Corrosion: A Literature Survey,1965

Schikorr G. , Werkstoffe Korros., 1963, 14, 69; 1964, 15, 457

Mayne J. E. O. , J. appl. Chem., Lond., 1959, 9, 673

Schwarz H. , Werkstoffe Korros., 1965, 16, 93

Schwarz H. , Werkstoffe Korros., 1965, 16, 208

Evans U. R. , Nature, Lond., 1965, 206, 980

Evans U. R. , Trans. Inst. Metal Finish., 1960, 37, 1

Evans U. R. , & Taylor C. A. J. , Trans. Inst. Metal Finish., 1965, 43, 178

Evans U. R. , & Taylor C. A. J., Trans. Inst. Metal Finish., 1962, 39, 188

Edeleanu C. , & Estruch B. , I.S.A. Spec. Report No. 86 (BISRA/ISA Conference, Scarborough, 2nd-4th June, 1964)

Skinner E. N. , & Moran J. J. , Proc. 12th Annu. Petroleum Mechanical Engng Conf., September, 1957

Wiggin & Co. Ltd., H., Incoloy Alloy 800 for Pyrolysis and Reforming Furnaces’, Publ.3001, March, 1963

Cribb G. S. , Br. chem. Engng, 1964, 9, 366

Murty P. S. , & Edge R. E. , Trans. Instn Gas Engrs, 1963, 9, 459

Dent F J. ., Proc. Joint Conf. on Gasification (Inst. of Fuel), 1962, p. 131

Debie N. C. , & Schorr V. , Br. chem. Engng, 1964, 9, 24

Andrew S. P S. ., Chemy Ind., 1965, p. 826

Milner M. J. , Chem. Process Engng, April and May, 1965 (2 articles)

Truman J. , & Perry R. , Br. Corr. J., 1965, 1, 60

Lang F. S. , Int. Nickel Co. Ltd., Tech. Pap., 1963, No. 827

Pearl W. L. , & Gouch G. C. , USAEC Rep. CEAP 5164A, March, 1963

Thomas K. C. , et al., Corros. Sci., 1965, 5, 71

Thomas K. C. , & Allio R. J. , Nature, Lond., 1965, 206, 82

Maylor J B. ., Cebelcor Proceedings No. 69 (1965)

Wiggin & Co. Ltd., H., ‘Properties and Applications of INCOLOY alloy 825,’ Publication3207, February, 1965

Maylor J B. ., & Warde, E., Werkstoffe Korros., 1965, 16, 382 CNI-O-NEL alloy 825-Eine neue korrosionsfeste Legierung fur die chemische Industrie')

Maylor J. B. , & Warde E. , Achema Conference Proc., June 1964

Maylor J. B. , Nickel-Ber., 1964, 5, 159

Maylor J B. ., Ii Nickel, 1963, 8, 1–7

A.S.M.E. Special Code Cases, 1244–1, 1244–2 (1963)

Dreissigacker H. , Chem. Process Engng, May1964

Neumann P. D. , & Griess J. T. , Corrosion, 1963, 19, 196

Clarke C. L. , J. Pwr Engng, 1960, 1, 35

Clarke C. L. , J. Pwr Engng, 1960, 1, 61

Eberle, Anderson, J. Pwr Engng, 1962, 4, 223

Spalaris C. N. , Nucleonics, 1963, 9, 41

U.S.A.F.C., Rep. GEAP 4351, July, 1963

U.S.A.F.C., Rep. GEAP 4557, April, 1964

U.S.A.F.C., Rep. GEAP 4633, Nov., 1964

Coriou et al., Third Met. Symp. on Corrosion, 1960, p. 161 (N. Holland Pub. Co.)

