The study of the surface quality of the thin wall bearing units to rolls roller seats pipe conveyor

Michalik, P.; Zajac, J.; Fabianova, J.; Mital, D.

doi:10.12913/22998624/74102

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Tytuł artykułu

The study of the surface quality of the thin wall bearing units to rolls roller seats pipe conveyor

Autorzy

Michalik P. , Zajac J. , Fabianova J. , Mital D.

Treść / Zawartość

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Identyfikatory

DOI

10.12913/22998624/74102

Warianty tytułu

Języki publikacji

Abstrakty

The article deals with the study of surface roughness of thin-walled houses bearing rollers for roller mills. The size and shape of the rear end housing was designed in order to measure the surface roughness of the inner cylindrical bearing surface with a wall thickness of 4, 5 and 6 mm. For comparison the roughness was measured also on the wall with a thickness 26 mm. The welded housing and the base plate was clamped in the machine vice jaw with a width of 150 mm. Material components bearing small house has been fine-grain weld able steel bearing S355. For finishing the hole with a diameter of 40 mm, a tool with a diameter of 32 mm was used with three cutting blades SDXT09M405R MM. Spindle speed was 1350 rev / min. Tool feed speed was 850 mm / min. The surface roughness was measured with a Mitutoyo SJ 400th.

Słowa kluczowe

thin wall roughness pipe conveyor bearing houses

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

2017

Tom

Vol. 11, no 2

Strony

192--197

Opis fizyczny

Bibliogr. 14 poz., fig.

Twórcy

autor

Michalik P.

peter.michalik@tuke.sk

The Technical University of Kosice, Faculty of Manufacturing Technologies with a seat in Presov, Slovakia

autor

Zajac J.

The Technical University of Kosice, Faculty of Manufacturing Technologies with a seat in Presov, Slovakia

autor

Fabianova J.

The Technical University of Kosice, Faculty of Mining, Ecology, Process Control and Geotechnology, Slovakia

autor

Mital D.

The Technical University of Kosice, Faculty of Manufacturing Technologies with a seat in Presov, Slovakia

Bibliografia

1. Michalik P., Zajac J., Hatala M., Mital D., Fecova V. Monitoring surface roughness of thin-walled components from steel C45 machining down and up milling, Measurement. 58 (2014), 416–428.
2. Molnár V., Fedorko G., Andrejiová M., Grinčová A., Kopas M. Monitoring of dependences and ratios of normal contact forces on hexagonal idler housings of the pipe conveyor, Measurement. 64 (2015), 168–176.
3. Molnár V., Fedorko G., Stehlíková B., Kudelás Ľ., Husáková N. Statistical approach for evaluation of pipe conveyor’s belt contact forces on guide idlers, Measurement. 46 (2013), 3127–3135.
4. Molnár V., Fedorko G., Stehlíková B., Tomašková M., Hulínová Z. Analysis of asymmetrical effect of tension forces in conveyor belt on the idler roll contact forces in the idler housing, Measurement. 52 (2014), 22–32.
5. Panda A., Duplák J., Vasilko K., Analysis of Cutting Tools Durability Compared with Standard ISO 3685, Int. J. Comput. Theory Eng. 4 (2012), 621–624.
6. Molnar V., Fedorko G., Stehlikova B., Paulikova A. Influence of tension force asymmetry on distribution of contact forces among the conveyor belt and idler rolls in pipe conveyor during transport of particulate solids. Measurement (2015), 120–127.
7. Fedorko G., Molnar V., Dovica M., Toth T., Kopas M. Analysis of pipe conveyor belt damaged by thermal wear, Engineering Failures Analles 45 (2014), 41–48.
8. Lumnitzer E., Liptai P., Drahos R. Measurement and Assessment of Pulsed Magnetic Fields in the Working Environment, in: Kolcun, M and Kolcunova, I and Kurimsky, J (Ed.), Proc. 8TH Int. Sci. Symp. Electr. Power Eng. (Elektroenergetika 2015), 2015, 331–333.
9. Stejskal T., Kelemenová T., Dovica M., Demeč P., Štofa M. Information contents of a signal at repeated positioning measurements of the coordinate measuring machine (CMM) by laser interferometer. In: Measurement Science Review. Vol. 16, no. 5 (2016), 273-279.
10. Gajdoš I., Slota J., Spišák E., Jachowicz T., Tor-Świątek A. Structure and tensile properties evaluation of samples produced by Fused Deposition Modeling. Open Engineering - 2016, nr 1, vol. 6, 86-89.
11. Mantic M., Kulka J., Krajnak J., Kopas M., Schneider M. Influence of selected digitization methods on final accuracy of 3D model, Production Management and Engineering Sciences. - Leiden : CRC Press/Balkema, 2016, 475-480.
12. Strohmandl J. Use of simulation to reduction of faulty products. Scientific Bulletin Series D: Mechanical Engineering. 3/2014, 2286-3699.N
13. Němčěk O., Honus S., Juchlková D. Application and Efficiency Verification of Classical and Unconvetional Sorbents which Serve for Capture of Heavy Metals during Coal Combustion in Experimental Fluid Device. Applied Mechanics and Materials, Vols. 260-261 (2013), 302-306.
14. Rozbroj J., Zegzulka J., Nečas J. Use of DEM in the Determination of Friction Parameters on a Physical Comparative Model of a Vertical Screw Conveyor, Chem. Biochem. Eng. Q. 29 (2015), 25–34.

Uwagi

Opracowanie ze środków MNiSW w ramach umowy 812/P-DUN/2016 na działalność upowszechniającą naukę (zadania 2017)

Typ dokumentu

Bibliografia

Identyfikator YADDA

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