Influence of technological schematics of induction surfacing on stability of deposited layer thickness
CUNTUR
Переглянути архів Інформація| Поле | Співвідношення | |
| Title |
Influence of technological schematics of induction surfacing on stability of deposited layer thickness
Влияние технологических схем индукционной наплавки на стабильность толщины наплавленного слоя Вплив технологічних схем індукційного наплавлення на стабільність товщини наплавленого шару |
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| Creator |
Pulka, Ch.V.
Senchishin, V.S. Gavrilyuk, V.Ya Bazar, M.S. Пулька, Чеслав Вікторович Сенчишин, Віктор Степанович Гаврилюк, Володимир Ярославович Базар, Мар’ян Степанович |
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| Subject |
induction surfacing
inductor surfacing modes thermal and electromagnetic shields deposited layer thickness rotation horizontal vibration |
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| Description |
Induction surfacing is applied in manufacture and repair of cutting tools of agricultural machinery. Deposited layers improve the tool wear resistance. Here it is important to take into account the deposited layer thickness. The paper presents the results of investigation of geometrical characteristics of a layer of metal deposited by induction process with wear-resistant powder-like consumables by four technological schematics. It is shown that application of shields, horizontal vibration and rotation of the surfaced part improves the stability of geometrical characteristics of the deposited metal layer by 22 %, compared to traditional induction surfacing. A procedure was developed for measurement of geometrical characteristics of the metal layer deposited by induction process, which allows increasing the measurement accuracy, as well as monitoring the stability of layer thickness at development of new technological processes of induction surfacing of thin flat parts. 8 Ref., 3 Figures.
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| Date |
2015-11-12T15:19:44Z
2015-11-12T15:19:44Z 2013 |
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| Type |
Article
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| Identifier |
Pulka Ch.V. Senchishin V.S. Gavrilyuk V.Ya. Bazar M.S.
Influence of technological schematics of induction surfacing on stability of deposited layer thickness
The Paton Welding Journal, April 2013, No4, p. 61-63
http://elartu.tntu.edu.ua/handle/123456789/6186 |
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| Language |
en
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| Relation |
The Paton Welding Journal
1. Ryabtsev, I.A. (2004) Surfacing of parts of machines and mechanisms. Kiev: Ekotekhnologiya. 2. Senchishin, V.S., Pulka, Ch.V. (2012) Modern methods of surfacing the tools of agricultural tillers and harvesting (Review). The Paton Welding J., 9, 43-49. 3. Pulka, Ch.V. (2006) Technological and energy efficiency of induction surfacing of thin steel disks: Thesis of Dr. of Eng. Sci. Kiev. 4. Bol, A.A. (1984) Development of induction surfacing in agricultural machinery engineering. Tekhnologiya, Issue 3, 38. 5. Pulka, Ch.V., Shably, O.N., Senchishin V.S. et al. (2012) Influence of vibration of parts in surfacing on structure and properties of metal. The Paton Welding J., 1, 23-25. 6. Pulka, Ch.V., Gavrilyuk, V.Ya., Senchishin, V.S. (2013) Improvement of equipment and technology of induction surfacing. Svarochn. Proizvodstvo (in the press). 7. Kolker, Ya.D. (1976) Mathematical analysis of the accuracy of part machining. Kiev: Tekhnika. 8. Barabashchuk, V.I., Kredentser, B.P., Miroshnichenko, V.I. (1984) Experiment planning in engineering. Kiev: Tekhnika. |
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| Format |
61-63
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