ТЕРМОДИНАМИЧЕСКАЯ ОЦЕНКА КОРРОЗИОННОЭЛЕКТРОХИМИЧЕСКОГО ПОВЕДЕНИЯ СВИНЦОВОЙ ЛАТУНИ ЛС74-3
Аннотация
Рассчитаны термодинамические активности компонентов латуни ЛС74-3. Построены диаграммы потенциал – рН системы «латунь ЛC74-3 – Н2 О» при 25 °С, общем давлении воздуха 1 бар и различных активностях ионов в растворе. Анализируются термодинамические особенности химической и электрохимической стойкости латуни ЛC74-3.
Литература
Смирягин А.П., Смирягина Н.А., Белова А.В. Промышленные цветные металлы и сплавы. М.: Металлургия. 1974. 488 с.
Pantazopoulos G. Journal of Materials Engineering and Performance. 2002. V. 11. No 4. P. 402–407.
Routara B.C., Mohanty S.D., Datta S., Bandyopadhyay A., Mahapatra S.S. Sadhana: Academy Proceedings in Engineering Sciences. 2010. V. 25. No 5. P. 619–629.
García P., Rivera S., Palacios M., Belzunce J. Engineering Failure Analysis. 2010. V. 17. No 4. P. 771–776.
Pantazopoulos G., Vazdirvanidis A. Journal of Failure Analysis and Prevention. 2008. V. 8. No 3. P. 218–222.
Загиров Н.Н., Иванов Е.В., Ковалева А.А., Аникина В.И. Вестник Магнитогорского государственного технического университета имени Г.И. Носова. 2013. № 2 (42). С. 64–68.
Кузьмина Е.В., Марущак Л.Н., Железняк Л.М., Князев К.В. Металлургия машиностроения. 2014. № 6. С. 45–48.
Кузьмина Е.В., Марущак Л.Н., Железняк Л.М., Латыпова Е.А. Цветные металлы. 2012. № 5. С. 93–96.
Wilborn M.M., Vecchia F.D., Mozetic H., Schneider E.L., Oliveira C.T., Schaeffer L. Ciência & Tecnologia dos Materiais. 2013. V. 25. No 1. P. 14–22.
García P., Rivera S., Palacios M., Belzunce J. Anales de Mecánica de la Fractura. 2009. V. 29. No 2. P. 664–669.
Щукин Д.А., Железняк Л.М. Инновации в материаловедении и металлургии: материалы IV Международной интерактивной научно-практической конференции. Екатеринбург: Издательство Уральского университета. 2015. С. 170–173.
Gawalowski A. Zeitschrift für analytische Chemie. 1899. Bd. 38. Heft 12. S. 769–774.
Korshin G.V., Ferguson J.F., Lancaster A.N. Corrosion Science. 2000. V. 42. No 1. P. 53–66.
Maas R.P., Patch S.C., Christian A.-M., Coplan M.J. NeuroToxicology. 2007. V. 28. No 5. P. 1023–1031.
Badawy W.A., El-Egamy S.S., El-Azab A.S. Corrosion Science. 1995. V. 37. No 12. P. 1057–1067.
Kimbrough D.E. Journal (American Water Works Association). 2007. V. 99. No 8. P. 70–76.
Badawy W.A., Al-Kharafi F.M. Corrosion. 1999. V. 55. No 3. P. 268–277.
El-Sherif R.M., Ismail K.M., Badawy W.A. Electrochimica Acta. 2004. V. 49. No 28. P. 5139–5150.
Kumar S., Sankara Narayanan T.S.N., Manimaran A., Suresh Kumar M. Materials Chemistry and Physics, 2007. V. 106. No 1. P. 134–141.
Chen B.X., Song J., Zhong J.H. Zhuzao. 2006. V. 55. No 5. P. 516–518.
Chou T.C. Journal of Materials Science. 1998. V. 33. No 14. P. 3585–3590.
Ismail K.M., Elsherif R.M., Badawy W.A. Corrosion. 2005. V. 61. No 5. P. 411–419.
Ismail K.M., El-Egamy S.S., Abdelfatah M. Journal of Applied Electrochemistry. 2001. V. 31. No 6. P. 663– 670.
Constantinides I., Adriaens A., Adams F. Applied Surface Science. 2002. V. 189. No 1–2. P. 90–101.
Sun Z.M., Barsoum M.W. Journal of Materials Research. 2005. V. 20. No 5. P. 1087–1089.
Shahrabi T., Newman R.C., Sieradzki K. Journal of the Electrochemical Society. 1999. V. 140. No 2. P. 348–352.
Тюрин А.Г. Термодинамика химической и электрохимической устойчивости твёрдых сплавов железа, хрома и никеля. Челябинск: Издательство Челябинского государственного университета. 2011. 241 с.
Брусенцов Ю.А., Пручкин В.А., Филатов И.С. Маркировка материалов электронной техники. Тамбов: Издательство Тамбовского государственного технического университета. 2006. 80 с.
Латунь и её свойства. Справочник по цветным металлам. URL: http://libmetal.ru/lat/lat%201.htm (дата обращения – 22.VIII.2015).
Диаграммы состояния двойных металлических систем: справочник. В 3 томах / под ред. Н.П. Лякишева: Т. 1. М.: Машиностроение. 1996. 992 с.; Т. 2. М.: Машиностроение. 1997. 1024 с.; Т. 3. Кн. 1. М.: Машиностроение. 2000. 872 с.; Т. 3. Кн. 2. М.: Машиностроение. 2000. 448 с.
