Experience in the development and development of production solder products

Научное издание / монография

Выпущено ООО «Первое экономическое издательство»

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Рецензенты:
Олейникова Наталья Васильевна - доктор технических наук, доцент, профессор кафедры металлургии цветных металлов Института цветных металлов и материаловедения ФГОАУ ВО «Сибирский федеральный университет»
Кокоева Наталья Борисовна - кандидат технических наук, доцент кафедры металлургии цветных металлов и автоматизации металлургических процессов ФГБОУ ВО СКГМИ (ГТУ)

Abstract:
The purpose of the author's monograph is to summarize research on the development and development of the production of solders, alloys, fluxes, pastes at the request of customers. Devices for the production of powders and tape solders have been developed. With the help of laboratories of the SB RAS institutes, imported samples of fluxes, solders, pastes were studied by IR, NMR, JAGR, spectroscopy methods and analogues of fluxes from available reagents were developed. After a comparative study of the properties of developed and imported samples of tubular solders with flux and pastes of powders with flux approved by the consumer, they are accepted for production. Special attention is paid to the development of the production of solders for soldering aluminum and copper-phosphorous solders. Additionally, the possibilities of centrifugal regeneration of solders from the production waste of their use, as well as the separation of metals by electric transfer from secondary waste of complex composition are shown. The monograph is intended for engineering and technical workers of industrial enterprises and students of educational institutions.

Keywords: solders, powders, fluxes, solder pastes, soldering of copper, aluminum.

References:

1. Lakedemonsky F.V., Khryapin V.E. -Soldering and solders, Metallurgizdat, 1958, p. 240.
2. Manko G. – Soldering and solders, M, Mechanical Engineering, 1968, p. 160.
3. Rozov V.V., Soboleva M.V. – Alloys for semiconductor devices, Metallurgy, 1969, p. 40.
4. Auth. sv. RF No. 526478 – Method of obtaining tin-lead solder – Dyakov V.E., Good N.N., Semenov A.E., Soloviev B.A. Glushkova L.I., Chizhikova N.V., NOC, \\ V23k35\40; application No. 1901976 of 2.04.73; pub.30.08.76.; Bi No. 32-1976 – p. 42.
5. Nogita K. – Effects of Phosphorus on Microstructure and Fluidity of Sn-0,7Cu-0,05Ni Lead-Free Solder // Materials Transactions, 2008, vol. 49, No. 3, p.46-47.
6. Author of St. RF No. 291979; Method for obtaining alloys and ligatures of tin with phosphorus. – Selivanov I.M., Dyakov V.E., Stepanov G.I. – NOZ – \\C22c13\00; Application. No. 1277504 of 22.10.68 Publ. 06.1.1971; BI 4-71-84.
7. Auth. sv. RF No. 293454 – Method of obtaining alloys and ligatures based on tin – Dyakov V.E., Good A.A., Tabatchikov V.F.; NOZ \\ C22c1\00; application. No. 1116657 of 3.12.66 pub.5.06.74; BI 21-74-211; RZM 6G382p-76.
8. Auth. sv. RF No. 329235 – Apparatus for obtaining ligature – Dyakov V.E., Selivanov I.M., Suturin S.N.; Novosibirsk tin factory \\ From 22c 9/02; application No. 1378106 of 11/20/69 Publ. 09/11/1972; Bi No. 7-72-114.
9. Dyakov V.E.- Features of development of technology for pilot production of solders // J. Scientific Almanac, Tambov, ed. Yukom, 2021, No. 10-2(84), c16.
10. Diagrams of the state of metal systems published in 1958, M, 1959, in 4, p.121.
11. Diagrams of the state of metal systems published in 1977, M,1978, in 23, p. 119.
12. Lebedev I.S., Dyakov V.E., Terebenin A.N. – Complex metallurgy of tin, Novosibirsk, Novosibirsk Writer Publishing House, 2004, 548s.
13. Dyakov V.E. – Production of bismuth and antimony from tin raw materials, M, BIBLIO-GLOBUS, 2020, 164 p.
14. Tsyganov A.S. – Production of secondary non-ferrous metals and alloys, M, 1961, 302 p.
15. Pat RF No. 2550976- Method of obtaining calcium babbit Dyakov V. \\ C22C11/02; application No. 2013158604 of 31.12.13; pub. pat 20.05.15 Bi No. 14.
16. Galkin E.A., Dyakov V.E., Koryukov Y.S., Soloviev B.A., Silin V.A., Terentyev S.V., Friborg B.E. – Method and device for making solder tapes \\B22d11/00; Application No. 3431499 of 03/22/1982.
17. Litvinenko N.P., Chistyakov Yu.D. – Soldering of aluminum and its alloys in electronic engineering, Reviews on electronic engineering ser 7, Technology, organization of production and equipment, 1984, issue 14(1066). pp. 1-52.
18. Diagrams of the state of metal systems published in 1968, issue 14, p. 120.
19. Pat RF No. 2626835- Dyakov V.E.- Zinc-based solder for soldering aluminum – \\B23K 35/28; Application No. 2016117698 of 04.05.2016; pub. pat 02.08.17; Bi No.
22.20. Dyakov V.E. – Development of zinc-based solder for aluminum soldering // zh. Scientific Almanac, 2021, No. 9-2(83), pp. 10-16. 21.
Nikitsky A.M. – Soldering of aluminum and its alloys, M, Mashgiz, 1983, 150 p.
22. Soldering Handbook, ed. Petrunina I.E.\M, 2002, 480 p.
23. Dyakov V.E. Experience of mastering the production of copper-phosphorous solders//zh. Scientific Almanac, Tambov, ed. Yukom, 2021, No. 10-2(84), p. 16.
24. Tavolzhansky S.A., Pashkov I.N., Koletvinov K.F. – Investigation of the process of continuous vertical casting of small-section bars from copper–phosphorous alloys of solders\\ zh. Foundry of Russia, No. 4,2013, pp.14-17.
25. Dyakov V.E., Soloviev B.A.-Obtaining solder powders\\ ed. NIIEIR, zh. Radio industry, 1992, issue 6, from 7-8.
26. Maysky O.V., Fedosenko O.A., Rudko N.A. – The state and prospects of obtaining fine powders of non-ferrous metals, issue 1, M, TSNIIZITSM, 1987, 31c.
27. Bochkarev A.A., Gaisky N.V., Dyakov V.E., Zakharov V.I., Naumenko A.F., Semenov A.E., Solovyov B.A. Method of melt atomization \\B22F9/08; application No. 3279172 of 27.04.81.
28. Auth.sv. RF No. 1110036- Device for obtaining powders spraying of low-melting metals - Dyakov V.E., Nesmelov V.N., Galkin E.A., Soloviev B.A., Koryukov Yu.S, Konovalov L.V. Berlyakov V.N. Lysov V.I. \\B22F9/08; application No. 3541793 of 21.01.83.; publ. 7.06.86 Bi21–86–257.
