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Ways to reduce the influence of high frequency currents on the human body under induction surfacing

НазваWays to reduce the influence of high frequency currents on the human body under induction surfacing
Назва англійськоюWays to reduce the influence of high frequency currents on the human body under induction surfacing
АвториCheslav Pulka, Ihor Okipnyi, Viktor Senchyshyn, Oleg Levchenko, Oleg Huryk, Yaroslav Osadtsa
ПринадлежністьTernopil Ivan Puluj National Technical University, Ternopil, Ukraine National Technical University of Ukraine «Igor Sikorsky Kyiv Polytechnic Institute»
Бібліографічний описWays to reduce the influence of high frequency currents on the human body under induction surfacing / Cheslav Pulka, Ihor Okipnyi, Viktor Senchyshyn, Oleg Levchenko, Oleg Huryk, Yaroslav Osadtsa // Scientific Journal of TNTU. — Tern.: TNTU, 2021. — Vol 104. — No 4. — P. 15–23.
Bibliographic description:Pulka Ch., Okipnyi I., Senchyshyn V., Levchenko O., Huryk O., Osadtsa Ya. (2021) Ways to reduce the influence of high frequency currents on the human body under induction surfacing. Scientific Journal of TNTU (Tern.), vol 104, no 4, pp. 15–23.
УДК

621.791.927

Ключові слова

induction heating and surfacing, thermal and electromagnetic shields, thin disks, labour safety, devices.

Devices with thermal and electromagnetic shields for induction heating and surfacing of machine parts using a ferrite magnetic circuit with a single-turn inductor, devices with double-turn and three-turn inductors, in which the surfacing zone is completely closed from the influence on workers are designed. This allows to improve the working conditions, as well as to develop new technological processes using high frequency currents. It is shown that the use of thermal and electromagnetic screens can reduce the surfacing time by 10–20 s and decrease the energy consumption by 15–20%, depending on the powdered hard alloy, taking into account health and safety issues.