Phase diagram – Web // FactSage Database. URL: http://www.crct.polymtl.ca/fact/documentation (дата обращения – 22.VIII.2015).
Copper & Copper Alloy Microstructures: Leaded Brasses // Copper Development Association Inc. URL: http:// www.copper.org/resources/properties/microstructure/ lead_brasses.html (дата обращения – 22.VIII.2015).
van Laar J.J. Zeitschrift für Physikalische Chemie. Stöchiometrie und Verwandtschaftslehre. 1908. Bd. 63. Heft 2. S. 216–253; Bd. 64. Heft 3. S. 257–297.
van Laar J.J. Chemisch Weekblad. 1908. Bd. 6. S. 1027–1041.
Kaufman L., Bernstein H. Computer Calculation of Phase Diagrams with Special Reference to Refractory Metals. New York: Academic Press. 1970. 334 p.
Kattner U.R. JOM: The Journal of the Minerals, Metals & Materials Society (TMS). 1997. V. 49. No 12. P. 14–19.
Lukas H.L., Fries S.G., Sundman B. Computational Thermodynamics: The CALPHAD Method. Cambridge: Cambridge University Press. 2007. 323 p.
Gibbs J.W. Transactions of the Connecticut Academy of Arts and Sciences. 1875–1878. V. 3. P. 108–248, 343–524.
Helmholtz H. Sitzungsberichte der Königlich Preußischen Akademie der Wissenschaften zu Berlin. 1882. S. 22–39, 825–836; 1883. S. 647–665.
McNaught A.D., Wilkinson A. Compendium of Chemical Terminology: The Gold Book. 2nd Edition. Hoboken: Blackwell Science, 1997. 464 p.
Dinscale A.T. CALPHAD: Computer Coupling of the Phase Diagram and Thermochemistry. 1991. V. 15. No 4. P. 317–425.
Scatchard G., Hamer W.J. Journal of the American Chemical Society. 1935. V. 57. No 10. P. 1805–1809.
Scatchard G., Hamer W.J. Journal of the American Chemical Society. 1935. V. 57. No 10. P. 1809–1811.
Лаптев Д.М. Термодинамика металлургических растворов: монография. – Челябинск: Металлургия, 1992. 352 с.
Thomson W. Proceedings of the Cambridge Philosophical Society, Mathematical and Physical Sciences. 1843. V. 1. P. 66–71; The London, Edinburgh, and Dublin Philosophical Magazine and Journal of Science. Third Series. 1848. V. 33. No 222. P. 309–317.
Horstmann A. Justus Liebig‘s Annalen der Chemie und Pharmacie. 1873. Bd. 170. Heft 1–2. S. 192–210.
Horstmann A. Verhandlungen des Naturhistorisch-medizinischen Vereins zu Heidelberg. Neue Folge. 1877. Bd. 1. Heft 5. S. 465–479.
Михайлов Г.Г., Леонович Б.И., Кузнецов Ю.С. Термодинамика металлургических процессов и систем: монография. М.: Издательский дом МИСиС. 2009. 520 с.
Hildebrand J.H. Proceedings of the National Academy of Sciences of the United States of America. 1927. V. 13. No 5. P. 267–272.
Hildebrand J.H. Journal of the American Chemical Society. 1929. V. 51. No 1. P. 66–80.
Redlich O., Kister A.T. Industrial and Engineering Chemistry. 1948. V. 40. No 2. P. 345–348.
Lewis G.N. Proceedings of the American Academy of Arts and Sciences. 1907. V. 43. P. 257–294.
Lewis G.N. Journal of the American Chemical Society. 1908. V. 30. No 5. P. 668–683.
Wohl K. Transactions of the American Institute of Chemical Engineers. 1946. V. 42. P. 215–249; Chemical Engineering Progress. 1953. V. 49. P. 218–219.
Helfrich G., Wood B. American Mineralogist. 1989. V. 74. No 9–10. P. 1016–1022.
Hwang C.-A., Holste J.C., Hall K.R., Mansoori G.A. Fluid Phase Equilibria. 1991. V. 62. No 3. P. 172–189.
Mukhopadhyay B., Basu S., Holdaway M.J. Geochimica et Cosmochimica Acta. 1993. V. 57. No 2. P. 277–283.
Kowalski M., Spencer P.J. Journal of Phase Equilibria. 1993. V. 14. No 4. P. 432–438.
Spencer P.J. CALPHAD: Computer Coupling of the Phase Diagram and Thermochemistry. 1986. V. 10. No 2. P. 175–185.
Xiaowang Z., Hsu T.Y. (Xu Zuyao). Acta Metallurgica. 1989. V. 37. No 11. P. 3085–3090.
Tyurin A.G., Schrainer A.A. Protection of Metals. 2007. V. 43. No 3. P. 291–297.
Borggren U., Selleby M. Journal of Phase Equilibria. 2003. V. 24. No 2. P. 110–121.
Liang H., Chang Y.A. Journal of Phase Equilibria. 1998. V. 19. No 1. P. 25–37.
Wang C.P., Liu X.J., Ohnuma I., Kainuma R., Ishida K. CALPHAD: Computer Coupling of the Phase Diagram and Thermochemistry. 2000. V. 24. No 2. P. 149– 167.
Onderka B., Zabdyr L.A. Scandinavian Journal of Metallurgy. 2001. V. 30. No 5. P. 320–323.
Chakrabarti D.J., Laughlin D.E. Bulletin of Alloy Phase Diagrams. 1984. V. 5. No 5. P. 503–510.
