How the rope is pushing new boundaries to meet crane power
06 September 2021
Lifting safety starts with the rope and as cranes develop innovation is on the rise, writes Graham Anderson
A lattice boom crawler crane setting up wind turbines, a crane handling containers in port or an indoor crane in a paper factory have all at least one thing in common: the rope. Increasingly, in addition to steel wire rope, some or all of them on a crane might be made from synthetic fibre.
The rope has always been a critical crane component, and as cranes have become bigger and more powerful, companies are responding with investments in new products and technical innovation.
Two companies among those at the forefront of such thinking are German wire rope specialist Casar – part of WireCo WorldGroup, the global wire and synthetic rope manufacturer – and Konecranes, the Finland-headquartered crane manufacturer.
Casar has long invested heavily in research and development to acquire a comprehensive technical understanding of the behaviour of wire ropes in various applications.
Safety and innovation were also driving forces in Konecranes’ development of the Konecranes Rope Analysis, designed to provide expert consultation to answer customers’ wire rope and rope-reeving questions and has recently been introduced into Australia, New Zealand and Southeast Asia.
Casar says its ropes are designed and calculated in such a way that they show their discard status on the rope surface in good time, informing the operator when it is time to change the rope.
Its product testing machines help it understand how rope properties such as breaking strength, turning behaviour, efficiency, flexibility and diameter reduction under load are determined. This knowledge then flows directly into new product development.
Selecting the perfect rope for an application involves knowing exactly which requirements and wear mechanisms the rope will be exposed to. A heavy-duty application such as the installation of a wind turbine requires a hoist rope to be extremely stable in terms of rotation, the best possible winding behaviour with multi-layer winding and very high breaking forces.
In response, the company’s experts developed the Casar Doublefit, made from compressed strands and hammered twice. By compressing the strands and hammering both the heart rope and the slammed rope, a very round and smooth surface is obtained and, as a result, the required winding behaviour.
In contrast, the hoist rope on a factory crane in a paper mill requires a wear-resistant rope that moves flexibly over the multitude of rollers in the reeving. For this reason, Casar Superplast 10 Mix was created with 10 outer strands, a plastic-coated steel core and a parallel construction – that is to say, the lay length of all wires and strands are the same length and the linear contact points ensure optimal load distribution in the rope.
Wide load spectrum
This design leads to uniform wear behaviour over a wide load spectrum which opens up a large field of application options.
Also focused on efficiency and safety is Konecranes Rope Analysis which targets issues such as rope selection, rope life, component failures, unexpected rope behaviour, accident investigation and improvement opportunities, including recommendations on extending rope and component life.
Mark Beckwith, Australian service operations manager at Konecranes, said the rope analysis can improve the total lifecycle costs of equipment by optimising wire rope change intervals.
He said, “Using proprietary 3D modelling and calculation tools, we provide an engineering assessment, calculation and inspection of a company’s ropes and reeving components, based on the EN 13001-3-2:2014 standard.”
Tension, bending and abrasion
Beckwith explained that throughout the working life of a wire rope, the strands and core are subjected to tension, bending and abrasion, which can compromise its strength and safety.
“Routine maintenance often relies on predetermined replacement intervals regardless of the actual condition of the wire ropes, meaning that safe and operable ropes might be replaced too often or too soon, resulting in unnecessary downtime and increased costs.”
Konecranes’ consultations can provide a calculated estimate of rope life, recommendations for rope selection or rope reeving geometry improvement. They can also offer recommendations for extending rope life along with rope failure insights and investigations.
“It’s easy to see when a rope has broken or failed, but by that stage, the crane is already out of action, and there can be significant downtime as it is repaired. Rope Analysis can determine the exact state of a crane’s wire rope and reeving systems, including remaining design life, to provide an accurate recommendation of when it should be changed, to avoid any failures,” Beckwith added.
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