Copson H. R. , & Dean S. W. , Corrosion, 1965, 21, 1 40a. Rep. Progr. appl. Chem., 1964, 49, 70

Watson S. A. , Trans. Inst. Metal Finish., 1963, 40, 41

Ashurst K. G. , Trans. Inst. Metal Finish., 1963, 40, 74

Edwards J. , Trans. Inst. Metal Finish., 1964, 42, 32

Melbourne S H. ., & Flint, G. N., Trans. Inst. Metal Finish., 1962, 39, 85

Watson S. A. , Trans. Inst. Metal Finish., 1962, 39, 91

Edwards J. , & Carter V E. ., Trans. Inst. Metal Finish., 1962, 39, 142

Bigge D. M. , Trans. Inst. Metal Finish. 1963, 40, 160

Brown H. , & Silman, H., Trans. Inst. Metal Finish., 1964, 42, 50

Safranek W. H. , & Faust C. L. , Trans. Inst. Metal Finish., 1964, 42, 41

Flint G. N. , Trans. Inst. Metal Finish., 1963, 40, 98

Dennis J. K. , & Such T. E. , Trans. Inst. Metal Finish., 1963, 40, 60

Flint G. N. , & Melbourne S H. ., Trans. Inst. Metal Finish., 1961, 38, 35

Edwards J. , & Carter V E. ., Trans. Inst. Metal Finish., 1963, 40, 48

BS 1224: 1965, Electroplated Coatings of Nickel and Chromium ( London: Brit. Standards Inst.)

‘A New Stress Corrosion Crack Test Procedure for High Strength Alloys’, submitted for publication to the ASTM, 1965

Provow D. M. , & Fisher R. W. , Corrosion, 1965, 21, 268

Low-pressure oxidation of tantalum at 1300-1800°. Kofstad, P., J. less-common Metals, 1964, 7, 241

Vanadium-oxygen system-a review. Stringer, J., J. less-common Metals, 1965, 8, 1

Oxidation of vanadium at high temperature. Price, Stringer, J., J. less-common Metals, 1965, 8, 165

Mechanism of the high-temperature oxidation of iron-chromium alloys in water vapour. Fujii, C. T., & Meussner, electrochem. Soc., 1965, 111, 1215

Mechanism of oxidation of zirconium in the temperature range 400–8500. Hussey R. J. , & Smeltzer W. W. , J. electrochem. Soc., 1964. 111, 1221

Scaling of Fe-26Cr alloys at 870-1200°. Caplan, D., & Cohen, M., J. electrochem. Soc. 1965, 112, 471

Oxidation of nickel in the temperature range 900-14W. Fueki, K., & Wanger, J. B., J. electrochem. Soc., 1965, 112, 384

Effect of oxygen pressure on the oxidation of zone-refined iron. Boggs, W. E., Kachik, R. H., & Pellissier, G. E., J. electrochem. Soc., 1965, 112, 539

Molybdenum oxidation kinetics at high temperatures. Bartlett, R. W., J. electrochem. Soc., 1965, 112, 744

High-temperature corrosion of oil-fired boilers. Poczok, I., Werkstoffe Korros., 1965, 16, 657

High-temperature corrosion tests with different heat-resistant materials in an oil/gas fired industrial boiler. John, E., Werk-stoffe Korros., 1965, 16, 761

Some viewpoints on high-temperature corrosion with the combus-tion of gas, coal and oil. Rahmel, A., Werkstoffe Korros., 1965, 16, 776

Mechanism of metal oxidation at high temperatures. Hauffe, K., Werkstoffe Korros., 1965, 16, 791

Oxidation of irradiated beryllium in carbon dioxide. Bennett, M. J., et al., J. nucl. Mater., 1965, 17, 60

High temperature oxidation of chrome and Ni-Cr steels in air and in an atmosphere of low oxygen content. Decroix, J., App!. Mater. Res., 1964, 3, 35

Kinetics Microstructures and Mechanism of Internal Oxidation. Rapp, R. A., Corrosion, 1965, 21, 382

Oxidation data of chromium and 80Mi-2200Cr heater alloys. Evans, E. B., Corrosion, 1965, 21, 274

Passivity of nickel in acid solution. Markovic, T., & Ahmedbasic, M., Werkstoffe Korros., 1965, 16, 212

Passivity of metal in neutral and alkaline solutions. Markovic, T., Werkstoffe Korros., 1965, 16, 570

New data on mechanism of passivation. Novakovsky, V. M., & Lichachev, I. A., Zashch. Metallov., 1965, 1, 13

Passivity of molybdenum. Posdeeva, A. A., Antonovskaya, E. J., & Suchotin, A. M., Zashch. Metallov., 1965, 1, 20

Some aspects of the metal passivity mechanism. Krasilschikov, A. I., Zashch. MetaUov., 1965, 1, 150

Influence of anions on passivation of iron in neutral solutions. Freiman, L. I., & Kolotyrkin, Ya. M., Zashch. MetaUov., 1965, 1, 161

Structural corrosion and passivation of iron.Freiman, L. I., Kolotyrkin, Ya. M., & Giventahl, A. Ya., Zashch. MetaUov., 1965, 1, 286

Anodic polarisation behaviour of nickel-chromium alloys in sulphuric acid solutions. Myers, J. B., Beck, F. H., & Fontana, M. G., Corrosion, 1965, 21, 277.