Niemelä J., Effenberg G., Hack K., Spencer P.J. CALPHAD: Computer Coupling of the Phase Diagram and Thermochemistry. 1986. V. 10. No 1. P. 77–89.
Hayes F.H., Lukas H.L., Effenberg G., Petzow G. Zeitschrift für Metallkunde. 1986. Bd. 77. Heft 11. S. 749– 754.
Teppo O., Niemelä J., Taskinen P. Thermochimica Acta. 1991. V. 185. No 1. P. 155–169.
David N., Hertz J., Fiorani J.-M. Zeitschrift für Metallkunde: International Journal of Materials Research. 2003. V. 94. No 1. P. 8–11.
Kima S.S., Sanders T.H., Jr. Zeitschrift für Metallkunde: International Journal of Materials Research. 2003. V. 94. No 4. P. 390–395.
Srivastava M., Sharma R.C. Journal of Phase Equilibria. 1993. V. 14. No 6. P. 700–709.
Jantzen T., Spencer P.J. CALPHAD: Computer Coupling of the Phase Diagram and Thermochemistry. 1998. V. 22. No 3. P. 417–434.
Miettinen J., Gandova V., Vassilev G. CALPHAD: Computer Coupling of the Phase Diagram and Thermochemistry. 2010. V. 34. No 3. P. 377–383.
Ansara I., Sundman B. Proceedings of the 10th CODATA International Conference. Editor P. S. Glaeser. Amsterdam: Elsevier Science Publishing. 1987. P. 154–158.
Niu Y., Gesmundo F. Journal of Materials Science & Technology. 2003. V. 19. No 6. P. 545–552.
Бокштейн Б.С., Менделев М.И. Краткий курс физической химии: учебное пособие. Издание 2-е, исправленное. М.: Издательство «ЧеРо». 2001. 232 с.
Жуховицкий А.А. Журнал физической химии. 1944. Т. 18. № 5/6. С. 214–238.
Guggenheim E.A. Transactions of the Faraday Society. 1945. V. 41. P. 150–156.
Smithells Metals Reference Book. Eighth edition / Eds. Gale W.F., Totemeier T.C. Butterworth-Heinemann, 2003. 2080 p.
Hallstedt B., Gauckler L.J. CALPHAD: Computer Coupling of the Phase Diagram and Thermochemistry, 2003. V. 27. No 2. P. 177–191.
O’Neill H.S.C. American Mineralogist. 1988. V. 73. No 5/6. P. 470–486.
Schramm L., Behr G., Löser W., Wetzig K. Journal of Phase Equilibria and Diffusion. 2005. V. 26. No 6. P. 605–612.
Clavaguera-Mora M.T., Touron J.L., Rodrı́ guez-Viejo J., Clavaguera N. Journal of Alloys and Compounds. 2004. V. 377. No 1–2. P. 8–16.
Hallstedt B., Risold D., Gauckler L.J. Journal of Phase Equilibria. 1994. V. 15. No 5. P. 483–499.
Shishin D., Decterov S.A. CALPHAD: Computer Coupling of the Phase Diagram and Thermochemistry. 2012. V. 38. P. 59–70.
Boudéne A., Hack K., Mohammad A., Neuschütz D., Zimmermann E. Zeitschrift für Metallkunde. 1992. V. 83. No 8. P. 663–668.
Whangbo M.-H., Koo H.-J. Inorganic Chemistry. 2002. V. 41. No 13. P. 3570–3577.
Wang L.-S., Wu H., Desai S.R., Lou L. Physical Review B: Condensed Matter and Materials Physics. 1996. V. 53. No 12. P. 8028–8031.
Chertihin G.V., Andrews L., Bauschlicher C.W., Jr. The Journal of Physical Chemistry A. 1997. V. 101. No 22. P. 4026–4034.
Moiseev G.K., Ivanovskii A.L. Inorganic Materials. 2006. V. 42. No 6. P. 632–634.
Borowiec K., Kolbrecka K. Journal of the Less Common Metals. 1990. V. 163. No 1. P. 143–149.
Rashad A.M. Construction and Building Materials. 2013. V. 48. P. 1120–1133.
Моисеев Г.К., Ватолин Н.А., Маршук Л.А., Ильиных Н.И. Температурные зависимости приведённой энергии Гиббса некоторых неорганических веществ: альтернативный банк данных ASTRA.OWN. Екатеринбург: УрОРАН. 1997. 230 с.
Moiseev G.K., Vatolin N.A. Russian Journal of Physical Chemistry A: Focus on Chemistry. 1997. V. 71. No 3. P. 335–337.
Cocke D.L., Schennach R., Hossain M.A., Mencer D.E., McWhinney H., Parga J.R., Kesmez M., Gomes J.A.G., Mollah M.Y.A. Vacuum. 2005. V. 79. No 1–2. P. 71–83.
Lefez B., Kartouni K., Lenglet M., Rönnow D., Ribbing C.G. Surface and Interface Analysis. 1994. V. 22. No 1–12. P. 451–455.
Mencer D.E., Hossain M.A., Schennach R., Grady T., McWhinney H., Gomes J.A.G., Kesmez M., Parga J.R., Barr T.L., Cocke D.L. Vacuum. 2004. V. 77. No 1. P. 27– 35.
Mencer D.E., Hossain M.A., Parga J.R., Cocke D.L. Journal of Materials Science Letters. 2002. V. 21. No 2. P. 125–127.
Moiseev G.K., Vatolin N.A. Russian Journal of Physical Chemistry A: Focus on Chemistry. 1998. V. 72. No 9. P. 1398–1403.