29. Pat RF No. 1263632-Method of obtaining tin chloride – Pokhodenko V.P., Krapivina V.Ya., Dyakov V.E., Sinko N.I., Pisarev N.S., Gaydamakina G.V., Samodelov A.P., Trynkin V.N.\\ application No. 3778658 of 06/20/84, publ.15.10.86,
BiNo. 38-86-90. 30. Pat RF No. 1149510 – Dyakov V.E., Nesmelov V.N., Koryukov Yu.S. – A method for obtaining powder and a device for its implementation \\ B22F9/08; application No. 3696095 of 12/15/1983; publ. 27.04.13; Bi No. 12.13. p. 602.
31. Pat RF No. 2072146- Dyakov V.E.-Apparatus for obtaining solder powders \\ B22F9\08; application No. 94011657 of 5.04.94; pub. 20.01.97; BI2–97–213.
32. Pat RF No. 1489854- Dyakov V.E., Tokarev V.S., Koryukov Y.S., Galkin E.A., Novopashin A.I. Metal powder separation apparatus \\ B07B 4/08; application No. 4286500 of 17.7.87; publ. 30.06.89; BI24–89–56.
33. Pat RF No. 2060110 – Dyakov V.E. Method of modification of tin solder powder \\ B22F9\04; application No. 94015458 dated 04/26/94; pub.20.08.96; Bi14–96–148.
34. Khryapin V.E. Soldering iron guide, M, Machines, 1981, 348.
35. Dyakov V.E- Experience in the development of fluxes and the development of production solder tubes // zh. Scientific Almanac, Tambov, ed. Yukom, 2021, No. 10-2(84), c36.
36. Study of imported CF-10 and HF-532 fluxes\\ The report of the NIOH SB RAS, 1996, the hands of Mikhailov I.V., isp. Tikhonova L.A. 16 p.
37. Kushnir S.R., Radbil B.A., Matveev N.I., Sergeeva N.G., Vakhlamova E.A., Chuikova E.V., Savinykh V.I. (Tsnilhi) – Hydrolysis rosin – a new flux for assembly soldering\\ Hydrolysis and forestry industry, 1992, No. 1, p.12–13.
38. Investigation of Alusol flux for aluminum soldering \\ Report of NIOH SB RAS 2003, hand. Mikhailova I.V., Spanish. Tikhonova L.A.; 26 p.
39. Pat RF No. 2280548 – Flux of low-temperature soldering of aluminum - Dyakov V.E \\B23k35\363; application No. 2005106605 of 9.03.05.; pub. 27.07.06. Bi21–06–S. 679.
40. Pat RF No. 2627311 Aluminum soldering flux – Dyakov V.E \\B23K 35/363; Application No. 2016118323 of 11.05.16; pub. Pat. 07.08.17. Bi No. 22.
41. Pat RF No. 2627538 – Dyakov V.E. – Flux gel for soldering aluminum and the method of obtaining it\\IPC B23K35/363; Application. No. 2016140592 dated 14.10.2016; pub.08.08.17; Bi22.
42. Handbook of soldering, edited by I.E. Petrunin, M, Mechanical Engineering, 480 p.
43. Auth. sv. RF No. 1243926 – Method of making solder paste – Dyakov V.E., Galkin E.A., Koryukov Y.S., Devyatova L.B., Soloviev B.A., Semenov A.E.; Novosibirsk Tin Combine\\ cl. B23K35/362; application No. 3574055 of 06.04.83; pub.5.07.86. Bi.26.
44. Dyakov V.E. – Development and development of technology for the production of solder pastes\\ Vnticenter report No. 02850052798, pub. No. 53.08.86.246, 1986, 23 p.
45. Pat RF No. 2043896 – Method of making solder paste - Dyakov V.E.; NOC, \\B23K35/40; Application No. 93054727 of 8.12.93; pub. 09/20/95; Bi 95-26-165.
46. Pat RF No. 2080972; Soldering paste – Dyakov V.E. \\ B23k35\24; Application No. 94018896 of 25.05.94; publ. 10.06.97 BiNo. 16-1997– p.90.
47. Pat RF No. 2617081 – Electrolyzer for obtaining solder powder-Dyakov V.E.\\ B23K 35/40; Application No. 2016111832 of 29.03.2016; Publ.19.04.2017; Bi No. 11.
48. Pat RF No. 2585508 – Method of making paste-Dyakov V.E.\\B23K 35/40; Application No. 2014144604 of 05.11.2014; Publ.27.05.2016; Bi No. 15.
49. Petrunin I.E., Markova I.Yu., Grzhimalsky L.L., etc. Brief guide of the soldering iron, Mechanical Engineering, M, 1991.
50. Mikhailova I.F., Tikhonova L.A. – Research of solder paste No. 621\\ Report No. 2730 NIOH SB RAS, 2003 17 p.
51. Mikhailova I.F., Tikhonova L.A. Study of copper soldering paste\\ Report No. 2921 NIOH SB RAS, 2003 16 p.
52. Dyakov V.E.- Soldering paste for soldering copper and its alloys \\ B23K35/24; Application: 2015139325 dated 15.09.2015; publ. 27.01.2016 Bi. № 03-2016.
53. Kaichev V.V., Dyakov V.E. – Research of powders for lead-free paste for high-temperature soldering of copper alloys \\ zh. Chemistry in in the interests of sustainable development, 2006, vol. 14, No. 2, pp.141–146.
