Simulation analysis of rope belaying system

Mantič, Martin; Kuľka, Jozef; Faltinová, Eva; Kopas, Melichar; Lumnitzer, Ján

doi:10.20858/sjsutst.2019.104.10

Artykuł - szczegóły

Tytuł artykułu

Simulation analysis of rope belaying system

Autorzy

Mantič Martin , Kuľka Jozef , Faltinová Eva , Kopas Melichar , Lumnitzer Ján

Treść / Zawartość

Pełne teksty:

107_SJSUTST104_2019_ManticKulkaFaltinovaKopasLumnitzer.pdf

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Identyfikatory

DOI

10.20858/sjsutst.2019.104.10

Warianty tytułu

Języki publikacji

Abstrakty

This article describes a technical proposal of anchoring determined for a horizontal belaying system, which was developed to increase the safety of crane operators and maintenance staff in their movements and work at heights. This belaying system can be installed either on the common, already existing footbridge of the overhead travelling crane or on the crane track. Loading of the steel wire rope was investigated by the simulation figurines during various assumed loading regimes. The figurines were attached to the rope belaying system by means of the standard personal protective equipment and the calculation process was realised using the non-linear dynamic FEM analysis.

Słowa kluczowe

rope safety finite element method simulation

lina nośna bezpieczeństwo metoda elementów skończonych symulacja

Wydawca

Wydawnictwo Politechniki Śląskiej

Czasopismo

Zeszyty Naukowe. Transport / Politechnika Śląska

Rocznik

2019

Tom

z. 104

Strony

107--117

Opis fizyczny

Bibliogr. 24 poz.

Twórcy

autor

Mantič Martin

martin.mantic@tuke.sk

Faculty of Mechanical Engineering, Technical University of Košice, Letná 9 Street, 042 00 Košice, Slovak Republic

autor

Kuľka Jozef

jozef.kulka@tuke.sk

Faculty of Mechanical Engineering, Technical University of Košice, Letná 9 Street, 042 00 Košice, Slovak Republic

autor

Faltinová Eva

eva.faltinova@tuke.sk

Faculty of Mechanical Engineering, Technical University of Košice, Letná 9 Street, 042 00 Košice, Slovak Republic

autor

Kopas Melichar

melichar.kopas@tuke.sk

Faculty of Mechanical Engineering, Technical University of Košice, Letná 9 Street, 042 00 Košice, Slovak Republic

autor

Lumnitzer Ján

jan.lumnitzer@tuke.sk

Faculty of Mechanical Engineering, Technical University of Košice, Letná 9 Street, 042 00 Košice, Slovak Republic