Morgan P.E.D., Partin D.E., Chamberland B.L., O’Keeffe M. Journal of Solid State Chemistry. 1996. V. 121. No 1. P. 33–37.
Zhao L., Chen H., Wang Y., Che H., Gunawan P., Zhong Z., Li H., Su F. Chemistry of Materials. 2012. V. 24. No 6. P. 1136–1142.
Pinsard-Gaudart L., Rodríguez-Carvajal J., Gukasov A., Monod P. Physical Review B: Condensed Matter and Materials Physics. 2004. V. 69. No 10. P. 104408- 1–104408-9.
Djurek D., Prester M., Drobac D., Ivanda M., Vojta D. Journal of Magnetism and Magnetic Materials. 2015. V. 373. P. 183–187.
Debbichi L., Marco de Lucas M.C., Pierson J.F., Krüger P. The Journal of Physical Chemistry C. 2012. V. 116. No 18. P. 10232–10237.
Debbichi L., Marco de Lucas M.C., Krüger P. Materials Chemistry and Physics. 2014. V. 148. No 1–2. P. 143–148.
Reppin D., Polity A., Meyer B.K., Shokhovets S. Materials Research Society Proceedings. 2013. V. 1494. P. 165–169.
Goll G. Unconventional superconductors. Springer Tracts in Modern Physics. 2006. V. 214. P. 121–151.
Gaojie X., Qirong P., Zengming Z., Zejun D. Journal of Superconductivity. 2001. V. 14. No 4. P. 509–517.
Teplov M.A., Bakharev O.N., Dooglav A.V., Egorov A.V., Mukhamedshin I.R., de Gronckel H.A.M., Alloul H., Mendels P., Eremina R.M. Journal of Superconductivity. 1999. V. 12. No 1. P. 113–115.
El-Tantawy Y.A., El-Kholy A.E., Kasem T.S.E. Corrosion Science. 1978. V. 18. No 12. P. 1065–1073.
Muroi M., Street R. Physica C: Superconductivity. 1995. V. 248. No 3–4. P. 290–310.
Tokura Y. Physica C: Superconductivity. 1991. V. 185– 189. No 1. P. 174–179.
Degterov S.A., Pelton A.D., Jak E., Hayes P.C. Metallurgical and Materials Transactions B. 2007. V. 32. No 4. P. 643–657.
Wriedt H.A. Bulletin of Alloy Phase Diagrams. 1987. V. 8. No 2. P. 166–176, 199–200.
Gondal M.A., Drmosh Q.A., Yamani Z.H., Saleh T.A. Applied Surface Science. 2009. V. 256. No 1. P. 298– 304.
Sun M., Hao W., Wang C., Wang T. Chemical Physics Letters. 2007. V. 443. No 4–6. P. 342–346.
Chen W., Lu Y.H., Wang M., Kroner L., Paul H., Fecht H.-J., Bednarcik J., Stahl K., Zhang Z.L., Wiedwald U., Kaiser U., Ziemann P., Kikegawa T., Wu C.D., Jiang J.Z. The Journal of Physical Chemistry C. 2009. V. 133. No 4. P. 1320–1324.
Bai H., Liu X. Materials Letters. 2010. V. 64. No 3. P. 341–343.
Yadav P.S., Pandey D.K., Agrawal S., Agrawal B.K. Quantum Matter. 2014. V. 3. No 1. P. 39–46.
Yadav P.S., Pandey D.K., Agrawal S., Agrawal B.K. The European Physical Journal Plus. 2015. V. 130. No 4. Article 60.
Nobuteru A. Kinzoku hyōmen gijutsu. 1950. V. 1. No 3–4. P. 21–26.
Mainar A.R., Leonet O., Bengoechea M., Boyano I., de Meatza I., Kvasha A., Guerfi A., Blázquez J.A. International Journal of Energy Research. 2016. V. 40. No 8. P. 1032–1049.
Mikić T.K., Milošev I., Pihlar B. Journal of Applied Electrochemistry. 2005. V. 35. No 10. P. 975–984.
Артемьев С.Р. Вісник Національного технічного університету «ХПІ». Серія: Механіко-технологічні системи та комплекси. 2014. № 40(1083). С. 154–160.
Горбик П.П., Дубровин И.В., Кашин Г.Н. Металлофизика и новейшие технологии. 2016. Т. 38. № 3. С. 341–351.
Номери Х.А.М. Получение и исследование оптических свойств полупроводниковых оксидов ZnO2 и Zn2O3. Дисс. канд. физ.мат. наук. Воронеж. 2011.
с. 128. Chladil L. Studium jevů limitujících životnost sekundárních článků Ni-Zn. Zkrácená Verze Doktorské Práce. Brno: Vysoké Učení Technické v Brně. 2014. 29 c.
Wriedt H.A. Bulletin of Alloy Phase Diagrams. 1988. V. 9. No 2. P. 106–127.
Cao M., Hu C., Peng G., Qi Y., Wang E. Journal of the American Chemical Society. 2003. V. 125. No 17. P. 4982–4983.
Gross S.T. Journal of the American Chemical Society. 1943. V. 65. No 6. P. 1107–1110.
Barriga C., Maffi S., Bicelli L.P., Malitesta C. Journal of Power Sources. 1991. V. 34. No 4. P. 353–367.
Kumar S., Sharon M., Jawalekar S.R. Thin Solid Films. 1991. V. 195. No 1–2. P. 273–278.
Gavarri J.R., Weigel D. Oxydes de plomb. I. Journal of Solid State Chemistry. 1975. V. 13. No 3. P. 252–257.
