R. Evans, Crack-Heal Mechanism of the Growth of Invisible Films on Metals, Nature 157, 732 (1946).
N. F. Mott and N. Cabrera, Theory of the Oxidation of Metals, Rept. Progr. Phys. 12, 163–184 (1949).
J. Gillardeau, Y. Macheteau, P. Plurien, and J. Oudar, Some Aspects of the Fluorination of Copper and Iron, Oxid. Metals 2(3), 319–330 (1970).
J. Gillardeau, Thesis, Atomic Energy Commission, France, Report 3212, Faculté des Sciences, Paris (1967).
P. M. O’Donnell and A. E. Spakowski, Reaction of Copper and Fluorine from 800° to 1200°F, NASA-TN-D-768, National Aeronautics and Space Administration, Washington, D.C. (1961).
M. J. Steindler and R. C. Vogel, Corrosion of Metals in Gaseous Fluorine at Elevated Temperatures, ANL-5560, Argonne National Laboratory, Argonne, III. (1957).
J. Gillardeau, L. Vincent, and J. Oudar, The Existence of a Nucleation Phenomenon in the Reaction of Fluorine on Copper, C.R. Acad. Sci., Ser. C 263(25), 1469–1472 (1966).
J. Gillardeau and P. Plurien, Contribution à l’étude de la fluoruration du cuivre, in Proceedings of the 6th International Symposium on the Reactivity of Solids, John Wiley, New York (1969).
R. Landau and R. Rosen, Industrial Handling of Fluorine, Ind. Eng. Chem. 39(3), 281–286 (1947).
G. Brauer, Handbook of Preparative Inorganic Chemistry, Academic Press, New York (1963).
C. M. Fontana, E. Gorin, G. A. Kidder, and C. S. Meridith, Chlorination of Methane with Copper Chloride Melts,Ind. Eng. Chem. 44, 363–368 (1952).
R. A. J. Shelton, Vapor Pressures of Solid Copper(I) Halides, Trans. Faraday Soc. 57, 2113–2118 (1961).
American Brass Company, Corrosion Resistance of Copper and Copper Alloys, Chem. Eng. 58(1), 108–112 (1951).
K. L. Tseitlin, Corrosion of Metals by Chlorine at High Temperatures, J. Appl. Chem. USSR 27(9), 889–893 (1954). [Zh. Prikl. Khim. 27(9), 953–958 (1954).]
K. L. Tseitlin, The Effect of Air on the Corrosion of Metals by Chlorine at High Temperatures, J. Appl. Chem. USSR 29, 253–259 (1956). [Zh. Prikl. Khim. 29, 229–235 (1956).]
L. G. Harrison and C. F. Ng, Reactivity and Catalytic Activity of Copper Chlorides. 1. Kinetics of the Reaction of Copper(I) Chloride with Chlorine, Trans. Faraday Soc. 67(6), 1787–1800 (1971).
Le-Van-My, G. Perinet, and P. Bianco, Thermal Modification of Copper Iodide and Copper Bromide, Bull. Soc. Chim. France 1965, 3651–3654 (1965).
J. Krug and L. Sieg, Die Struktur der Hochtemperatur-Modifikationen des CuBr und CuJ, Z. Naturforsch. A 7a, 369–371 (1952).
Brussels University, A Survey of Some Metal Oxidation Problems, EURAEC-1619, Quarterly Report No. 13, Jan. 1-Mar. 31, 1966, U.S. Atomic Energy Commission, Washington, D.C. (1966).
Brussels University, A Study of Some Metal Oxidation Problems. Solid Gas Reactions Study Section: Oxidation of Metals, EURAEC-1897, Final Report No. 3, U.S. Atomic Energy Commission, Washington, D.C. (1967).
R. W. G. Wyckoff, Crystal Structures, Vol. I, Wiley-Interscience, New York (1963).
R. W. G. Wyckoff, Crystal Structures, Vol. II, Wiley-Interscience, New York (1964).
K. F. Zmbov and J. L. Margrave, Mass-Spectrometric Studies at High Temperatures. XV. Sublimation Pressures of Chromium, Manganese, and Iron Trifluorides and the Heat of Dissociation of Fe2F6(g), J. Inorg. Nucl. Chem. 29, 673–680 (1967).
