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Theoretical research of the effect of rotational motion on the shape of surface of the deposited layer

НазваTheoretical research of the effect of rotational motion on the shape of surface of the deposited layer
Назва англійськоюTheoretical research of the effect of rotational motion on the shape of surface of the deposited layer
АвториMykhailo Mykhailyshyn, Volodymyr Havryliuk, Cheslav Pulka
ПринадлежністьTernopil Ivan Puluj National Technical University, Ternopil, Ukraine
Бібліографічний описTheoretical research of the effect of rotational motion on the shape of surface of the deposited layer / Mykhailo Mykhailyshyn, Volodymyr Havryliuk, Cheslav Pulka // Scientific Journal of TNTU. — Tern.: TNTU, 2022. — Vol 106. — No 2. — P. 117–124.
Bibliographic description:Mykhailyshyn M., Havryliuk V., Pulka Ch. (2022) Theoretical research of the effect of rotational motion on the shape of surface of the deposited layer. Scientific Journal of TNTU (Tern.), vol 106, no 2, pp. 117–124.
DOI: https://doi.org/10.33108/visnyk_tntu2022.02.117
УДК

621.793.927.7

Ключові слова

molten metal, steel disk, drop, centrifugal rotation, angular velocity.

Different methods of surfacing are using to strengthen machine parts. The process of simultaneous induction surfacing consider in the article. The surfacing will perform with using simultaneous centrifugal rotation compared to the traditional surfacing scheme. The disk is located in a fixed position during the entire surfacing process according to the traditional scheme. The rotational movement is carrying out with a certain angular velocity at the time of fusion of the metal layer. The working time of the part increased due to centrifugal rotation. Because the layer of molten metal moves to the edge of the part, increasing its volume. The edge of the part receives the greatest load to the moment of operation.

ISSN:2522-4433
Перелік літератури
  1. Pulka Ch. V. Tehnologichna ta energetychna efektyvnist’ indukciynogo naplavlennya tonkyh stalevyh dyskiv: dis. … doct. tehn. Nauk. Kyiv, 2006. [In Ukrainian].
  2. Ryabcev I. A. Naplavka detalei mashyn i mehanizmov. Kiev: Ecotehnologia, 2004. 160 p. [In Russian].
  3. Pulka Ch. V., Shabliy O. N., Grabin V. F., Dzykovich I. Ya. Sovershenstvovanie tehnologii indukcyonnoy naplavki tonkih fasonnyh diskov. Avtomaticheskaya svarka. No. 1. 1991. P. 57–61. [In Russian].
  4. Pulka Ch. V., Senchishin V. S., Havryliuk V. Ya., Bazar M. S. Vliyanie tehnologicheskih shem indukcyonnoi naplavki na stabil’nost’ tolshchiny naplavlennogo sloya. Avtomaticheskaya svarka. No. 4. 1991. P. 65–67. [In Russian].
  5. Pulka Ch. V., Shabliy O. M., Havryliuk V. Ya., Senchyshyn V. S., Sharyk M. V. Sposib naplavlennya tonkyh dyskiv. Pat. na korysnu model’ 77032 UA, MPK V23K 13/00. Zayavnyk i vlasnyk TNTU im. Ivana Puluja, 2012. [In Ukrainian].
  6. Havryliuk V. Ya., Pulka Ch. V., Mykhailyshyn V. M. ta in. Matematychna model` ruhu krapli ridkogo metalu na poverhni obertovogo stalevogo dyska. Visnyk TNTU im. I. Puluja. No. 1 (97). 2020. Р. 5–13. [In Ukrainian].
  7. Demchenko V. F., Fedorov O. P., Shuba I. V., Asnis Ju. A., Lisnyi A. B. Matematychne modeljuvannya hidrodynamichnyh ta teplovyh procesiv pry vyroschuvanni krystaliv iz rozplavu. Obschie voprosy metallurgii. No. 2. 2015. P. 42–50. [In Ukrainian].
  8. Packevych I.R, Riabov V.R., Deev G.F. Poverhostnye iavlenia pri svarke metallov, Kiev, Nauk. Dumka, 1991, 240 pp. [in Russian].

 

References:
  1. Pulka Ch. V. Tehnologichna ta energetychna efektyvnist’ indukciynogo naplavlennya tonkyh stalevyh dyskiv: dis. … doct. tehn. Nauk. Kyiv, 2006. [In Ukrainian].
  2. Ryabcev I. A. Naplavka detalei mashyn i mehanizmov. Kiev: Ecotehnologia, 2004. 160 p. [In Russian].
  3. Pulka Ch. V., Shabliy O. N., Grabin V. F., Dzykovich I. Ya. Sovershenstvovanie tehnologii indukcyonnoy naplavki tonkih fasonnyh diskov. Avtomaticheskaya svarka. No. 1. 1991. P. 57–61. [In Russian].
  4. Pulka Ch. V., Senchishin V. S., Havryliuk V. Ya., Bazar M. S. Vliyanie tehnologicheskih shem indukcyonnoi naplavki na stabil’nost’ tolshchiny naplavlennogo sloya. Avtomaticheskaya svarka. No. 4. 1991. P. 65–67. [In Russian].
  5. Pulka Ch. V., Shabliy O. M., Havryliuk V. Ya., Senchyshyn V. S., Sharyk M. V. Sposib naplavlennya tonkyh dyskiv. Pat. na korysnu model’ 77032 UA, MPK V23K 13/00. Zayavnyk i vlasnyk TNTU im. Ivana Puluja, 2012. [In Ukrainian].
  6. Havryliuk V. Ya., Pulka Ch. V., Mykhailyshyn V. M. ta in. Matematychna model` ruhu krapli ridkogo metalu na poverhni obertovogo stalevogo dyska. Visnyk TNTU im. I. Puluja. No. 1 (97). 2020. Р. 5–13. [In Ukrainian].
  7. Demchenko V. F., Fedorov O. P., Shuba I. V., Asnis Ju. A., Lisnyi A. B. Matematychne modeljuvannya hidrodynamichnyh ta teplovyh procesiv pry vyroschuvanni krystaliv iz rozplavu. Obschie voprosy metallurgii. No. 2. 2015. P. 42–50. [In Ukrainian].
  8. Packevych I.R, Riabov V.R., Deev G.F. Poverhostnye iavlenia pri svarke metallov, Kiev, Nauk. Dumka, 1991, 240 pp. [in Russian].
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