Metallurgical Failure Analysis of a Steel Wire Rope Used at a Copper Smelting Facility

Detailed metallurgical failure analysis was carried out on a failed 25-mm steel wire rope. Chemical analysis, mechanical testing and microstructural analysis have shown the original material of the wires to comply with relevant standards and to be suitable for the present application. The main failu...

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Published in	Journal of failure analysis and prevention Vol. 25; no. 2; pp. 567 - 582
Main Author	Abdul Jawwad, Abdul Kareem
Format	Journal Article
Language	English
Published	Materials Park Springer Nature B.V 01.04.2025
Subjects	Chemical analysis Damage patterns Equalizers Failure analysis Failure modes Grooves High temperature Intergranular fracture Mechanical tests Microstructural analysis Recrystallization Rubbing Sheaves Sliding Steel wire Strands Wire Wire rope
Online Access	Get full text
ISSN	1547-7029 1864-1245
DOI	10.1007/s11668-025-02143-5

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Abstract	Detailed metallurgical failure analysis was carried out on a failed 25-mm steel wire rope. Chemical analysis, mechanical testing and microstructural analysis have shown the original material of the wires to comply with relevant standards and to be suitable for the present application. The main failure mode was found to be brittle intergranular fracture. This was promoted by recrystallization and grain coarsening which has also lowered mechanical strength of the rope. This microstructural modification itself is the result of wires experiencing relatively high temperatures (in excess of 300 °C) caused by inter-strand and inter-wire sliding/rubbing as well as dry sliding against sheaves, in particular the equalizer sheave. Rubbing/sliding actions have caused appreciable amounts of wear and wire breaking. The present analysis revealed the root cause of the present failure to be an inappropriate design and/or selection of the sheaving system including a small equalizer sheave-to-rope diameter ratio, large rope entry angle and small groove angle. These factors were responsible for causing substantial rope rotation and open twisting leading to the damage patterns explained above coupled with core strand shortening relative to outer strands. Dry sliding of the rope against equalizer sheave apparently helped augmenting the rope deterioration process. The present failure is believed to have started by failure of the core strand followed by failure of the outer strands.
AbstractList	Detailed metallurgical failure analysis was carried out on a failed 25-mm steel wire rope. Chemical analysis, mechanical testing and microstructural analysis have shown the original material of the wires to comply with relevant standards and to be suitable for the present application. The main failure mode was found to be brittle intergranular fracture. This was promoted by recrystallization and grain coarsening which has also lowered mechanical strength of the rope. This microstructural modification itself is the result of wires experiencing relatively high temperatures (in excess of 300 °C) caused by inter-strand and inter-wire sliding/rubbing as well as dry sliding against sheaves, in particular the equalizer sheave. Rubbing/sliding actions have caused appreciable amounts of wear and wire breaking. The present analysis revealed the root cause of the present failure to be an inappropriate design and/or selection of the sheaving system including a small equalizer sheave-to-rope diameter ratio, large rope entry angle and small groove angle. These factors were responsible for causing substantial rope rotation and open twisting leading to the damage patterns explained above coupled with core strand shortening relative to outer strands. Dry sliding of the rope against equalizer sheave apparently helped augmenting the rope deterioration process. The present failure is believed to have started by failure of the core strand followed by failure of the outer strands.
Author	Abdul Jawwad, Abdul Kareem
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SubjectTerms	Chemical analysis Damage patterns Equalizers Failure analysis Failure modes Grooves High temperature Intergranular fracture Mechanical tests Microstructural analysis Recrystallization Rubbing Sheaves Sliding Steel wire Strands Wire Wire rope
Title	Metallurgical Failure Analysis of a Steel Wire Rope Used at a Copper Smelting Facility
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