R. A. Kent and J. L. Margrave, Mass-Spectrometric Studies at High Temperatures. VIII. The Sublimation Pressure of Iron(II) Fluoride, J. Amer. Chem. Soc. s87, 4754–4756 (1965).
Y. Macheteau, J. Gillardeau, P. Plurien, and J. Oudar, Fluorination Kinetics of Iron, Oxid. Metals 4(3), 141–149 (1972).
P. M. O’Donnell, Kinetics of the Fluorination of Iron, NASA-TN-D-3575, National Aeronautics and Space Administration, Washington, D.C. (1966).
P. M. O’Donnell, Kinetics of the Fluorination of Iron, J. Electrochem. Soc. 114(3), 218–221 (1967).
U. R. Evans, The Corrosion and Oxidation of Metals: Scientific Principles and Practical Applications, St. Martin’s Press, New York (1960).
G. Heinemann, F. G. Garrison, and P. A. Haber, Corrosion of Steel by Gaseous Chlorine, Ind. Eng. Chem. 38, 497–499 (1946).
S. F. Bohlken, A. Klinkenberg, and H. W. Nicolai, Reaction of Iron with Gaseous Chlorine, Ind. Chim. Beige. 20, Special Number, 579–581 (1955).
S. F. Bohlken, A. Klinkenberg, and H. W. Nicolai, Reaction of Iron with Gaseous Chlorine, C.R. Congr. Intern. Chim. Ind. 27e, 2–4 (1954).
R. J. Fruehan, The Rate of Chlorination of Metals and Oxides. Part I. Fe, Ni, and Sn in Chlorine, Met. Trans. 3(10), 2585–2592 (1972).
W. A. Luce and R. B. Seymour, Construction Materials in the Paper Industry. Part. II. Bleaching, Chem. Eng. 57(10), 217–223 (1950).
S. D. Kirkpatrick and J. R. Callaham, Fourteenth Annual Report on Materials of Construction, Chem. Eng. 57(11), 107–154 (1950).
M. R. Bloch, A. Bodenheimer, J. A. Epstein, and I. Schnerb, Prevention of Corrosion of Stainless Steel by Molecular Bromine, Corrosion Sci. 11(1), 453–461 (1971).
L. Gal-Or, Corrosion of Metals by Bromine,Hamatekhet 1971(4), 1–3 (1971).
E. I. Gurovich, Kinetics of the Formation of Corrosion Centers on Metals, Bull. Acad. Sci. U.R.S.S., Cl. Sci. Math. Nat., Sir. Khim. 1937, 1453–1484 (1937).
F. W. Fink and E. L. White, Corrosion Effects of Liquid Fluorine and Liquid Oxygen on Materials of Construction, Corrosion 17(2), 58t–60t (1961).
W. Davis, Jr., and F. D. Rosen, Constant Pressure Apparatus for Studying Reaction Rates, Rev. Sci. Instrum. 23, 332–334 (1952).
M. G. Evans, The Attack of Aluminum by Chlorine. I. High-Pressure (100–600 torr) Investigation, Mem. Proc. Manchester Lit. Phil. Soc. 79, 13–28 (1935).
H. P. Godard, W. B. Jepson, M. R. Bothwell, and R. L. Kane, The Surface Oxide Film on Aluminum, in The Corrosion of Light Metals, John Wiley, New York (1967).
E. Rabald, Corrosion Guide, American Elsevier, New York (1968).
E. R. Hodges, Further Notes on Aluminum, Chem. News 123, 141 (1921).
L. R. Horst, Aluminum, Chem. Eng. (New York) 59(5), 300–316 (1952).
P. M. O’Donnell,Kinetics of the Fluorination of Beryllium, NASA-TN-D-3992, National Aeronautics and Space Administration, Washington, D.C. (1967).
P. M. O’Donnell, Kinetics of the Fluorination of Beryllium, J. Electrochem. Soc. 114, 1206–1209 (1967).
J. S. Lukesh, Research on the Problem of Ductility in Beryllium, NP-7706, Progress Report No. 2, Wright Air Development Center, Wright-Patterson Air Force Base, Ohio (1958).
M. Lemarchands and M. Jacob, Effect of Temperature on Phenomena of Chemical Inertia (Especially the Action of Chlorine on Metals), Bull. Soc. Chim. 53, 1139–1144 (1933).