ISSN:2522-4433
Перелік літератури
  1. Ryabtsev I. A. Naplavka detaley mashin i mehanizmov. K: Ekotehnologiya, 2004. 160 р.
  2. Tkachev V. N., Fishteyn B. M., Kazintsev N. V., Aldyirev D. A. Induktsionnaya naplavka tverdyih splavov. M.: Mashinostroenie, 1970. 183 р.
  3. Levchenko O. G., Ilchuk O. S., Pulka Ch. V. Uprovadzhennya benchmarkingu ohoroni pratsi na pidpriemstvah mininfrastrukturi Ukrayini. Problemi ohoroni pratsi v Ukrayini. 37 (2). 2021. Р. 38–43.
  4. Lozinskiy M. G. Promyishlennoe primenenie induktsionnogo nagreva. M.: Izd-vo AN SSSR, 1958. 472 р.
  5. Sluhotskiy A. E., Ryiskin S. E. Induktoryi dlya induktsionnogo nagreva. L.: Energiya, 1974. 264 р.
  6. Babat G. I. Induktsionnyiy nagrev metallov i ego promyishlennoe primenenie. M.: Energiya, 1965. 552 р.
  7. Dumanskiy V. Yu. Gigienichna otsinka elektromagnitnoyi situatsiyi ta naukove obgruntuvannya vimog do yiyi bezpeki v suchasnih naselenih mistsyah Ukrayini»: avtoref. dis. na zdobuttya nauk. stupenya doktora medichnih nauk. Kiyiv, 2009.
  8. Birdus L. V. Negativniy vpliv elektromagnitnogo viprominyuvannya na zdorov’ya ta pratsezdatnIst lyudini: materiali V naukuvo-praktichnoyi konferentsiyi, 17 grudnya 2013 r., / Kontseptualni zasadi formuvannya menedzhmentu v Ukrayini. K.: Vid. dim “Personal”, 2013. P. 34–37.
  9. Shabliy O. N., Pulka Ch. V., Pismennyiy A. S.Optimizatsiya induktsionnoy naplavki tonkih diskov s uchetom teplovogo i elektromagnitnogo ekranirovaniya. Avtomat. Svarka. 2003. No. 9. Р. 22–25.
  10.  Zaychenko Yu. A. Pat. 2065345 RU, V23K 13/01. Ustroystvo dlya induktsionnogo nagreva / Yu.A. Zaychenko, zayavitel i vladelets Zaychenko Yu.A.;№5065835/08; zayavl. 13.10.1992; opubl. 20.08.1996.
  11. Pulka Ch. V., Senchishin V. S., GorIshniy A. I. ta inshi. Pristriy dlya Induktsiynogo naplavlennya z vikoristannyam feritnogo magnitoprovodu: tezi materialiv VIII Mizhnarodnoyi naukovo-tehnichnoyi konferentsiyi molodih uchenih ta studentiv. Aktualni zadachI suchasnih tehnologIy, 27–28 listopada 2019. Ternopil: TNTU, 2019. Р. 127–128.
  12. ShablIy O. M., Pulka Ch. V., Sharik M. V. Vdoskonalennya obladnannya dlya induktsiynogo naplavlennya nozhiv-gichkoriziv. Visnik TDTU Im. Ivana Pulyuya. 2003. Vоl. 8. No. 1. Р. 36–43.
  13. Patent Ukrayini № 55345, V23K 13/00. Pristriy dlya naplavlennya ploskih tonkostInnih detaley.
    Pulka Ch. V., ShablIy O. M., Budzan B. P.; Opubl. Byul. № 3. 17.03.2003.
  14. Pulka Ch. V., Gavrilyuk V. Ya., Improving induction surfacing equipment and technology. Welding International. 2014. Vol. 28. No. 4. P. 320–323.
References:
  1. Ryabtsev I. A. Naplavka detaley mashin i mehanizmov. K: Ekotehnologiya, 2004. 160 р.
  2. Tkachev V. N., Fishteyn B. M., Kazintsev N. V., Aldyirev D. A. Induktsionnaya naplavka tverdyih splavov. M.: Mashinostroenie, 1970. 183 р.
  3. Levchenko O. G., Ilchuk O. S., Pulka Ch. V. Uprovadzhennya benchmarkingu ohoroni pratsi na pidpriemstvah mininfrastrukturi Ukrayini. Problemi ohoroni pratsi v Ukrayini. 37 (2). 2021. Р. 38–43.
  4. Lozinskiy M. G. Promyishlennoe primenenie induktsionnogo nagreva. M.: Izd-vo AN SSSR, 1958. 472 р.
  5. Sluhotskiy A. E., Ryiskin S. E. Induktoryi dlya induktsionnogo nagreva. L.: Energiya, 1974. 264 р.
  6. Babat G. I. Induktsionnyiy nagrev metallov i ego promyishlennoe primenenie. M.: Energiya, 1965. 552 р.
  7. Dumanskiy V. Yu. Gigienichna otsinka elektromagnitnoyi situatsiyi ta naukove obgruntuvannya vimog do yiyi bezpeki v suchasnih naselenih mistsyah Ukrayini»: avtoref. dis. na zdobuttya nauk. stupenya doktora medichnih nauk. Kiyiv, 2009.
  8. Birdus L. V. Negativniy vpliv elektromagnitnogo viprominyuvannya na zdorov’ya ta pratsezdatnIst lyudini: materiali V naukuvo-praktichnoyi konferentsiyi, 17 grudnya 2013 r., / Kontseptualni zasadi formuvannya menedzhmentu v Ukrayini. K.: Vid. dim “Personal”, 2013. P. 34–37.
  9. Shabliy O. N., Pulka Ch. V., Pismennyiy A. S.Optimizatsiya induktsionnoy naplavki tonkih diskov s uchetom teplovogo i elektromagnitnogo ekranirovaniya. Avtomat. Svarka. 2003. No. 9. Р. 22–25.
  10.  Zaychenko Yu. A. Pat. 2065345 RU, V23K 13/01. Ustroystvo dlya induktsionnogo nagreva / Yu.A. Zaychenko, zayavitel i vladelets Zaychenko Yu.A.;№5065835/08; zayavl. 13.10.1992; opubl. 20.08.1996.
  11. Pulka Ch. V., Senchishin V. S., GorIshniy A. I. ta inshi. Pristriy dlya Induktsiynogo naplavlennya z vikoristannyam feritnogo magnitoprovodu: tezi materialiv VIII Mizhnarodnoyi naukovo-tehnichnoyi konferentsiyi molodih uchenih ta studentiv. Aktualni zadachI suchasnih tehnologIy, 27–28 listopada 2019. Ternopil: TNTU, 2019. Р. 127–128.
  12. ShablIy O. M., Pulka Ch. V., Sharik M. V. Vdoskonalennya obladnannya dlya induktsiynogo naplavlennya nozhiv-gichkoriziv. Visnik TDTU Im. Ivana Pulyuya. 2003. Vоl. 8. No. 1. Р. 36–43.
  13. Patent Ukrayini № 55345, V23K 13/00. Pristriy dlya naplavlennya ploskih tonkostInnih detaley.
    Pulka Ch. V., ShablIy O. M., Budzan B. P.; Opubl. Byul. № 3. 17.03.2003.
  14. Pulka Ch. V., Gavrilyuk V. Ya., Improving induction surfacing equipment and technology. Welding International. 2014. Vol. 28. No. 4. P. 320–323.
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