Analysis of Hard Facing Material Designed for Application on the Forestry Tools

Ťavodová, Miroslava; Hnilicová, Michaela; Miturska, Izabela

doi:10.12913/22998624/113287

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Tytuł artykułu

Analysis of Hard Facing Material Designed for Application on the Forestry Tools

Autorzy

Ťavodová Miroslava , Hnilicová Michaela , Miturska Izabela

Treść / Zawartość

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DOI

10.12913/22998624/113287

Warianty tytułu

Języki publikacji

Abstrakty

The article deals with the assessment specific hard facing material with W2C high content – filled welding rod for manual flame hard facing RD 571. Is was applied in two layers on the samples (16MnCr5 steel) of the tool for crushing undesirable advance growths, frequently used in forestry technologies. The tools work in a heterogeneous environment. They are loaded by abrasive impression of wood mass, which are characterized by various hardness. The material loss on the functional parts is significant. The wear degradation of the tool and its subsequent early decommissioning represents economic losses for forest companies. The investigations conducted under laboratory conditions involved hardness measuring HV10 and HRC, wear resistance testing of materials by friction against loosely fixed abrasive parts, with assessment profile and depth of the mark as well as assessment of quality mixing of the layers, microstructure assessment by SEM with EDX analyses. By evaluating the laboratory tests, the conclusions were drawn to determine the suitability or the non-suitability of the selected hardfacing material in service. Whether the material increases the service life of the undesirable crusher tool, will by verified by performing field trials.

Słowa kluczowe

hard facing forestry tools abrasive wear microscopy analyses hardness

utwardzanie narzędzia leśne zużycie ścierne analiza mikroskopowa twardość

Wydawca

Lublin University of Technology
Polish Society of Ecological Engineering (PTIE), Branch of PTIE in Lublin

Czasopismo

Advances in Science and Technology. Research Journal

Rocznik

2019

Tom

Vol. 13, no 4

Strony

111--119

Opis fizyczny

Bibliogr. 20 poz., fig., tab.

Twórcy

autor

Ťavodová Miroslava

Technical University in Zvole, Faculty of Environmental and Manufacturing Technology, Študentská 26, 960 01 Zvolen, Slovakia

autor

Hnilicová Michaela

Technical University in Zvole, Faculty of Environmental and Manufacturing Technology, Študentská 26, 960 01 Zvolen, Slovakia

autor

Miturska Izabela

i.miturska@pollub.pl

Lublin University of Technology, Faculty of Mechanical Engineering, Nadbystrzycka 36, 20-618 Lublin, Poland

Bibliografia

1. Bajga M. Navařovaní kovů. Svět svaru. 2017, roč. 9, č. 2.
2. Benson E. and Burack W. A. Frac Sand Sources in the United States, U.S. Geological Survey, Denver, Colorado (2015) [Access: 17.05.2019].
3. Dawson R.J., Shewchik S. and Pritchard J.E. Selection and use ofhardfacing alloys, Weld, J. 61 (11), Pp. 15–23, 1982.
4. Greš M. and Viňáš J. Negatívne vplyvy pôsobiace v procesoch renovácie naváraním Integrovaná bezpečnosť. Proceedings of the international Scientific conference, Bratislava December 18–19, 2014, Strix Žilina, Edition ESE-17, First edition.
5. Chotěborský R., Hrabě, P. et al. 2009. Abrazívní opotřebení návarových materiálů na bázi Fe-Cr-C. In: Konstrukce [Access: 2019–05–20].
6. Kalincová D., Ťavodová M., Hnilicová M., and Veverková D. Machinery for forest cultivation – increase of resistance to abrasive wear of the tool In MM science journal. November (2016), 1269–1272.
7. Krauze K., Bołoz Ł. and Wydro T. Parametric factors for the tangential-rotary picks quality asessment, Archives of Mining Sciences, 60(1), 2015, 265–281. DOI: 10.1515/amsc-2015–0018.
8. Minárik M. and Hricová J. Log splitter design and construction In. Drvna industrija: znastveni časopis za pitanja drvne technologije. 2015, 11-16.
9. Müller M., Novák P., Chotěborský R. and Hrabě P. Reduction of ploughshare wear by means of carbide overlay. Manufacturing Technology, Vol. 1. 2018.
10. Suchánek J. Návarové slitiny do podmínek abraze [Access: 20.04.2019].
11. Sujová E., Čierna H. and Hnilica R. Methodology proposal for identifying life-cycle costs (LCC) of mulchers of undesirable growth. MM Science Journal, 2016, 1166-1170.
12. Šebek M., Falat L., Kováč F., Petryshynets I., Horňak P. and Girman V. The effects of laser surface hardening on microstructural characteristics and wear resistance of AISI H11 hot work tool steel. Arch. Metall. Mater. 62(3), (2017), 1721–1726. DOI: 10.1515/amm-2017–0262.
13. Ťavodová M., Džupon M., Kalincová D. and Hnilicová M. Deformation of exposed parts tool for crushing of undesirable advance growths In Acta technologica agriculturae, 21(4), (2018), 169–176.
14. ESAB Slovakia – Katalóg produktov [Access: 20.04.2019].
15. ГОСТ 23.208–79 Обеспечение износостойкости изделий. Метод испытания материалов на износостойкость при трении о нежестко закрепленные абразивные частицыhttp [Access: 02.05.2019].
16. STN EN ISO 6507–1:2006 Kovové materiály: Vickersova skúška tvrdosti. Časť 1., Skúšobná metóda. SÚTN Bratislava.
17. STN EN ISO 6507–4:2006 Kovové materiály: Vickersova skúška tvrdosti. Časť 4., Tabuľky hodnôt tvrdostí. SÚTN Bratislava.
18. STN EN ISO 6508–1:2006 Kovové materiály: Rockwellova skúška tvrdosti. Časť 1., Skúšobná metóda (stupnice A, B, C, D, E, F, G, H, K, N, T) SÚTN. Bratislava.
19. Stupnica tvrdosti nerastov [Access: 17.05.2019].
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Uwagi

Opracowanie rekordu w ramach umowy 509/P-DUN/2018 ze środków MNiSW przeznaczonych na działalność upowszechniającą naukę (2019).

Typ dokumentu

Bibliografia

Identyfikator YADDA

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