V. A. Fedoseev, Combustion of Magnesium and Aluminum Particles in Different Media, Fiz. Aerodispersnykh Sist. S1970(3), 61–72 (1970).
L. McCulloch, Reactions of Magnesium and Aluminum with Iodine and with Concentrated Sulfuric Acid, J. Chem. Educ. 24, 240 (1947).
J. H. Cabaniss and J. G. Williamson, A Literature Survey of the Corrosion of Metal Alloys in Liquid and Gaseous Fluorine, NASA-TM-X-54612, National Aeronautics and Space Administration, Washington, D.C. (1963).
D. A. Huggins, Kinetics of the Reactions of Metallic Sodium with Chlorine, Bromine, and Oxygen, Diss. Abstr. 26(5), 2494–2495 (1965).
A. Tamisier, Chemical Inertness and Temperature, Bull. Union Physicians 61(493), 261–263 (1967).
G. L. Ericson, W. K. Boyd, and P. D. Miller, Corrosion of Titanium and Titanium-Base Alloys in Liquid and Gaseous Fluorine, NP-6729, Battelle Memorial Institute, Columbus, Ohio (1958).
M. J. Steindler, D. V. Steidl, and R. K. Steunenberg, The Fluorination of Metallic Titanium, ANL-6002, Argonne National Laboratory, Argonne, III. (1959).
E. E. Millaway and M. H. Kleinman, Factors Affecting Water Content Needed to Passivate Titanium in Chlorine, Corrosion 23(4), 88–97 (1967).
Imperial Chemical Industries, Ltd., Failure of Titanium in Dry Chlorine, Tappi 44, 183A-184A (1961).
G. E. Hutchinson and P. H. Permar, Corrosion Resistance of Commercially Pure Titanium, Corrosion 5(10), 319–325 (1949).
R. K. Swandby, Corrosion Charts: Guide to Materials Selection, Chem. Eng. 69(11), 186–201 (1962).
K. Shimizu, Corrosion Resistance of Titanium to Chlorine and Chlorides, Chitanium Jirukoniumu 15(2), 39–43 (1967).
I. Y. Klinov and V. V. Andreeva, Titanium and Its Alloys as a Material of Construction, Khim. Mashinostroenie 1960(4), 5–8 (1960).
L. B. Golden, I. R. Lane, Jr., and W. L. Acherman, Corrosion Resistance of Titanium, Zirconium, and Stainless Steel in Mineral Acids, Ind. Eng. Chem. 44, 1930–1935 (1952).
K. L. Tseitlin, L. L. Faingol’d, and V. A. Strunkin, Chemical Stability of Titanium in Halogen Acids and Halides,Metalloved. Titana, Akad. Nauk SSSR, Gos. Kom. Sov. Min. SSSR po Chem. i Tsvetn. Met., Inst. Met., Tr. Pyatogo Soveshch., Moscow 1963, 150–159 (1964).
O. J. C. Runnalls and L. M. Pidgeon, Observations on the Preparation of Iodide Titanium,J. Metals 4, 843–847 (1952).
O. Glemser, H. Roesky, and K. H. Hellberg, Preparation of Chromium(V) Fluoride and Chromium(VI) Fluoride, Angew. Chem. Intern. Ed. Engl. 2, 266–267 (1963). [Angew. Chem. 75, 346 (1963).]
A. J. Edwards, Chromium Pentafluoride and Chromium Oxide Tetrafluoride, Proc. Chem. Soc. 1963, 205 (1963).
R. J. Sime and N. W. Gregory, Vaporization of Chromium(III) Bromide. Evidence for Chromium(IV) Bromide, J. Amer. Chem. Soc. 82, 93–96 (1960).
R. L. Jarry, W. H. Gunther, and J. Fisher, Metal-Fluorine Reactions. Chemical Engineering Division Summary Report for Jan. Feb., Mar. 1960, ANL-6145, pp. 110–114, Argonne National Laboratory, Argonne, III.
L. Stein and R. C. Vogel, The Behavior of Uranium, Thorium, and Other Selected Materials in Bromine Trifluoride, Bromine Pentafluoride, Chlorine Trifluoride, and Fluorine at Elevated Temperatures, ANL-5441, Argonne National Laboratory, Argonne, III. (1955).
