Вісник Тернопільського національного технічного університету

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Корисні посилання

Development of resource-saving and environmentally safe beryllium bronze soldering technology

Назва	Development of resource-saving and environmentally safe beryllium bronze soldering technology
Назва англійською	Development of resource-saving and environmentally safe beryllium bronze soldering technology
Автори	Stanislav Berezhnyy; Oleksii Kapustian; Ruslan Kulykovskyi; Ihor Avdeev; Danylo Uriekin
Принадлежність	Zaporizhzhia Polytechnic National University, Zaporizhzhia, Ukraine
Бібліографічний опис	Development of resource-saving and environmentally safe beryllium bronze soldering technology / Stanislav Berezhnyy; Oleksii Kapustian; Ruslan Kulykovskyi; Ihor Avdeev; Danylo Uriekin // Scientific Journal of TNTU. — Tern.: TNTU, 2020. — Vol 100. — No 4. — P. 46–54.
Bibliographic description:	Berezhnyy S.; Kapustian O.; Kulykovskyi R.; Avdeev I.; Uriekin D. (2020) Development of resource-saving and environmentally safe beryllium bronze soldering technology. Scientific Journal of TNTU (Tern.), vol 100, no 4, pp. 46–54.
УДК	621.791.92
Ключові слова	beryllium bronze; brazing; silver solder; flux; technological coating; resource-saving technology; environmental safety.
	The composition of the solder, which provides the necessary technological properties of the product, namely, electrical conductivity and mechanical strength of the junction was selected. The possibility of brazing beryllium bronze with a silver contact plate by furnace brazing using fluxes based on NaCl: CaCl₂: CaF₂ salts, respectively (24: 61: 15% mass) in the atmosphere was established. The possibility of brazing BrB2 beryllium bronze in the atmosphere using a research flux based on the eutectic of the NaCl – CaCl₂ system (28…72% wt.) adding 15% CaF₂ over a copper layer is shown. The technology for brazing beryllium bronze BrB2 with silver contact plates with silver solder PSr68 has been developed. The brazing process is combined with the hardening operation, which allows avoiding additional thermal operations; flux residues are removed during hardening and do not actually need additional cleaning operations; applied solder, flux components and technologies for applying a layer of copper are not scarce and relatively cheap, which can significantly reduce the cost of the product, subject to the requirements of the technical specifications. A technological process that makes it possible to refuse of using vacuum systems and toxic fluxes has been developed.
ISSN:	2522-4433
Перелік літератури	Kapustyanskyi A., Varlamov G. Analysis of the fuel and energy complex of Ukraine. Scientific Journal of TNTU (Tern.). 2016. Vol. 83. No. 3. P. 144–153. [In Ukrainian]. Tarasenko M., Kozak K. Ways to save fuel and energy resources in daily graft. Scientific Journal of TNTU (Tern.). 2017. Vol. 85. No. 1. P. 101–108. [In Ukrainian]. Gotovych V., Nazarevych O., Shcherbak L. Mathematical modeling of the regular-mode electric power supply and electric power consumption processes of the organization. 2018. Scientific Journal of TNTU (Tern.). Vol. 91. No. 3. P. 134–142. Saenko Iu. L., Popov A. S. Effektivnost primeneniia antirezonansnykh transformatorov napriazheniia kontrolia izoliatcii v setiakh s izolirovannoi neitraliu. Elektrifіkatcіia transportu. 2012. No. 4. P. 38–43. [In Russian]. Filippov M. A., Baraz V. R., Gervasiev M. A. Metodologija vybora metallicheskih splavov i uprochnjajushhih tehnologij v mashinostroenii: uchebnoe posobie: in 2 vol. Vol. II. Cvetnye metally i splavy. Yekaterinburg: Ural Universytet, 2013, 236 p. [In Russian]. Petrunina I. E. Spravochnik po pajke. Moskva: Mashinostroenie, 1984, 400 p. [In Russian]. Lashko N. F., Lashko S. V. Pajka metallov. 4 izd., dop. Moskva: Mashinostroenie, 1988, 376 p. [In Russian]. Maksimova S. V., Myasoid V. V. Vplyv osnovnogho materialu na strukturoutvorennja pajanykh shviv aljuminidiv nikelju i tytanu. Visnyk Pryazovsjkogho derzhavnogho tekhnichnogho universytetu. Seriia: Tekhnichni nauky. 