Mallika C., Sreedharan O.M. Materials Letters. 1995. V. 22. No 1–2. P. 5–9.
Morachevskii A.G., Vaisgant Z.I., Ugolkov V.L., Khabachev M.N., Bochagina E.V., Kal’ko O.A., Kuznetsova Yu.S. Russian Journal of Applied Chemistry. 2006. V. 79. No 2. P. 241–249.
Čančarevic M., Zinkevich M., Aldinger F. Zeitschrift für Metallkunde: International Journal of Materials Research. 2005. V. 96. No. 8. P. 879–887.
Wàngyín H., Shìhuá S., Húmǐn R. Wújī yán gōngyè. 2015. V. 47. No 11. P. 20–23.
White W.B., Roy R. Journal of the American Ceramic Society. 1964. V. 47. No 5. P. 242–249.
Gavrichev K., Bolshakov A., Kondakov D., Khoroshilov A., Denisov S. Journal of Thermal Analysis and Calorimetry. 2008. V. 92. No 3. P. 857–863.
Lyamkin S.A. Russian Metallurgy (Metally). 2009. No 3. P. 197–200.
White W.B., Dachille F., Roy R. Journal of the American Ceramic Society. 1961, V. 44. No 4. P. 170–174.
Ferrari A. Gazetta Chimica Italiana. 1926. No 56. P. 630–637.
Le Blanc M., Eberius E. Zeitschrift für Physikalische Chemie. Abteilung A, Chemische Thermodynamik, Kinetik, Elektrochemie, Eigenschaftslehre. 1932. V. 160. No 1. P. 69–100.
Katz T. Annales de Chimie. Douzième série. 1950. No 5. P. 5–65.
Otto E.M. Journal of the Electrochemical Society. 1966. V. 113. No 6. P. 525–527.
Clark G.L., Schieltz N.C., Quirke T.T. Journal of the American Chemical Society. 1937. V. 59. No 11. P. 2305–2308.
Clark G.L., Tyler W.P. Journal of the American Chemical Society. 1939. V. 61. No 1. P. 58–65.
Clark G.L., Rowan R. Journal of the American Chemical Society. 1941. V. 63. No 5. P. 1302–1305.
Clark G.L., Rowan R. Journal of the American Chemical Society. 1941. V. 63. No 5. P. 1305 – 1310.
Choudary U.V., Chang Y.A. Metallurgical and Materials Transactions B. 1976. V. 7. No 4. P. 655–660.
Taskinen A., Taskinen P. Zeitschrift für Metallkunde. 1979. V. 70. No 9. P. 594–596.
Łabaj J., Sikora B., Fornalczyk A. Rudy i Metale Nieżelazne. 2005. V. 50. No 4. P. 164–168.
Gauthier H., Manzini M., Ghali E. Canadian metallurgical quarterly, 1999. P. 38. No 1. P. 23-32.
Matsuura H., Hamano T., Tsukihashi F. ISIJ international, 2006. V. 46. No 8. P. 1113–1119.
Рузинов Л.П., Гуляницкий Б.С. Равновесные превращения металлургических реакций. – М.: Металлургия, 1975. – 416 с.
Термические константы веществ: база данных – URL: <http://www.chem.msu.su/cgi-bin/tkv.pl?show= welcome.html>.
Chase M.W.Jr., Davies C.A., Downey J.R.Jr., Frurip D.J., McDonald R.A., Syverud A.N. Journal of Physical and Chemical Reference Data. 1998. Monograph 9.
Верятин У.Д., Маширев В.П., Рябцев Н.Г., Тарасов В.И., Рогозкин Б.Д., Коробов И.В. Термодинамические свойства неорганических веществ: справочник / Под ред. Зефирова А.П. – М.: Атомиздат, 1965. – 461 с.
Pankratz L.B., Stuve J.M., Gokcen M.A. Thermodynamic data for mineral technology: handbook. – Bureau of Mines USA, 1984. – 355 p.
Charette G.G., Flengas S.N. Journal of Electrochemical Society. 1968. V. 115. No 8. P. 796–804.
O’Neill H.S.C., Pownceby M.I. Contributions to Mineralogy and Petrology. 1993. V. 114. No 3. P. 296–314.
Jacob K.T., Fitzner K., Alcock C.B. Metallurgical Transactions B. 1977. V. 8. No 3. P. 451–460.
Nikolaychuk P.A., Tyurin A.G. Inorganic Materials. 2013. V. 49. No 5. P. 457–467.
Kellogg H.H. Journal of the Chemical & Engineering Data. 1969. V. 14. No 1. P. 41–44.
Nuñez L., Pilcher G., Skinner H.A. The Journal of Chemical Thermodynamics. 1969. V. 1. No 1. P. 31–43.
Clusius K., Harteck P. Zeitschrift für Physikalische Chemie. Abteilung A, Chemische Thermodynamik, Kinetik, Elektrochemie, Eigenschaftslehre. 1928. V. 134. No 1. P. 243–263.
Hu J.-H., Johnston H.L. Journal of the American Chemical Society. 1953. V. 75. No 10. P. 2471–2473.
Millar R.W. Journal of the American Chemical Society. 1929. V. 51. No 1. P. 215–222.
Maier C.G. Journal of the American Chemical Society. 1929. V. 51. No 1. P. 194–207.
Allmand A.J. Journal of the Chemical Society, Transactions. 1909. V. 95. P. 2151–2157.
Allmand A.J. Journal of the Chemical Society, Transactions. 1911. V. 99. P. 840–845.
