Theoretical foundations of modeling the process of transport vehicles steel ropes structural defects formation

Theoretical foundations of modeling the process of transport vehicles steel ropes structural defects formation

The article presents materials on the study of mathematical modeling of splicing (binding) of steel rope used to transmit traction by friction. The developed mathematical model splicing (binding) describes the stress-strain state of strands (wires) from quasistatic loads, arising in the cyclic tensi...

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Main Authors: Korotky Anatoly, Marchenko Edward, Popov Sergey, Marchenko Julianna, Dontsov Nikolai
Format: Article
Language:English
Published: EDP Sciences 2020-01-01
Series:E3S Web of Conferences
Online Access:https://www.e3s-conferences.org/articles/e3sconf/pdf/2020/35/e3sconf_interagromash2020_05018.pdf
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spelling doaj-11ba7b5772c2443d9fc53f395c23173b2021-04-02T15:53:15ZengEDP SciencesE3S Web of Conferences2267-12422020-01-011750501810.1051/e3sconf/202017505018e3sconf_interagromash2020_05018Theoretical foundations of modeling the process of transport vehicles steel ropes structural defects formationKorotky Anatoly0Marchenko Edward1Popov Sergey2Marchenko Julianna3Dontsov Nikolai4Don State Technical UniversityDon State Technical UniversityDon State Technical UniversityDon State Technical UniversityDon State Technical UniversityThe article presents materials on the study of mathematical modeling of splicing (binding) of steel rope used to transmit traction by friction. The developed mathematical model splicing (binding) describes the stress-strain state of strands (wires) from quasistatic loads, arising in the cyclic tension process and bending of steel rope on rope sheave, in which the resultant force in steel rope cross section is shifted relative to the central axis, causing it to bend and torsion. Using experimental data, it was found that the steel rope torsion and bending is caused by the linking technology in the nodes where strands are replaced. Experimentally established, that defects on the splicing (binding) site manifested as a result of cyclic tensile and bending loads on rope sheave, which is connected to limited mobility of the strands in nodes due to cross section symmetry violation.https://www.e3s-conferences.org/articles/e3sconf/pdf/2020/35/e3sconf_interagromash2020_05018.pdf
collection DOAJ
language English
format Article
sources DOAJ
author Korotky Anatoly
Marchenko Edward
Popov Sergey
Marchenko Julianna
Dontsov Nikolai
spellingShingle Korotky Anatoly
Marchenko Edward
Popov Sergey
Marchenko Julianna
Dontsov Nikolai
Theoretical foundations of modeling the process of transport vehicles steel ropes structural defects formation
E3S Web of Conferences
author_facet Korotky Anatoly
Marchenko Edward
Popov Sergey
Marchenko Julianna
Dontsov Nikolai
author_sort Korotky Anatoly
title Theoretical foundations of modeling the process of transport vehicles steel ropes structural defects formation
title_short Theoretical foundations of modeling the process of transport vehicles steel ropes structural defects formation
title_full Theoretical foundations of modeling the process of transport vehicles steel ropes structural defects formation
title_fullStr Theoretical foundations of modeling the process of transport vehicles steel ropes structural defects formation
title_full_unstemmed Theoretical foundations of modeling the process of transport vehicles steel ropes structural defects formation
title_sort theoretical foundations of modeling the process of transport vehicles steel ropes structural defects formation
publisher EDP Sciences
series E3S Web of Conferences
issn 2267-1242
publishDate 2020-01-01
description The article presents materials on the study of mathematical modeling of splicing (binding) of steel rope used to transmit traction by friction. The developed mathematical model splicing (binding) describes the stress-strain state of strands (wires) from quasistatic loads, arising in the cyclic tension process and bending of steel rope on rope sheave, in which the resultant force in steel rope cross section is shifted relative to the central axis, causing it to bend and torsion. Using experimental data, it was found that the steel rope torsion and bending is caused by the linking technology in the nodes where strands are replaced. Experimentally established, that defects on the splicing (binding) site manifested as a result of cyclic tensile and bending loads on rope sheave, which is connected to limited mobility of the strands in nodes due to cross section symmetry violation.
url https://www.e3s-conferences.org/articles/e3sconf/pdf/2020/35/e3sconf_interagromash2020_05018.pdf
work_keys_str_mv AT korotkyanatoly theoreticalfoundationsofmodelingtheprocessoftransportvehiclessteelropesstructuraldefectsformation
AT marchenkoedward theoreticalfoundationsofmodelingtheprocessoftransportvehiclessteelropesstructuraldefectsformation
AT popovsergey theoreticalfoundationsofmodelingtheprocessoftransportvehiclessteelropesstructuraldefectsformation
AT marchenkojulianna theoreticalfoundationsofmodelingtheprocessoftransportvehiclessteelropesstructuraldefectsformation
AT dontsovnikolai theoreticalfoundationsofmodelingtheprocessoftransportvehiclessteelropesstructuraldefectsformation
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