2017. Issue 35. P. 92–98. [In Ukrainian]. Shulaev V. M., Listopad D. A., Karpenko A. V. Sovremennye vakuumnye elektropechi “OTTOM” TM i perspektivy ikh ispolzovaniia dlia vysokotemperaturnoi paiki izdelii iz vysokolegirovannykh stalei. Novi materialy i tekhnolohii v metalurhii ta mashynobuduvanni. 2013. No. 2.P. 88–92. [In Russian]. Krakhmalev O. V., Zinchenko O. I., Kovalevsky S. G., Kornienko A. V. Vplyv umov ekspluataciji na micnistj pajanykh z'jednanj. Visnyk Nacionaljnogho tekhnichnogho universytetu “KhPI”. Serija: Mashynoznavstvo ta SAPR, 2019. No. 1. P. 39–44. [In Ukrainian]. Gal'vanicheskie pokrytija v mashinostroenii: spravochnik / pod red. M. A. Schluger. Moskva: Mashinostroenie, 1985. Vol. 1. 240 p. [In Russian]. Sidelnikov S. B., Ber V. I., Orelkina T. A., Vagner A. V., Korobkin A. N. Razrabotka tekhnologicheskoi skhemy polucheniia tokosemnykh koletc iz berillievoi bronzy s pomoshchiu metodov listovoi shtampovki. Izvestiia MGTU “MAMI”, 2013. No. 2 (16), Vol. 2. P. 45–48. Ermolaev G. V., Kvasnitsky V. V., Kvasnitsky V. F., Chigaryov V. V. Pajannja metaliv: pidruchnyk / za zah. red.V. F. Khorunova i V. F. Kvasnitsky. Mikolaev: NUK, 2015, 340 p. [In Ukrainian]. Lacedaemon A. V., Khryapin V. E. Spravochnik pajal'shhika. Moskva: Mashinostroenie, 1967, 328 p. [In Russian].
References:	Kapustyanskyi A., Varlamov G. Analysis of the fuel and energy complex of Ukraine. Scientific Journal of TNTU (Tern.). 2016. Vol. 83. No. 3. P. 144–153. [In Ukrainian]. Tarasenko M., Kozak K. Ways to save fuel and energy resources in daily graft. Scientific Journal of TNTU (Tern.). 2017. Vol. 85. No. 1. P. 101–108. [In Ukrainian]. Gotovych V., Nazarevych O., Shcherbak L. Mathematical modeling of the regular-mode electric power supply and electric power consumption processes of the organization. 2018. Scientific Journal of TNTU (Tern.). Vol. 91. No. 3. P. 134–142. Saenko Iu. L., Popov A. S. Effektivnost primeneniia antirezonansnykh transformatorov napriazheniia kontrolia izoliatcii v setiakh s izolirovannoi neitraliu. Elektrifіkatcіia transportu. 2012. No. 4. P. 38–43. [In Russian]. Filippov M. A., Baraz V. R., Gervasiev M. A. Metodologija vybora metallicheskih splavov i uprochnjajushhih tehnologij v mashinostroenii: uchebnoe posobie: in 2 vol. Vol. II. Cvetnye metally i splavy. Yekaterinburg: Ural Universytet, 2013, 236 p. [In Russian]. Petrunina I. E. Spravochnik po pajke. Moskva: Mashinostroenie, 1984, 400 p. [In Russian]. Lashko N. F., Lashko S. V. Pajka metallov. 4 izd., dop. Moskva: Mashinostroenie, 1988, 376 p. [In Russian]. Maksimova S. V., Myasoid V. V. Vplyv osnovnogho materialu na strukturoutvorennja pajanykh shviv aljuminidiv nikelju i tytanu. Visnyk Pryazovsjkogho derzhavnogho tekhnichnogho universytetu. Seriia: Tekhnichni nauky. 2017. Issue 35. P. 92–98. [In Ukrainian]. Shulaev V. M., Listopad D. A., Karpenko A. V. Sovremennye vakuumnye elektropechi “OTTOM” TM i perspektivy ikh ispolzovaniia dlia vysokotemperaturnoi paiki izdelii iz vysokolegirovannykh stalei. Novi materialy i tekhnolohii v metalurhii ta mashynobuduvanni. 2013. No. 2.P. 88–92. [In Russian]. Krakhmalev O. V., Zinchenko O. I., Kovalevsky S. G., Kornienko A. V. Vplyv umov ekspluataciji na micnistj pajanykh z'jednanj. Visnyk Nacionaljnogho tekhnichnogho universytetu “KhPI”. Serija: Mashynoznavstvo ta SAPR, 2019. No. 1. P. 39–44. [In Ukrainian]. Gal'vanicheskie pokrytija v mashinostroenii: spravochnik / pod red. M. A. Schluger. Moskva: Mashinostroenie, 1985. Vol. 1. 240 p. [In Russian]. Sidelnikov S. B., Ber V. I., Orelkina T. A., Vagner A. V., Korobkin A. N. Razrabotka tekhnologicheskoi skhemy polucheniia tokosemnykh koletc iz berillievoi bronzy s pomoshchiu metodov listovoi shtampovki. Izvestiia MGTU “MAMI”, 2013. No. 2 (16), Vol. 2. P. 45–48. Ermolaev G. V., Kvasnitsky V. V., Kvasnitsky V. F., Chigaryov V. V. Pajannja metaliv: pidruchnyk / za zah. red.V. F. Khorunova i V. F. Kvasnitsky. Mikolaev: NUK, 2015, 340 p. [In Ukrainian]. Lacedaemon A. V., Khryapin V. E. Spravochnik pajal'shhika. Moskva: Mashinostroenie, 1967, 328 p. [In Russian].
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