Feitknecht W., Schindler P. Pure and Applied Chemistry. 1963. V. 6. No 2. P. 130–199.
Anthrop D.F., Searcy A.W. The Journal of Physical Chemistry. 1964. V. 68. No 8. P. 2335–2341.
Bodenstein M. Zeitschrift für Elektrochemie und angewandte physikalische Chemie. 1940. V. 46. No 3. P. 132–134.
Hirschwald W., Stolze F., Stranski I.N. Zeitschrift für Physikalische Chemie. Neue Folge. 1964. V. 42. No 1–2. P. 96–111.
Kitchener J.A., Ignatowicz S. Transactions of the Faraday Society. 1951. V. 47. P. 1278–1286.
Maier C.G., Parks G.S., Anderson C.T. Journal of the American Chemical Society. 1926. V. 48. No 10. P. 2564–2576.
Maier C.G., Ralston O.C. Journal of the American Chemical Society. 1926. V. 48. No 2. P. 364–374.
Truesdale E.C., Waring R.K. Journal of the American Chemical Society. 1941. V. 63. No 6. P. 1610–1621.
Peppler R.B., Newman E.S. Journal of Research of the National Bureau of Standards. 1951. V. 46. No 2. P. 121–123.
Schindler P., Althaus H., Feitknecht W. Helvetica Chimica Acta. 1964. V. 47. No 4. P. 982 – 991.
Hills S. Journal of the Electrochemical Society. 1961. V. 108. No 8. P. 810–811.
Wagman D.D., Evans W.H., Parker V.B., Schumm R.H., Halow I.B., Sylvia M., Churney K.L., Nuttal R.L. Journal of Physical and Chemical Reference Data.1982. V. 11. Suppl. 2.
Schweitzer G.K., Pesterfield L.L. The aqueous chemistry of the elements. Oxford: Oxford University Press. 2010. 433 p.
Speight J. Lange’s Handbook of Chemistry, 16th Edition. New York: McGraw-Hill Education. 2005. 1623 p.
Risold D., Nagata J.-I., Suzuki R.O. Journal of Phase Equilibria. 1998. V. 19. No 3. P. 213–233.
Fried F. Zeitschrift für Physikalische Chemie. Stöchiometrie und Verwandtschaftslehre. 1926. Bd. 123. Heft 4. S. 406–428.
Glasstone S. Journal of the Chemical Society, Transactions. 1921. V. 119. P. 1914–1927.
Günther P. Zeitschrift für Elektrochemie und angewandte physikalische Chemie. 1917. V. 23. No 13–14. P. 197–199.
Treadwell W.D. Zeitschrift für Elektrochemie und angewandte physikalische Chemie. 1916. V. 22. No 21–22. P. 414–421.
Marshall A.L., Bruzs B. The Journal of Physical Chemistry.1924. V. 29. No 9. P. 1184–1186.
Millar R.W. Journal of the American Chemical Society. 1929. V. 51. No 1. P. 205–214.
Smith D.F., Woods H.K. Journal of the American Chemical Society. 1923. V. 45. No 11. P. 2632–2637.
Spencer H.M., Mote J.H. Journal of the American Chemical Society. 1932. V. 54. No 12. P. 4618–4624.
King E.G. Journal of the American Chemical Society. 1958. V. 80. No 10. P. 2400–2401.
Andrews L.V., Brown D.J. Journal of the American Chemical Society. 1934. V. 56. No 2. P. 388–390.
Debray H. Comptes rendus hebdomadaires des séances de l’Académie des Sciences. 1878. V. 86. P. 513–517.
Glasstone S. Journal of the Chemical Society, Transactions. 1922. V. 121. P. 1456–1469.
Reinders W., Hamburger L. Zeitschrift für anorganische Chemie. 1914. V. 89. No 1. P. 71–96.
Leciejewicz J. Acta Crystallographica. 1961. V. 14. No 12. P. 1304.
Beck W.H., Singh K.P., Wynne-Jones W.F.K. Transactions of the Faraday Society. 1959. V. 55. P. 331–338.
Craig D.N., Vinal G.W. Journal of Research of the National Bureau of Standards. 1940. V. 24. No 4. P. 475– 490.
Duisman J.A., Giauque W.F. The Journal of Physical Chemistry. 1968. V. 72. No 2. P. 562–573.
Krustinsons J. Zeitschrift für Elektrochemie und angewandte physikalische Chemie. 1934. V. 40. No 5. P. 246–248.
Mixter W.G. American Journal of Science. Fourth Series. 1909. V. 27. No 5. P. 393–397.
Otto E.M. Journal of the Electrochemical Society. 1966. V. 113. No 6. P. 525–527.
Tscheltzow I.M. Comptes rendus hebdomadaires des séances de l’Académie des Sciences. 1885. V. 100. P. 1458–1460.
Vosburgh W.C., Craig D.N. Journal of the American Chemical Society. 1929. V. 51. No 7. P. 2009–2019.
Wescott E.W. Journal of the American Chemical Society. 1920. V. 42. No 7. P. 1335–1349.
Третьяков Ю.Д. Термодинамика ферритов. – Л.: Химия, 1967. 305 с.
Craig B.D. Fundamental Aspects of Corrosion Films in Corrosion Science. New York: Springer-Verlag. 1991. 192 p.
Kaesche H. Corrosion of Metals: Physicochemical Principles and Current Problems. In: Engineering Materials and Processes. Berlin: Springer-Verlag. 2003. 594 p.
Revie R., Uhlig H. Corrosion and corrosion control. An introduction to corrosion science and engineering. Wiley. 2008.