54. Auth. sv. RF No. 1802764 – Dyakov V.E, Dugelny A.P, Koryukov Yu.S., Zykus M.Yu. – Centrifuge for cleaning tinning baths\\B23k8\106; application No. 4936232 of 9.10.92.; Pub. 03/15/93. BiNo. 10-93-187.
55. Dyakov V.E.- Regeneration of non-ferrous metals from waste by centrifugal filtration: monograph; Moscow: BIBLIO–GLOBUS, 2018; 116c.
56. Author of the Holy Russian Federation No. 1543845- Dolgov A.V., Goloviznina G.N., Dyakov V.E., Dubchenko V.I., Shabanov E.P., Zakharov A.I., Osipov V.I., Mendeleeva N.Ya.; Gidrotsvetmet, Design Bureau of experimental works; Method of extracting solder from scrap, mainly printed circuit boards and the device of its implementation\\ C22B7/00; application No. 4335699 of 1.10.1987; Pub. 10.08.2014. BiNo. 22-2014.
57. Dyakov V.E. – Production of indium from tin raw materials by extraction from melts: monograph. – M.: Publishing House of the Academy of Natural Sciences, 2020. 144 p.
58. Dyakov V.E. – Regeneration of solders from waste printed circuit boards by centrifugal filtration – Scientific collection. "Modern trends in the development of science and technology", ed. APNI, Belgorod, 2017, No. 3, part 4, pp. 23-27.
59. Dyakov V.E.-Regeneration of indium from waste by centrifugal filtration. \\ Scientific Almanac, Technical Sciences, ed. Yukom; 2017, No. 10-2(36), pp. 41-46.
60. Auth. sv. RF No. 1015674 – Dyakov V.E., Koryukov Yu.S., Yakovlev M.A., Zykus M.Yu., A method for processing indium waste and a device for its implementation\\C22b58\00; application No. 3358405 of 08/20/81.; Pub. 10.11.2011, BI No. 31-2011 – p. 1127.
61. Pat RF No. 2723173 – Dyakov V.E. – A method for processing indium antimonide waste and the apparatus for its implementation\\ Application. No. 2019143408 dated 19.12.2019. publ. 09.06.2020 Bi. No. 16.
62. Dyakov V.E. – Processing of indium antimonide waste by melt extraction\\ Scientific Almanac (Technical Sciences) Tambov, ed. Yukom, 2019, No. 12-3(62) p. 16-20.
63. Pat RF No. 2077598 – Dyakov V.E. Centrifuge separation of molten metals and method of separation of non-ferrous metals from lump waste\\ C22b9\02; application No. 93040791; Pub. 04/20/97; Bi No. 11-97-171.
64. Dyakov V.E. – Regeneration of non-ferrous metals from waste by centrifugal filtration.\\ Scientific Almanac (Technical Sciences), ed. "Yukom", 2017, na2017.01.03.53, pp. 53-60.
65. Pat. RF No. 2055647 – Dyakov V.E., Koryukov Y.S., Dugelny A.P., Dolbeev G.V., Brant A.D. – Apparatus for separating the liquid phase from metal waste\\ MPKB04b1/14; application No. 4757389 of 10.11.89.; pub. 10.03.96., BI No. 7-1996 – p. 180.
66. Pat RF No. 2419660-Dyakov V.E. – Electrolyzer of separation of metals from waste alloys by electrolysis in molten salts\\ C22b7\00; application No. 2010102909 of 28.01.10; publ. 27.05.11; Bi No. 15-11-c166.
67. Dyakov V.E.- Separation of metals from waste by film electrolysis // Successes of modern natural science. – 2011. – No. 9 – pp. 112-113.
68. Pat RF No. 2450091 – Dyakov V.E. – Electrolyzer for separation of low-melting alloys \\ C22b7\00; application No. 2011111065 of 11.03.11; Pub. 10.05.2012; BiNo. 13-12-336.
69. Pat RF No. 2512724 – Dyakov B.N. – Apparatus for continuous separation of metals by electrolysis-\\C25c7\00; application. No. 2013109263 of 02/20/13; Pub. 20.08.13, BINo. 23-13 – p.301.
70. Pat RF No. 2610095- Electrolyzer for the separation of low–melting alloys by electrolysis in molten salts - Dyakov V.E. \\ MPC C25C 7/00; Application No. 2015119708 dated 25.05.2015; Pub. pat: 07.02.2017 Bul. No. 4.
71. Pat RF No. 2647059 Electrolyzer for separation low–melting alloys by electrolysis in molten salts - Dyakov V.E.\\ C25C 7/00; Application: 2017109304 dated 20.03.2017; Publ. 13.03.2018 Byul. No. 8.
72. Dyakov V.E. – Separation of multicomponent low-melting metal waste into alloys by diaphragm electrolysis in thin layers.\\ – Scientific Almanac of Technical Sciences, Tambov, ed. Yukom; 2019,·№ 10- 2(60);| c35–46.
73. Pat RF No. 2727365 – Electrolyzer for separation of low-melting alloys by electrolysis in molten salts\\C25C 7/00; Application: 2019136936 dated 18.11.2019; Publ. 21.07.2020; Bul. No. 21.

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