A. Garlick and P. D. Wolfenden, Fracture of Zirconium Alloys in Iodine Vapor, J. Nucl. Mater. 41(3), 274–292 (1971).
A. Garlick, Stress-Corrosion Cracking of Zirconium Alloys in Iodine Vapor, Eff. Environ. Mater. Prop. Nucl. Syst., Proc. Intern. Conf. Corrosion 1971, 21–35 (1971).
J. C. Wood, Stress-Corrosion Cracking of Zirconium Alloy Fuel Sheaths in Iodine Vapor, AECL-4353, Chalk River Nuclear Laboratory, Chalk River, Ontario, 13–15 (1972).
A. L. Percy, Tantalum, Chem. Eng. 59(4), 259–264 (1952).
W. E. Pratt, L. R. Scribner, and C. G. Chisholm, Wet and Dry Chlorine vs. Materials of Chemical Plant Construction, Chem. Eng. 54(2), 219 (1947).
G. Gottschalk and G. M. Neumann, Simulation of Heterogeneous Gas Equilibria. I. Metal-Halogen Systems with Examples for Tungsten-Halogen Systems, Z. Metallk. 62(12), 910–915 (1971).
M. Iwasaki, T. Yahata, K. Suzuki, and K. Oshima, Reaction of Metallic Tungsten and Fluorine Gas, Kogyo Kagaku Zasshi 65, 1165–1167 (1962). [UCRL-Trans-1044(L), University of California, Berkeley, Calif. (1962).]
P. C. Abbott and R. E. Stickney, Quasi-Equilibrium Analysis of the Reaction of Atomic and Molecular Fluorine with Tungsten, J. Phys. Chem. 76(20), 2930 (1972).
J. D. McKinley, Jr., Mass-Spectrometric Investigation of the Surface Reaction of Tungsten with Chlorine-Oxygen Mixtures, in Proceedings of the 6th International Symposium on the Reactivity of Solids, John Wiley, New York (1969).
N. P. Galkin, M. F. Sviderskii, N. P. Petranin, and V. A. Bardin, Kinetics of the Fluorination of Tungsten-Rhenium Melts (at 200–600°C),Russ. J. Inorg. Chem. 16(5), 711–713 (1971). [Zh. Neorg. Khim. 16, 1345–1348 (1971).]
C. M. Nelson, G. E. Boyd, and W. T. Smith, Magnetochemistry of Technetium and Rhenium, J. Amer. Chem. Soc. 76, 348 (1954).
A. Chow, Losses of Iridium During Heating in Various Atmospheres, Talanta 19(7), 899–902 (1972).
Y. I. Ivashentsev and R. I. Timonova, Chlorination of Palladium and Behavior of Its Chloride on Heating, Russ. J. Inorg. Chem. 12(3), 308–310 (1967). [Zh. Neorg. Khim. 12(3), 592–595 (1967).]
Y. I. Ivashentsev and R. I. Timonova, Thermographic Study of Platinum Chlorination and Decomposition of Platinum Tetrachloride, Zh. Vses. Khim. Obshchest. 12(1), 109–110 (1967).
J. S. Sconce, Chlorine: Its Manufacture, Properties, and Uses, Reinhold, New York (1962).
P. M. O’Donnell, A Kinetic Study of the Fluorination of Silver,J. Electrochem. Soc. 117 (10), 1273–1275 (1970).
G. Tammann, The Velocity of Action of Halogens, Oxygen and Nitrogen upon Metals as Judged on the Basis of Their Tempering Colors, Rec. Trav. Chim. 42, 547–551 (1923).
V. G. Tammann and W. Koster, The Velocity of Reaction of Oxygen, Hydrogen Sulfide, and Halogens with Metals,Z. Anorg. Allgem. Chem. 123, 196–221 (1922).
J. A. Lorenzen, Atmospheric Corrosion of Silver, Inst. Environ. Sci., Tech. Meet., Proc. 17, 110–116 (1971).
C. Wagner, Beitrag zur Theorie des Anlaufvorganges. II, Z. Phys. Chem. 32B, 447–462 (1936).
C. Wagner, Reactions of Metals and Alloys with Oxygen, Sulphur, and Halogens at High Temperatures, Pittsburgh Intern. Cong. Surface React. 1948, 77–82 (1948).