Revie R. Uhlig’s Corrosion Handbook. Hoboken: Wiley. 2011. 1296 p.
Brimblecombe P. Air Composition & Chemistry. Second Edition. Cambridge: Cambridge University Press. 1996. 253 p.
Шарлай Е.В. Особенности электрохимического поведения системы медь–раствор гидроксида калия в области температур 295–320 К: автореф. дисс. канд. хим. наук. – Челябинск: Изд-во ЮурГУ, 2008. – 19 с.
Delahay P., Pourbaix M., van Rysselberghe P. Journal of Chemical Education. 1950. V. 27. No 12. P. 683–688.
Справочник химика / под ред. Б.П. Никольского. – М.–Л.: Химия, 1964. – Т. 3. – 1008 с.
Kiss L. Kinetics of electrochemical metal dissolution. In: Studies in Physical and Theoretical Chemistry. V. 47. Amsterdam: Elsevier. 1988. 260 p.
Pourbaix diagrams / Substances & Technologies. – URL: <http://www.substech.com/dokuwiki/doku.php?id=pourbaix_diagrams>.
Garrels R.M., Christ C.L. Solutions, Minerals and Equilibria. New York : Harper & Row, 1965. – 368 p.
McCafferty E. Introduction to Corrosion Science. New York: Springer-Verlag. 2010. 302 p.
Huang H.-H. Metals. 2016. V. 6. No 1. Article 23. P. 1–30.
Advances in Corrosion Engineering (Web) // NPTEL Web Courses. URL: < http://nptel.ac.in/courses/113108051>.
Schon T., Heidendael M. Wasserstoffbildung durch Metallkorrosion. In: Berichte des Forschungszentrums Jülich. No.3495. Jülich: Institut für Sicherheitsforschung und Reaktortechnik. 86 p.
Kinniburgh D.G., Cooper D.M. Environmental Science & Technology. 2004. V. 38. No 13. P. 3641–3648.
Anderko A., Sanders S.J., Young R.D. Corrosion. 1997. V. 53. No1. P. 43–53.
Angus J.C., Lu B., Zappia M.J. Journal of applied electrochemistry. 1987. V. 17. No 1. P. 1–21.
Nagypál I. Talanta. 1982. V. 29. No 6. P. 473–477.
Pereira C.F., Alcalde M., Villegas R., & Vale J. Journal of Chemical Education. 2007. V. 84. No 3. P. 520–525.
Anderko A. Shreir’s Corrosion. V. 2 / Eds. J. A. Richardson et al. Amsterdam: Elsevier. 2010. P. 1585–1629.
Eriksson G. Analytica Chimica Acta, 1979. V. 112. No 4. P. 375 – 383.
Angus J.C., Angus C.T. Journal of the Electrochemical Society, 1985. V. 132. No 5. P. 1014–1019.
Rojas–Hernández A., Ramírez M.T., Ibáñez J.G., & González I. Journal of The Electrochemical Society. 1991. V. 138. No 2. P. 365–371.
Liu H., Zhang C. Calphad. 2001. V. 25. No 3. P. 363–380.
Brook P.A. Corrosion Science. 1971. V. 11. No 6. P. 389–396.
Salhi R. Iranian Journal of Chemistry and Chemical Engineering. 2005. V. 24. No 3. P. 29–39.
Beverskog B., Puigdomenech I. Journal of the Electrochemical Society. 1997. V. 144. No 10. P. 3476–3483.
Tamilmania S., Huanga W., Raghavana S., Small R. Journal of the Electrochemical Society. 2002. V. 149. No 12. P. G638–G642.
Cubicciotti D. Corrosion, 1988. V. 44. No 12. P. 875– 880.
Beverskog B., Puigdomenech I. Pourbaix diagrams for the system copper-chlorine at 5–100 °C SKI Rapport 98:19. 1998. 35 p.
Osseo-Asake K., Mishra K.K. Journal of Electronic Materials. 1996. V. 25. No 10. P. 1599–1607.
Muñoz-Portero M.J., García-Antón J., Guiñón J.L., & Pérez-Herranz V. Corrosion. 2004. V. 60. No 8. P. 749– 756.
Hoar T.P., Rothwell G.P. Electrochimica Acta. 1970. V. 15. No 6. P. 1037–1045.
Bianchi G., Longhi P. Corrosion Science. 1973. V. 13. No 11. P. 853–864.
Tromans D. Journal of the Electrochemical Society. 1998. V. 145. No 3. P. L42–L45.
Alfantazi A.M., Ahmed T.M., Tromans D. Materials & Design, 2009. V. 30. No 7. P. 2425–2430.
Mattsson E. British Corrosion Journal. 1980. V. 15. No 1. P. 6–13.
Glasby G.P., Schulz H.D. Aquatic Geochemistry. 1999. V. 5. No 3. P. 227–248.
Nila C., González I. Hydrometallurgy. 1996. V. 42. No1. P. 63–82.
Bartonicek R., Lukasovska M. Corrosion Science. 1969. V. 9. No 1. P. 35–42.
Aksu S., Doyle F.M. Electrochemistry in Mineral and Metal Processing, Pennington, NJ: The Electrochemical Society. 2000. P. 258–269.
Yagi S. Potential-pH Diagrams for Oxidation-State Control of Nanoparticles Synthesized via Chemical Reduction. In: Thermodynamics – Physical Chemistry of Aqueous Systems / Ed. J. C. Moreno-Piraján. Rijeka: InTech. 2011. P. 223–240.