Relationships between anodic passivity brightening and pitting. Hoar, T. P., Mears, D. C., & Rothwell, G. P., Corros. Sci., 1965, 5, 279

Electrochemical assessment of chromium in passivation films on tin plate. Britton, S. C., Br. Corr. I., 1965, 1, 91.

Theory of organic corrosion inhibitors-adsorption and linear free-energy relationships. Donahue, F. M., & Nobe, K., J. electro-chem. Soc., 1965, 112, 886

Organic inhibitors of lead corrosion in soft water. Myagkova, A. R., & Putilova, I. N., J. app!. Chem., USSR, 1964, 37, 2601 (Eng. Tr.), 2636 (Russian)

An inhibitor of acid corrosion. Chen, N. G., J. appl. Chem., USSR, 1964, 37, 1942 (Eng. Tr.), 1958(Russian)

Anticorrosive action in the vapour phase of various inhibitive products. Ardos, E., Corros. Anti-Corros., 1965, 13, 72

Corrosion inhibitors. IV. Suppression of the dissolution of aluminium by organic substances in acid and alkaline solutions. Horner, L., et al., Werkstoffe Korros., 1965, 16, 36

Influence of anion absorption on the corrosion inhibition of iron and cobalt in acid solutions. Iofa, Z. A., Batrakov, V. V., & Ngok Ba, H. 0., Zashch. Metallov., 1965, 1, 55

Use of bimetallic glassy phosphates for corrosion control. Kleber, J. P., J. Am. Wat. Wks Ass., 1965, 57, 783

Action of adsorptive inhibitors in some corrosive systems. Ives, M. B., Ind. Engng Chem., 1965, 57, 34

Inhibitive properties of the pertechnetate ion. Spitsin, V. I., et. al., Corrosion, 1965, 21, 211

Inhibition of the corrosion of iron on the pH range 6–9. Gilroy D. , & Mayne J. E. O. , Br. Corr. J., 1965, 1, 107

Study of electrochemical phenomena arising from the precipitation of carbides in various 18–8 stainless steels. Voeltzel, J., Métaux Corros. Inds, 1965, 40, 91, 158, 202 (In 3 parts)

Corrosion of austenitic chromium-nickel steels at high anodic potentials and their connection with susceptibility to inter-crystalline corrosion. Schwenk, W., & Ternes, H., Arch. Eisenhutt Wes., 1965, 36, 99

Polarisation resistance as a corrosion test for stainless steel in sulphuric acid. Butler, T. J., & Carter, P. R., Electrochem. Technol., 1965, 3, 157

Various aspects of the corrosion resistance of high purity 18–10 stainless steels. Cunha, M., et al., Corros. Anti-Corros., 1964, 12, 297

Corrosion resistance of stainless steels in the atmosphere. Experi-ences from Great Britain and the United States. Evans, T. E., Werkstoffe Korros., 1964, 15, 797

Corrosion resistance of stainless steels in the atmosphere. Experi-ence in Germany. Jannsen, K., & Moser, R., Werkstoffe Korros., 1964, 15, 804

Influence of the lattice structure on the corrosion of an 18/10 chrome nickel steel. Buhler, H. E., & Schwenk, W., Werkstoffe Korros., 1964, 15, 909

Stainless steels for chemical technology. Present position and recent developments. Oppenheim, R., Werkstoffe Korros., 1965, 16, 1

Dependence on temperature and concentration of the stress corro-sion cracking of austenitic Cr-Ni steels in MgCl 2 solution. Kohl, H. Werkstoffe Korros., 1965, 16, 364

New stainless steels for chemical equipment. Jesper, H., & Wesseling, W., Werkstoffe Korros., 1965, 16, 453

Electrochemical mechanisms of intergranular corrosion of stainless steels and methods of its determination. Kossyi, G. G., & Kuzub, V. S., Zashch. Metallov., 1965, 1, 42