H. B. Linford and M. J. Ford, Corrosion of Silver in a Water-Saturated Chlorine Atmosphere,Trans. Electrochem. Soc. 93(1), 16–26 (1948).
J. L. Weininger, Room-Temperature Tarnishing of Silver in Bromine and Iodine, J. Electrochem. Soc. 105, 577–581 (1958).
C. Gensch and K. Hauffe, Speed of Bromination of Some Silver Alloys, Z. Phys. Chem. 195, 386–393 (1950).
K. Hauffe and C. Gensch, Uber die Bromierungsgeschwindigkeit von Silber-Cadmium-Legierungen, Z. Phys. Chem. 195, 116–128 (1950).
D. M. Smyth and M. Cutler, Tarnishing Reactions of Silver in Iodine Atmospheres, J. Electrochem. Soc. 106, 107–113 (1959).
G. Tammann, Tarnishing of Metals, Z. Anorg. Allgem. Chem. 111, 78–89 (1921).
R. Dubrisay, Periodic Phenomena in the Corrosion of Metals by Vapors, C.R. Acad. Sci. 229, 829–831 (1949).
D. Balarew, Disperse Structure of Solid Systems and Its Thermodynamic Foundation, Kolloid-Z. 101, 47–52 (1942).
A. Landsberg and C. L. Hoatson, Kinetics and Equilibriums of the Gold-Chlorine System, J. Less-Common Metals 22(3), 327–339 (1970).
S. Lawroski, R. C. Vogel, M. Levenson, and V. H. Munnecke, Chemical Engineering Division Quarterly Report-Jan., Feb., Mar. 1963, ANL-6687, Argonne National Laboratory, Argonne, III. (1963).
H. M. Haendler, W. L. Patterson, Jr., and W. J. Bernard, The Reaction of Fluorine with Zinc, Nickel, and Some of Their Binary Compounds. Some Properties of Zinc and Nickel Fluorides, J. Amer. Chem. Soc. 74, 3167–3168 (1952).
M. H. Zirin, The Formation of Cadmium Fluoride by Metal-Fluorine Reaction, Oxid. Metals 3(4), 319–329 (1971).
M. H. Zirin, Observation on the Kinetic Behavior of a Parabolic Type Metal-Gas Reaction with Induced Cracks in the Scale: A Note, Oxid. Metals 3(6), 539–544 (1971).
H. Sugier, Reaction of Cadmium Iodination and Isotopic Exchange in the CdI2(s)-I2(g) System, Nukleonika 12, 367–372 (1967).
E. Montignie, Action of Iodine on Copper and of Iodine on Mercury, Bull. Soc. Chim. 8, 202–209 (1941).
V. A. P’yankov, Rate of Reaction of Several Gases with a Mercury Surface, Ukr. Khim. Zh. 28, 585–589 (1962).
R. A. Ogg, Jr., H. C. Martin, and P. A. Leighton, Kinetics of the Vapor-Phase Reaction of Mercury and Halogens, J. Emer. Chem. Soc. 58, 1922–1924 (1936).
H. Moissan, Sur la préparation à l’état de pureté du trifluorure de bore et du tétrafluorure de silicum et sur quelques constantes physiques de ces composes, C.R. Acad. Sci. 139, 711–714 (1904).
H. Moissan, Nouvelles Recherches sur le Fluor, Ann. Chim. Phys., Ser. 6 24, 224–282 (1891).
A. K. Kuriakose and J. L. Margrave, Kinetics of Reaction of Elemental Fluorine. III. Fluorination of Silicon and Boron, J. Phys. Chem. 68, 2671–2675 (1964).
V. V. Tyapkina and N. S. Guseva, Interaction of a Silicon Surface with Fluorine and Hydrogen Fluoride, Russ. J. Phys. Chem. 40(5), 573–576 (1966).
V. V. Tyapkina and N. S. Guseva[Zh. Fiz. Khim. 40(5), 1064–1069 (1966).]
M. L. Bernard, A. Cointot, and J. P. Coulombier, Kinetics of the Fluorination of Powdered Silicon by Gaseous Fluorine, C.R. Acad. Sci., Ser. C 275(3), 159–162 (1972).
