Effect of wear scar characteristics on the bearing capacity and fracture failure behavior of winding hoist wire rope

Surface wear is an inevitable damage of wire ropes used in winding hoist. It always reduces the service life of the wire rope and threatens the mine safety. The characteristics of the surface wear scar caused by sliding contact between ropes were discussed in a quantitative and qualitative method fo...

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Bibliographic Details
Published in:Tribology international 2019-02, Vol.130, p.270-283
Main Authors: Chang, Xiang-dong, Peng, Yu-xing, Zhu, Zhen-cai, Zou, Sheng-yong, Gong, Xian-sheng, Xu, Chun-ming
Format: Article
Language:English
Subjects:
Bearing capacity
Bearings
Breaking
Capacity
Cranes & hoists
Elongation
Failure analysis
Fracture failure
Fracture surfaces
Fractures
Frictional wear
Mining industry
Occupational safety
Parameters
Scars
Service life
Sliding contact
Sliding friction
Tensile tests
Wear
Wear scar
Winding
Wire rope
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Summary:Surface wear is an inevitable damage of wire ropes used in winding hoist. It always reduces the service life of the wire rope and threatens the mine safety. The characteristics of the surface wear scar caused by sliding contact between ropes were discussed in a quantitative and qualitative method for this paper. A series of breaking tensile tests were carried out to investigate the effects of the wear characteristic parameters on the bearing capacity of the rope. Furthermore, the fracture failure behaviors of the rope with different wear scars were analyzed. Results show that the wear scar changes from distributing on one strand to evenly distributed on two adjacent strands as the sliding wear position changes from the strand peak to valley. When the wear region concentrates on one strand, the maximum wear depth increases from approximately 0.46 mm to approximately 0.64 mm with the increase of wear area. Broken wires seriously affect the elongation and breaking force of the rope. The maximum breaking force is approximately 42 KN and the maximum local elongation is approximately 1.5 mm under the condition of broken wires. Additionally, the external wires of the strand are easier to fracture caused by torsion and tension together. Furthermore, the shear lip and the fibre region on the fracture surface of the wires become not very obvious with the increase of the wear scar parameters. [Display omitted] •The distribution of the wear scar is different with the change of sliding wear position.•The wear depth and wear area affect variation of force-elongation curves at different degrees.•The effect of the wire breaking on the elongation and breaking force of ropes most obviously.•The fracture of the outer wires was caused by torsion and tension together.•The plastic deformation and bearing capacity of ropes decrease with wear parameters.
ISSN:0301-679X
1879-2464
DOI:10.1016/j.triboint.2018.09.023