EXPERIMENTAL INVESTIGATION OF BENDING FATIGUE, bREAKING LOAD AND CORROSION PERFORMANCE OF STEEL WIRE ROPES WITH INDEPENDENT WIRE ROPE CORE(IWRC) AND IMPREGNATED PLASTIC CORE(EPIWRC)

2010 ◽

Vol 225 (3) ◽

pp. 520-525 ◽

Cited By ~ 7

Author(s):

Y A Onur ◽

C E İmrak

Keyword(s):

Rotation Speed ◽

Steel Wire ◽

Experimental Tests ◽

Wire Rope ◽

Experimental Investigations ◽

Thermal Camera ◽

Fatigue Lifetime ◽

Bending Fatigue ◽

Wire Ropes ◽

Different Diameters

This article presents experimental investigations to determine the influence of rotation speed on the bending fatigue lifetime of rotation-resistant rope and non-rotation-resistant rope. Heat generated by the rotation speed on steel wire rope samples has been measured by a thermal camera. Two sheaves with different diameters have been used to obtain the effect of sheave diameters on the heat alterations and bending fatigue lifetime. Two experimental tests have been conducted to determine the effect of insufficient lubrication on the bending fatigue lifetime. The results indicate that rotation speed affects the steel wire rope lifetime subjected to bending fatigue.

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A Novel Prediction Perspective to the Bending Over Sheave Fatigue Lifetime of Steel Wire Ropes by Means of Artificial Neural Networks

Artificial Intelligence and Machine Learning Applications in Civil, Mechanical, and Industrial Engineering - Advances in Computational Intelligence and Robotics ◽

10.4018/978-1-7998-0301-0.ch003 ◽

2020 ◽

pp. 39-58

Author(s):

Tuğba Özge Onur ◽

Yusuf Aytaç Onur

Keyword(s):

Neural Networks ◽

Artificial Neural Networks ◽

Fatigue Testing ◽

Steel Wire ◽

Experimental Studies ◽

Fatigue Lifetime ◽

Bending Fatigue ◽

Wire Ropes ◽

Significant Case ◽

Artificial Neural

Steel wire ropes are frequently subjected to dynamic reciprocal bending movement over sheaves or drums in cranes, elevators, mine hoists, and aerial ropeways. This kind of movement initiates fatigue damage on the ropes. It is a quite significant case to know bending cycles to failure of rope in service which is also known as bending over sheave fatigue lifetime. It helps to take precaution in the plant in advance and eliminate catastrophic accidents due to usage of rope when allowable bending cycles are exceeded. To determine bending fatigue lifetime of ropes, experimental studies are conducted. However, bending over sheave fatigue testing in laboratory environments require high initial preparation cost and longer time to finalize the experiments. Due to those reasons, this chapter focuses on a novel prediction perspective to the bending over sheave fatigue lifetime of steel wire ropes by means of artificial neural networks.

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The Fatigue and Degradation Mechanisms of Wire Ropes Bending-over-Sheaves

Applied Mechanics and Materials ◽

10.4028/www.scientific.net/amm.127.344 ◽

2011 ◽

Vol 127 ◽

pp. 344-349

Author(s):

Zhi Hui Hu ◽

Ji Quan Hu

Keyword(s):

Failure Mechanism ◽

Fatigue Failure ◽

Mechanical Damage ◽

Wire Rope ◽

Stress Conditions ◽

Degradation Mechanisms ◽

Bending Fatigue ◽

Wire Ropes ◽

Combined Action

Fatigue failure behaviors caused by wire ropes bending-over-sheaves are discussed in the paper. Stress conditions of wire ropes bending-over-sheaves and the mechanism of damage to wire rope caused by fleet angel and angle of wrap is analyzed, the fatigue failure mechanism of wire ropes is investigated in the paper. The investigation indicates that the load and the mechanical damage of ropes bending-over-sheaves is very complex, and the fatigue failure of ropes bending-over-sheaves is the result of combined action of bending fatigue and various kinds of damage. The research will have implications to design and use of wire rope.

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Experimental Investigation of Stresses in Winch Drums Subjected to Multilayer Spooling Loads From Synthetic Fibre Ropes

Volume 7A: Ocean Engineering ◽

10.1115/omae2019-95283 ◽

2019 ◽

Cited By ~ 1

Author(s):

Reidar André Skarbøvik ◽

Henry Piehl ◽

Sverre Torben ◽

Mette Lokna Nedreberg ◽

Vilmar Æsøy

Keyword(s):

Experimental Investigation ◽

High Performance ◽

Synthetic Fibre ◽

Steel Wire ◽

High Strength ◽

Wire Rope ◽

First Results ◽

Large Water ◽

Marine Applications ◽

And Control

Abstract In many marine applications, modern high-performance synthetic fibre ropes have replaced, and are continuing to replace, well-known steel wire rope solutions due to the low weight of the synthetic ropes removing limitations for operations at large water depths. In some cases, replacement of steel wires with synthetic ropes has caused permanent deformations and damage to multilayer winch drums, indicating that synthetic fibre ropes can cause larger pressure on winch drums than steel wire. This paper presents the first results from a novel experimental investigation of a multilayer winch subjected to a selection of braided high-performance synthetic fibre ropes and a reference steel wire rope. The tested ropes, with nominal diameters between 12 and 20mm, are spooled at different tensile loads and with maximum number of layers in the range of 10 to 19. The experiments utilize a test rig with two winch drums, controllable spooling gear and sheaves with load cells to apply and control required load and speed during spooling. Measurements from twelve biaxial strain gauges on the inside of a thick high-strength drum are used to measure stresses in the structure. The results show that the selected fibre ropes induce considerably larger stress in the winch drum than the steel wire rope. This confirms that design of multilayer winch drums with high-performance synthetic fibre ropes requires special considerations and that the guidance for multilayer stress calculations, related to steel wire ropes, in DNV-GL-0378 “Standard for offshore and platform lifting appliances” is not applicable for synthetic fibre rope applications.