Influence of alloy age on the resistance of austenitic steels against the corrosion cracking in concentrated solutions of chlorides. Ryabchenkov, A. V., & Gerasimov, V. I., Zashch. Metallov., 1965, 1, 48

Influence of fluorine ions on the electrochemical and corrosion behaviour of stainless steels. Zinman, A. I., Kuzuls, V. S., & Socolova, L. A., Zashch. Metallov., 1965, 1, 173

Intergranular corrosion of non-sensitised austenitic stainless steels. Armijo, J. S., Corrosion, 1965, 21, 235

Corrosion of stainless steel of the 1Crl 8Ni9Ti type in acid mixtures. Rosenfeld, I. L., Novitskata, M. A., & Selezneva, T. A., Zashch. Metallov., 1965, 1, 265

Decrease in passivation current of 1Crl 8Ni9Ti steel in presence of organic compounds. Grigoryev, V. P., Zashch. Metallov., 1965, 1, 280

Anodic protection of stainless steel in the protection of stainless steels in the production of complex fertilisers containing potassium chloride. Kuzub, L. G., et al., Zashch. Metallov., 1965, 1, 396

Electrochemical investigation of the influence of carbon, titanium and manganese contents on the corrosion resistance of Cr-Ni-Mn stainless steels. Knyazheva, V. M., et al., Zashch. Metallov., 1965, 1, 465

Passivation and breakdown of passivity on steel constructions in concrete. Moskvin, V. M. Alexeyev, S. N., & Novgorodski, V.I., Zashch. Metallov. 1965, 1, 558

Corrosion of stainless steels by zinc vapour. Bennett, G. A., Nelson, P. A., & Burns, L., Trans. AIME, 1965, 233, 1032

Protection of ships with calcium-containing anodes. Pechent-kovski, E. L., Zashch. Metallov., 1965, 1, 401

Behaviour of high-strength steels under cathodic protection. McEowen, J. L., & Elsen, A. R., Corrosion, 1965, 21, 28

Relationships between natural microbial corrosion and fungus tests in the laboratory. Rychtera, E., & Niederfuhrova, E., Werkstoffe Korros., 1965, 16, 116

Investigations into iron corrosion caused by bacteria. Frenzel, H. J., Werkstoffe Korros., 1965, 16, 651

Pipeline corrosion inhibited by a bactericide. Punkiss, B. E., & Cameron, R. W. N., Gas. J., 1965, 323, 297

Effect of inhibitors on sulphate-reducing bacteria: a compilation. Saleh A. M. MacPherson R. , & Miller J. D. A. , J. appl. Bad., 1964, 27, 28l

Effect of carbon, nitrogen, aluminium and titanium content on intercrystalline stress corrosion in plain carbon steels. Munster, R., & Grafen, H., Arch. Eisenhutt Wes., 1965, 36, 277

Contribution to the problem of intercrystalline stress corrosion of mild steels in alkali solutions. Grafen, H., & Kuron, D., Arch. Eisenhutt Wes., 1965, 36, 285

Role of absorbed CN groups in the hydrogen embrittlement of steel. Beck, W., Glass, A. L., & Taylor, E. J., J. electrochem. Soc., 1965, 112, 53

Intergranular corrosion penetration in an age-hardenable alumin-ium alloy. Nichols, H., & Rostoker, W., J. electrochem. Soc., 1965, 112, 108

Corrosion cracking of Mg-Al-Zn-Mn alloy in different media. Zaretskii, E. M., J. appl. Chem., USSR, 1964, 37, 1498

Simple apparatus for stress-corrosion tests. Quaranta-Cabral, U., Corros. Anti-Corros., 1965, 13, 214

Cracking of steel due to corrosion in aggressive media. Smialowski, M., Corros. Anti-Corros., 1965, 13, 170

Synopsis of stress-corrosion cracking. I. The importance of stress corrosion cracking in industrial practice. Class I. Werkstoffe Korros., 1965, 16, 277; IL Considerations of a fundamental nature on the problem of stress corrosion cracking. Ibid., p. 288

Moisture and stable crack growth in a high-strength steel. John-son, H. H., & Milner, A. M., Appl. mater. Res., 1965, 4, 34

Analysis of the early stages of the hydrogen attack on steel. Allen, R. E., Diss. Abstr., 1965, 25, 5847

