Resolve Debate: Wire Rope End Loop & Crimp Forces

In summary, the tension along a wire should be constant, with exceptions near the top or when passing over an object. The forces on a join in the wire depend on the angle at which the ends join. A crimp will typically have less elasticity than the wire joined, resulting in an asymmetric shift towards elastic equilibrium.
  • #1
stevenevets
1
0
hello all
i was wandering if anyone can help resolve a debate a friend and i were having.
in the case of a wire rope end being looped and crimped then attatched to a weight are the forces on both sides of the loop equal if not what is the ratio and what forces is the crimp subject to?
any help much appreciated
 
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  • #2
Welcome to PF!

stevenevets said:
hello all
i was wandering if anyone can help resolve a debate a friend and i were having.
in the case of a wire rope end being looped and crimped then attatched to a weight are the forces on both sides of the loop equal if not what is the ratio and what forces is the crimp subject to?
any help much appreciated

Hi stevenevets ! Welcome to PF! :smile:

The tension along a wire should be constant, with the following exceptions:

if the wire is heavy enough, the tension near the top will be slightly greater, since the wire there has to support the weight of the wire below (which the wire below doesn't)

if the wire passes over an object which causes a friction force on the wire, then the tension will be different on either sides of the object.

I don't know what you mean by "crimp". :confused: But the forces on a join in the wire should depend on the angle at which the ends join. :smile:
 
  • #3
This is difficult because there are so many variations of "crimping", and of the wire types being crimped.

In general, though, a crimp will act under stress to have equal or usually less elasticity than the wire(or rope) joined. This is a default aspect, as otherwise the union would be insufficient under stress.

In your case, the assymetric nature of the elasticity will tend towards a shifting to elastic equllibrium starting FROM the nodal point of less elasticity.

Take your thought experiment and shift it from vertical to horizontal, and apply an equal expansion force. The crimped section does not move fully outwards, but rather a distorted expansion is noted.

During this event, the center of mass is not altered, but the object distorts, perhaps even shockingly, to preseve the center of mass.
 

FAQ: Resolve Debate: Wire Rope End Loop & Crimp Forces

What is a wire rope end loop?

A wire rope end loop is a method of creating a secure and durable end termination for a wire rope. It involves forming a loop at the end of the wire rope and securing it with a metal sleeve or clamp.

How is a wire rope end loop created?

A wire rope end loop is typically created by using a wire rope cutter to cut the rope to the desired length and then forming a loop at the end using a wire rope thimble to protect the rope from wear and damage. The loop is then secured with a metal sleeve or clamp using a crimping tool.

What are the benefits of using a wire rope end loop?

A wire rope end loop provides several benefits, including increased strength and durability, as well as preventing the rope from fraying or unraveling. It also allows for easy attachment to other components such as hooks or shackles.

What are crimp forces and why are they important in wire rope end loops?

Crimp forces refer to the amount of force applied to the metal sleeve or clamp when securing the wire rope end loop. This force is important because it determines the strength and reliability of the termination. If the crimp forces are too low, the loop may come apart, but if they are too high, it can cause damage to the wire rope.

How can I ensure proper crimp forces in a wire rope end loop?

To ensure proper crimp forces, it is important to use the correct size metal sleeve or clamp for the wire rope being used and to use a crimping tool specifically designed for wire rope end loops. It is also important to follow the manufacturer's instructions and recommended crimping force for the specific wire rope and sleeve/clamp being used.

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