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A Review of Fatigue Curves for Mooring Lines

24th International Conference on Offshore Mechanics and Arctic Engineering: Volume 1, Parts A and B ◽

10.1115/omae2005-67583 ◽

2005 ◽

Cited By ~ 1

Author(s):

Ronaldo Rosa Rossi

Keyword(s):

Production Systems ◽

Steel Wire ◽

Fatigue Curve ◽

Breaking Load ◽

Fatigue Tests ◽

American Petroleum Institute ◽

Mooring Lines ◽

Wire Ropes ◽

Oil Rig ◽

Quality Chain

For mooring chains of offshore floating production units, API (American Petroleum Institute) recommends the use of its TxN fatigue curve considering the MBL (Minimum Breaking Load) of an ORQ (Oil Rig Quality) chain even if the chain has a higher grade. This curve has been used in mooring system design of offshore floating production units since the draft edition of API Recommended Practice for Design, Analysis and Maintenance of Catenary Mooring for Floating Production Systems in May 89 and several fatigue tests have been done by petroleum industries, chain manufacturers and research centers. Those fatigue tests show that the use of the MBL of an ORQ chain for higher grades is a conservative assumption. This paper will present an overview of the fatigue curves of materials for mooring lines: stud and studless chains, steel wire ropes and polyester fiber ropes. This overview is based on recent tests, rules and published papers.

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The Analysis of Wire Rope Tension Sensor Elastic Body Based on Solidworks

Advanced Materials Research ◽

10.4028/www.scientific.net/amr.591-593.1603 ◽

2012 ◽

Vol 591-593 ◽

pp. 1603-1606 ◽

Cited By ~ 2

Author(s):

Peng Liu ◽

Xin Zhang ◽

Ya Kun Huang ◽

Ji Xu Rong

Keyword(s):

Elastic Body ◽

Steel Wire ◽

Strain Sensor ◽

Wire Rope ◽

Reliable Data ◽

Inspection System ◽

Software Modeling ◽

Modeling And Analysis ◽

Wire Ropes ◽

Tension Sensor

This article introduces unbalance phenomenon when several steel wire ropes hoist skip and some main methods of measuring steel wire ropes tension in coal mine. Use the strain effects to design a sensor which can be used to measure the tension of steel wire rope, to provide reliable data for the subsequent online tension inspection system. In order to facilitate the sensor in this system, the height of the sensor needs to be low enough. As one of the most important parts of the strain sensor, the elastic body is also low-height. To solve that problem, first using the SolidWorks software modeling and analysis of elastic body to design the sizes and obtain the best patch position of strain gauge.

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A Wire Contact in the Construction of a Steel Rope

Applied Mechanics and Materials ◽

10.4028/www.scientific.net/amm.683.3 ◽

2014 ◽

Vol 683 ◽

pp. 3-8

Author(s):

Jozef Krešák ◽

Pavel Peterka ◽

Stanislav Kropuch ◽

Andrea Bérešová

Keyword(s):

Steel Wire ◽

Transportation Systems ◽

Wire Rope ◽

Factors Affecting ◽

Wire Ropes ◽

Construction Design ◽

Deformation Properties ◽

Labor Safety ◽

Mining Coal ◽

Corrosive Environments

A rope is an important, highly effective and one of the oldest transportation systems used in transport by mankind. Nowadays, steel ropes are mainly used for moving loads in mining - coal and ore exploitation, vertical or horizontal transport of persons and goods by cranes, elevators, lifts and cable ways. In many cases steel wire ropes are employed in extreme conditions with respect to the load of the rope: high temperature plants, mining corrosive environments and etc. In terms of labor safety it is necessary to certify each rope people come in contact when working with loads or a rope is used for transportation. It has to be done earlier than a rope is put into operation or on the market. Despite the fact the tests were performed correctly, a rope may not achieve the desired rope life. The great impact on the life of a wire rope has its interaction with a device a rope is deployed on. Interaction of a steel wire rope with a device it is deployed on has a great impact on its life. Durability is also affected by the way a rope is loaded, its maintenance and regular re-examination as well as its construction. Design accuracy is assessed according to strength and deformation properties of wires a rope is made of and a rope cross-section construction is taken in account as well. The important aspect of steel wire rope durability (which can be mostly influenced by a manufacturer) is an appropriate design of diameters and angles of wires winding in accordance with exactly defined conditions of operation. The paper presents models of ropes equally loaded which eliminates the most unfavorable factors affecting their life cycle.

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