Mechanism of stress corrosion cracking in austenitic stainless steels. Saxena, M. N., Diss. Abstr., 1965, 25, 5849

Possibility of service failure of stainless steels by stress corrosion cracking. Truman, J. E., & Kirkby, H. W., Metallurgia, 1965, 72, (8), 67

Some aspects of the fatigue process in low-carbon steel. Klensil, M., et al., J. Iron Steel Inst., 1965, 203, 47

Effect of contaminants on resistance to stress-corrosion cracking of Ni-Cr Alloy 600. Copson, H. R., & Dean, S. W., Corrosion, 1965, 21, 1

Initial stages of stress-corrosion cracking in austenitic stainless steels. Louthan, M. R., jun., Corrosion, 1965, 21, 288

Threshold stress and incubation period in stress corrosion of types 302 and 316 wire in boiling magnesium chloride. Krafft, G. H. G., et al., Corrosion, 1965, 21, 188

Stress corrosion cracking of face-centered-cubic alloys. Tromans, D., & Nutting, J., Corrosion, 1965, 21, 143

Stress corrosion behaviour of managing nickel steels in natural environments. Dean, S. W., & Copson, H. R., Corrosion, 1965, 21, 95

Hydrogen embrittlement of austenitic stainless steel. Whiteman, M. B., & Troiane, A. R., Corrosion, 1965, 21, 53

Resistance to stress corrosion cracking of some Cr-Ni-Fe austenitic steels and alloys. Truman, J. E., & Perry, R., Br. Corr. J., 1965, 1, 60

Propagation of stress corrosion cracks in austenitic stainless steels. West, J. M., & Fairman, L., Br. Corr. J., 1965, 1, 67

Origin of delay time in stress corrosion cracking of austenitic stainless steels. Uhlig, H. H., & Sara, J. P., Corros. Scl., 1965, 5, 291

Thermodynamical theory of pitting corrosion. Wetter, K. J., Ber. Bunsen Ges. phys. Chem., 1965, 69, 683

Accelerated methods for evaluating the probability of pitting corrosion of copper in natural waters. Effects of copper in contact with another metal or graphite. Van Laer, P., et al., Cebelcor Rapp. Tech., 1965, No. 128

Electrochemical characteristics of corrosion pits on copper in natural waters and chloride solutions. Van Muylder, P., Poubaix, M., & van Laer, P., Cebelcor Rapp. Tech., 1965, No. 127

Relation between anodic dissolution and resistance to pitting corrosion. Greene, M. D., & Judd, G., Corrosion, 1965, 21, 15

Study of the decomposition of ferrous oxide. Erai, T., Metaux Corros. Inds, 1965, 40, 221, 328 (two parts)

Corrosion of steels and nickel alloys in super-heated steam. Ruther, W. E., & Greenberg, S., J. electrochem. Soc., 1964, 111, 1116

Steel corrosion mechanisms-growth and breakdown of protective films in high-temperature aqueous solutions. Bloom, M. C., Newport, G. N., & Fraser, W. A., J. electrochem. Soc., 1964, 111, 1343

Effect of surface treatment on the corrosion of stainless steels in high-temperature water and steam. Warzec, M., et al., J. electrochem., Soc., 1965, 112, 670

The problem of natural water corrosion. Girard, R., Corros. Anti-Corros., 1964, 12, 347

Corrosion of low alloyed steels in demineralised water at 25 and 360. Effect of oxygen. Coriou, H., et al., Corros. Anti-Corros., 1964, 12, 358

Aqueous corrosion problems in the field of nuclear energy. Coriou, H., Corros. Anti-Corros., 1965, 13, 55

Corrosion control in a water-cooled stator. Wall, K. H., & Davies, I., J. apple Chern., Lond., 1965, 15, 389

Influence of movement and temperature on corrosion of mild steel. II. High-purity water. Butler, G., & Stroud, E. G., J. appl. Chem., Lond., 1965, 15, 325; II. Chloride solutions. Butler, G., & Stroud, E. G., Br. Corr. J., 1965, 1, 110

Corrosion of mild steel in tidal waters of the Thames estuary. II. Results of two years’ immersion. Booth, G. H., Cooper, A. W., & Tiller, A. K., J. apple Chem., Lond., 1965, 15, 250

