Calculation of size of structural constituents of metal deposited by induction method with application of mechanical vibration
CUNTUR
Переглянути архів Інформація| Поле | Співвідношення | |
| Title |
Calculation of size of structural constituents of metal deposited by induction method with application of mechanical vibration
Расчет размеров структурных составляющих наплавленного индукционным способом металла с наложением мехаческой вибрации Розрахунок розмірів структурних складових наплавленого індукційним способом металу з накладенням мехаческой вібрації |
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| Creator |
Pulka, Ch.V.
Senchishin, V.S. Пулька, Чеслав Вікторович Сенчишин, Віктор Степанович |
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| Contributor |
Ternopol Ivan Puluj National Technical University, MSEU, 56 Russkaya Str., 46001, Ternopol, Ukraine. E-mail: Viktor_Synchyshyn@i.ua
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| Subject |
deposited metal
induction surfacing structure vibration simulation |
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| Description |
Possibility of regulation of structure of deposited metal allows improving service properties of theparts. Present work studies the processes of refining of structure of deposited metal at application of horizontal mechanical vibration. Calculation model for determination of parameters of metal structure of PG-S1 type alloy, deposited by induction method applying mechanical vibration, was developed. Graphic dependencies of carbide constituents in the deposited metal on vibration amplitude and frequency were plotted based on received relationships. 9 Ref., 5 Figures. |
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| Date |
2015-11-06T14:55:28Z
2015-11-06T14:55:28Z 2015 |
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| Type |
Article
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| Identifier |
V.S. Senchishin and Ch.V. Pulka. Calculation of size of structural constituents of metal deposited by induction method with application of mechanical vibration. The Paton Welding Journal. 8/2015. P. 31-34.
http://elartu.tntu.edu.ua/handle/123456789/6141 |
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| Language |
en
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| Relation |
The Paton Welding Journal
Автоматическая сварка 1. Bugaj, Yu.M., Pituiej, L.D., Fedenchuk, D.I. (2000) Mathematical model of sedimentation-vibration equilibrium of arm itors of composite picks of roller bit. Metody ta Prylady Kontrolyu Yakosti, 6, 100-102. 2. Kryzhanivsky, E.I., Pituiej, L.D., Fedenchuk, D.I. (2005) Influence of vibration on crystalline structure of bit steel. Nauk. Visnyk NTUNG, 12(3), 26-30. 3. Petryna, Yu.D., Pituiej, L.D., Fedenchuk, D.I. (2005) Influence of reinforced melt vibration on crystalline structure of matrix bit steel. Rozvidka ta Rozrobka Naft. i Gaz. Rodovyslich, 16(3), 15-19. 4. Potanin, A.A., Uriev, N.B. (1988) Condition of fracture of coagulation structure by vibration field and aggregability criterion. Teoret. Osnovy Khim. Tekhnologii, 4, 528-534. 5. Pulka, Ch.V., Shably, O.N., Senchishin, V.S. et al. (2012) Influence of vibration of parts on structure and properties of metal in surfacing. The Paton Welding J., 1, 23-25. 6. Tutorsky, I.A. (2008) In troduction to colloid chemis try. Pt 4; Electric surface properties of dispersion systems. Stability and coagulation of colloid systems. Moscow: MITKhT. 7. Landau, L .D ., Lifshits, E.M. (1965) Mechanics. Moscow: Nauka. 8. Deryagin, B.V., Churaev, N.V., Muller, V.M. (1985) Surface forces. Moscow: Nauka. 9. Kabachny, V.T., Osypenko, L.K ., Grytsan, L.D. et al. (1999) Physical and colloid chemistry. Kharkiv: Prapor. |
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| Format |
31-34
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