Николайчук П.А., Тюрин А.Г., Канатьева И.И. Уточнённая диаграмма Пурбе для меди // Современные проблемы теоретической и экспериментальной химии: Межвузовский сборник научных трудов VII Всероссийской конференции молодых учёных с международным участием. Саратов: ООО Издательство «КУБиК». 2010. С. 287–291.
Preis W., Gamsjäger H. Journal of Chemical Thermodynamics. 2001. V. 33. No 7. P. 803–819.
Beverskog B., Puigdomenech I. Corrosion Science. 1997. V. 39. No 1. P. 107–114.
Delahay P., Pourbaix M., Van Rysselberghe P. Journal of The Electrochemical Society. 1951. V. 98. No3. P. 101–105.
Thomas S., Birbilis N., Venkatraman M.S., Cole I.S. Corrosion. 2012. V. 68. No1. P. 015009-1–015009-9.
Johnson H.E., Leja J. Journal of the Electrochemical Society. 1965. V. 112. No 6. P. 638–641.
Al-Hinai A.T., Al-Hinai M.H., Dutta J. Materials Research Bulletin. 2014. V. 49. P. 645–650.
Ding Z.Y., Chen, Q.Y., Yin Z.L., & Kui L.I.U. Transactions of Nonferrous Metals Society of China. 2013. V. 23. No 3. С. 832-840.
Николайчук П.А., Тюрин А.Г. Уточнённая диаграмма Пурбе для цинка // Современные проблемы теоретической и экспериментальной химии: Межвузовский сборник научных трудов VIII Всероссийской конференции молодых учёных с международным участием. Саратов: ООО Издательство «КУБиК». 2011. С. 226–230.
Delahay P., Pourbaix M., van Rysselberghe P. Journal of the Electrochemical Society. 1951. V. 98. No 2. P. 57–64.
Pourbaix M., van Myulder J., de Zoubov N. Centre belge d’étude de la corrosion. 1963.
Takeno N. Atlas of Eh-pH diagrams: Intercomparison of thermodynamic databases / Geological survey of Japan. Open file report № 419. – National Institute of Advanced Industrial Science and Technology, 2005. – URL: .
Brookins D.G. Eh–pH diagrams for elements from Z = 40 to Z = 52: Application to the Oklo natural reactor, Gabon, Chemical Geology. 1978. 23(1–4). P. 325–342.
Brookins D.G. Application of Eh-pH diagrams to problems of retention and/or migration of fissiogenic elements at Oklo, International Atomic Energy Agency, Technical committee meeting on natural fission reactors. Vienna. 1979.
Brookins D.G. Eh–pH diagrams for geochemistry. Berlin: Springer. 1987.
FactSage EpH–Web. – URL: <http://www.sgte.org/ephweb.php>.
THERMEXPERT – Potential – pH diagram generator / Argentum Solutions, Inc. – URL: <http://www.argentumsolutions.com/cgi-bin/thermexpert>.
SUPCRT / Prediction Central. – URL: <http://www.predcent.org/download/supcrt>.
Johnson J.W., Oelkers E.H., Helgeson H.C. Computers & Geosciences. 1992. V. 18. No 7. P. 899–947.
The Geochemist’s Workbench (GWB). – Rockware: Earth Science and GIS Software. – URL: <http://www.rockware.com/product/overview.php?id=132>.
JNC-TDB. – Japan Nuclear Cycle Organization. – URL: <http://migrationdb.jnc.go.jp>.
ZZ-HATCHES 20: Database for radiochemical modeling / Nuclear Energy Agency. – URL: <http://www.oecd-nea.org/tools/abstract/detail/nea-1210>.
PHREEQC-2: A Computer Program for speciation, batch-reaction, one-dimensional transport, and inverse geochemical calculations / USGS. – URL: <http://wwwbrr.cr.usgs.gov/projects/GWC_coupled/phreeqc>.
ChemEQL. URL: <http://www.eawag.ch/research_e/surf/Researchgroups/sensors_and_analytic/chemeql.html>.
PhreePlot. URL: <http://www.phreeplot.org>.
Materials Project Pourbaix Diagrams. URL: <https://materialsproject.org/#apps/pourbaixdiagram>.
Chemical Equilibrium Diagrams. URL: <https://sites.google.com/site/chemdiagr>.
SOLGASWATER program. – URL: <http://158.227.5.164/Chemical_Diagrams/html/ISP_Solgaswater.htm>.
Eriksson G. Analytica Chimica Acta. 1979. V. 112. No 4. P. 375–383.
Ingri N., Kakolowicz W., Sillén L.G., Warnqvist B. Talanta. 1967. V. 14. No 11. P. 1261–1286.
Справочник по электрохимии / под ред. А.М. Сухотина. Л.: Химия, 1981. 488 с.
Bard A.J., Parsons R., Jordan J. Standard potentials in aqueous solutions. New York: Marcel Dekker Inc. 1985. 848 p.
Vanýsek P. CRC Handbook of Chemistry and Physics, 95th Edition; Ed. W. M. Haynes. CRC Press. 2014. 2704 p.
Charlot G., Collumeau M.A., Marchon M.J.C. Oxidation-Reduction Potentials of Inorganic Substances in Aqueous Solution. IUPAC – Selected Constants. London: Butterworths. 1971. 73 p.
Hayes P.C. Process Principles in Minerals and Materials Production. Queensland: Hayes Publishing. 1993. 730 p.
Blackman A., Gahan L. Aylward and Findlay’s SI Chemical Data, 7th Edition. New York: Wiley. 2014. 240 p.