Fast linear growth of magnetite on mild steel in high temperature aqueous conditions. Potter, E. C., & Mann, G. M. W., Br. Corr. J., 1965, 1, 15

Aluminium in fresh waters. Bell, Winifred A., & Campbell, H. C., Br. Corr. J., 1965, 1, 72

Corrosion resistance of aluminium in fresh waters with special reference to pipelines. Booth, F. F., Murray, G. A. W., & Godard, H. P., Br. Corr. J., 1965, 1, 80

Chemical etching of high-purity aluminium. Bakish, R., Kornhaas, R., & Borders, E. Z., Electrochem. Technol., 1965, 3, 116

Electropolishing of copper specimens. Powers, R. W., Electrochem. Technol., 1964, 2, 274

Comparing the results of electro-chemical corrosion testing methods with the practical performance of the materials. Poubaix, M., Werkstoffe Korros., 1964, 15, 821

Significance of corrosion testing methods with special reference to the S 02 test in accordance with the German Standard Specifications DLN 50018. Kesternich, W., Werkstoffe Korros., 1965, 16, 193

Systematic corrosion tests with galvanic coatings in a sulphur dioxide atmosphere. Kutzelnigg, A., Werkstoffe Korros., 1965, 16, 750

Guide to non-destructive testing in corrosion protection. Mossom, L., Corros. Prevo Control., 1965, 12, (4), 19

Dielectric loss spectra of corrosion films on zirconium. Harrop, P. J., & Wanklyn, J. N., J. electrochem. Soc., 1964, 111, 1133

Kinetics of anodic dissolution of germanium. Boddy, P. J., J. electrochem. Soc., 1964, 111, 1136

Uranium corrosion. I. Optical method for following oxide formation. Grimes, J. H., & Morris, J. R., UKAEA AWRE Rep.1965, 0-66/65

Comparison of the results of electrochemical measurements on lowalloy steels with their corrosion behaviour. Becker, G., Arch. Eisenhutt Wes., 1965, 36, 489

Surface oxidation of gold electrodes. Brummer, S. B., & Makrides, A. C., J. electrochem. Soc., 1964, 111, 1122

Anodic oxidation of tantalum in formic acid electrolytes. Cheseldine, D. M., J. electrochem. Soc., 1964, 111, 1128

Corrosion of iron and steel in NH 4N03-NH3-H20 solutions. Schick, G., & Uhlig, H. H., J. electrochem. Soc., 1964, 111, 1211

Use of platinum electrodes in chloride solutions. Frankenthal, R. P., & Pickering, H. W., J. electrochern. Soc., 1965, 112, 514

Magnetic properties and corrosion behaviour of thin electroless Co-P deposits.Judge, J. S., et al., J. electrochem. Soc. 1965, 112, 681.

Corrosion under the conditions of ammonium nitrate production by the one step process (without evaporation). Kilman, Va. I., & Zilbermann, D. E., J. appl. Chem., USSR, 1965, 37, 2596

Differential aeration corrosion couples. Ulanovskii, I. B., J. apple Chem., USSR, 1964, 37, 1503

Corrosion of lead-antimony alloys in various electrolytes. Blaise, M. R., Corros. Anti-Corros., 1965, 13, 3

Behaviour of various metals and alloys in fluorine. Langlois, -., et al., Corros. Anti-Corros., 1965, 13, 159

Influence of neutral salts on the kinetics of iron corrosion. Schwabe, K., & Voigt, C., Werkstoffe Korros., 1965, 16, 125

Living with corrosion. Prange, F., Werkstoffe Korros., 1965, 16, 368

Mechanism of dezincification and the effect of arsenic. I. II. Lugey, V. F., Br. Corr. J., 1965, 1, 53

‘Electrodeposition and corrosion processes.’ West, J. M., 1965 (London: Van Nostrand)

‘Corrosion testing procedures.’ 2nd Ed., Champion, F. A., 1964 (London: Chapman & Hall)

‘Oxidation of metals.’ Hauffe, K. (Translation from German), 1965 (New York: Plenum Press)

‘Electrode processes.’ Conway, B. E., 1965 (New York: Ronald Press)

‘Corrosion of metals and alloys.’ Collection translated from Russian.1964 (Boston Spa: N.L.L.)

‘Electrofinishing.’ Brioni, M., & Luck, J. R., 1965 (Amsterdam: Elsevier)