Bibliografia

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2. Boroška Ján. 2000. „Činitele ovplyvňujúce životnosť a bezpečnosť prevádzky oceľových lán”. In: Výskum, výroba a použitie oceľových lán: 15-21. [In Slovak: “Factors affecting the service life and safety of steel wire ropes”. In: Research, production and use of steel ropes: 15-21]. Faculty of Mining, Technical University, Kosice, Slovakia. ISBN: 80-7099-592-0.
3. Molnár Vieroslav. 2006. Oceľové laná. [In Slovak: Steel ropes]. Kosice: Fakulty BERG, Technical University, Kosice, Slovakia. ISBN 80-8073-629-4.
4. Molnar Vieroslav, Gabriel Fedorko, Beata Stehlikova, Peter Michalik. 2011. „Statistical comparison of rope strands by ANOVA test and Kruskal-Walis test”. Technics technologies education management-TTEM 6 (4): 1121-1126. ISSN 1840-1503.
5. Torkar M., B. Arzenek. 2002. „Failure of crane wire rope”. Engineering Failure Analysis 9(2): 227-233. ISSN 1350-6307.
6. Costello George A. 2003. „Mechanics of wire rope”. In: Wire & Cable Technical Symposium: 73rd annual convention: 56-63. Wire Association International, Inc. May 2003. Atlanta, Georgia, USA.
7. Costello George A. 1997. Theory of Wire Rope. New York. Springer. ISBN 0-357-98202-7.
8. Chaplin Christopher Richard. 1995. „Failure mechanisms in wire ropes”. Engineering Failure Analysis 2(1): 45-57. ISSN 1350-6307.
9. Peterka Pavel, Jozef Krešák, Stanislav Kropuch, Gabriel Fedorko, Vieroslav Molnar, Marek Vojtko. 2014. „Failure analysis of hoisting steel wire rope”. Engineering Failure Analysis 45: 96-105. ISSN 1350-6307.
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12. Imrak C. Erdem, Erdönmez Cengiz. 2010. „On the problem of wire rope model generation with axial loading”. Mathematical and Computational Applications 15(2): 259-268. DOI: https://doi.org/10.3390/mca15020259.
13. Stanova Eva, Gabriel Fedorko, Michal Fabian, Stanislav Kmet. 2011. „Computer modelling of wire strands and ropes Part I: Theory and computer implementation”. Advances in Engineering Software 42(6): 305-315. ISSN 0965-9978. DOI: https://doi.org/10.1016/j.advengsoft.2011.02.008.
14. Molnár Vieroslav, Gabriel Fedorko, Jozef Krešák, Pavel Peterka, Jana Fabianová. 2017. „The influence of corrosion on the life of steel ropes and prediction of their decommissioning”. Engineering Failure Analysis 74: 119-132. ISSN 1350-6307. DOI: 10.1016/j.engfailanal.2017.01.010.
15. Stolle Cody S., John Douglas Reid. 2011. „Development of a wire rope model for cable guardrail simulation”. International Journal of Crashworthiness 16(3): 331-341. ISSN 1358-8265. DOI: 10.1080/13588265.2011.586609.
16. Velinsky S.A., G.L. Anderson, G.A. Costello. 1984. „Wire rope with complex cross sections“. Journal of Engineerig Mechanics 110(3): 380-391. ISSN 0733-9399.
17. Imanishi Etsujiro, Takao Nanjo, Takahiro Kobayashi. 2009. „Dynamic simulation of wire rope with contact”. Journal of Mechanical Science and Technology 23(4): 1083-1088. ISSN 1976-3824.
18. Paris A.J., C.C. Lin, George A. Costello. 1992. „Simple cord composites“. Journal of Engineerig Mechanics 118(9): 1939-1948. ISSN 0733-9399.
19. Rudawska Anna, Hubert Debski. 2011. „Experimental and numerical analysis of adhesively bonded aluminium alloy sheets joints”. Eksploatacja i Niezawodnosc – Maintenance and Reliability 1(49): 4-10. ISSN 1507-2711.
20. Gajdoš Ivan, Ján Slota, Emil Spišák, Tomasz Jachowicz, Aneta Tor-Swiatek. 2016. „Structure and tensile properties evaluation of samples produced by fused deposition modeling”. Open Engineering 6(1): 86-89. ISSN 2391-5439. DOI: https://doi.org/10.1515/eng-2016-0011.
21. Zul'ová, Lucia, Robert Grega, Jozef Krajňák. 2017. „Optimization of noisiness of mechanical system by using a pneumatic tuner during a failure of piston machine”. Engineering Failure Analysis 79: 845-851. ISSN 1350-6307.
22. Product catalogue of steel wire ropes. Wire and rope production factory DRÔTOVŇA a.s., Hlohovec, Slovakia, 2001.
23. STN EN 795: 1996. Osobné ochranné prostriedky proti pádu z výšky. Kotviace zariadenia. [In Slovak: Personal fall protection equipment. Anchor devices]. Bratislava. Slovak Office of Standards, Metrology and Testing.
24. STN EN 364+AC(832622): 1997. Osobné ochranné prostriedky proti pádu z výšky. Kotviace zariadenia. [In Slovak: Personal fall protection equipment. Testing methods]. Bratislava. Slovak Office of Standards, Metrology and Testing.

Uwagi

Opracowanie rekordu ze środków MNiSW, umowa Nr 461252 w ramach programu "Społeczna odpowiedzialność nauki" - moduł: Popularyzacja nauki i promocja sportu (2020).

Typ dokumentu

Bibliografia

Identyfikator YADDA

bwmeta1.element.baztech-861a67f8-74fd-4092-bb87-7ea0f9983405