P. S. Brallier, The Chlorination of Metals, Trans. Amer. Electrochem. Soc. 49, 257–266 (1926).
J. P. Dismukes and R. Ulmer, Gas-Phase Etching of Silicon with Chlorine, J. Electrochem. Soc. 118(4), 634–636 (1971).
S. E. Craig, Jr., Gas-Phase Etching of Silicon with Chlorine, J. Electrochem. Soc. 118(12), 2034–2035 (1971).
G. N. Khodalevich, L. G. Sakovich, and V. V. Serebrennikov, Bromination of Silicon in the Presence of Copper and Its Bromides, Zh. Prikl. Khim. 45(8), 1863–1864 (1972).
J. I. Carasso and I. Stelzer, The Surface Chemistry of Germanium. II. Erosion by Chlorine, J. Chem. Soc. A1960, 1797–1803 (1960).
D. R. Olander, Surface Chemical Kinetics and Gas-Phase Diffusion in the Germanium-Iodine Reaction, Ind. Eng. Chem. Fundam. 6(2), 178–188 (1967).
W. J. Heinecke and S. Ing, Jr., Surface Kinetics and Physics Investigation of the Reaction Between Single-Crystal Germanium and Iodine, J. Appl. Phys. 32, 1498–1504 (1961).
I. G. Khar’yuzov, G. A. Kurov, and E. A. Rakova, Local Growing of Epitaxial Films, Protsessy Rosta Strukt. Monokrist. Sloev. Poluprov., Tr. Simp. 1, 296–304 (1966).
T. Arizumi and I. Akasaki, Etch Patterns and the Mechanism of Etching of Germanium by Iodine Vapor, Japan. J. Appl. Phys. 2, 143–150 (1963).
J. J. Lander and J. Morrison, Low-Energy Electron-Diffraction Study of the Surface Reactions of Germanium with Oxygen and with Iodine, J. Appl. Phys. 34, 1411–1415 (1963).
D. R. Olander, Variable Property, Interfacial Velocity, and the Multicomponent Diffusion Effects in the Transport-Limited Reaction of Iodine and Germanium, Ind. Eng. Chem., Fundam. 6(2), 188–194 (1967).
N. F. Zakhariya and V. P. Grechanovskii, Iodination of Metallic Germanium, Ukr. Khim. Zh. 30(11), 1141–1142 (1964).
H. M. Haendler, S. F. Bartram, W. J. Bernard, and D. Kippax, The Reaction of Fluorine with Tin, Its Oxides and Sulfides, J. Amer. Chem. Soc. 76, 2179–2180 (1954).
Y. P. Kuznetsov, E. S. Petrov, and A. I. Vakhrusheva, Chemistry of the Reaction of Tin Oxides with Chlorine in the Presence of a Reducing Agent. III. Reaction of Tin with Chlorine, Phosgene and Tin Tetrachloride, Izv. Sib. Otd. Akad. Nauk SSSR, Ser. Khim. Nauk 1968(5), 30–33 (1968).
V. Fomin, A. G. Zvezdin, and A. N. Ketov, High-Temperature Process of Tin Chlorination, J. Appl. Chem. USSR 44(2), 409–411 (1971).
V. Fomin, A. G. Zvezdin, and A. N. Ketov[Zh. Prikl. Khim. 44(2), 416–418 (1971).]
C. L. Mantell, Utilization of Chlorine in Recovery of Tin and Tin Salts from Tin Plate Scrap, Trans. Amer. Electrochem. Soc. 49, 267–275 (1926).
G. Whitaker, Corrosion of Metals in Fluorine and Hydrofluoric Acid, Corrosion 6, 283–285 (1950).
K. H. Roll, Lead and Lead Alloys, Chem. Eng. 60(2), 264–280 (1953).
K. H. Roll, Discussion of Corrosion of Metals in Fluorine and Hydrofluoric Acid, Corrosion 9, 74 (1953).
M. R. Bloch, D. Kaplan, and I. Schnerb, Storage of Bromine, Israeli Patent 8660 (Mar. 8, 1956).
H. Sugier, Isotopic Exchange in the PbI2(s)-I2(g) System and the Mechanism of Lead Iodination, Nukleonika 12, 357–365 (1967).