Thanks for the reply Chris3,

I am not super concerned about the mass properties as it is a tiny fraction of the mass of the whole assembly.  An idea I had was to use a bulk part titled Lock Wire so that I get the smart BOM correct.

Then I wondered if I could make a generic looking lock wire sketch using a custom symbol with a variable length (can't remember if you can do that). Then I'd use the symbol in the drawing to represent the lock wire for all the different components that might require different lengths of lockwire.  The downside is there is no visual clue on the assembly what the lock wire connects to and what orientation it should be installed in.

Chris3,

When you say collapse the geometry when I am done I assume you mean create a shrink wrap ?

Another thought I had on how to do it would be to use just an extruded cylinder between the two parts being lock wired.  Then you could project a skin onto the surface such as a graphic of lock wire.

I'm not familiar with all the appearance options in Creo because we don't have much need for anything other than solid colors and transparent surfaces.  In a home project it was something I managed to do in Sketchup when designing my house and it was easy and low use of resource.

Steve

No, I personally dislike shrinkwraps. There are much better options available.

I was suggesting something along the line of what others have suggested. Make a datum curve, sweep a solid feature through it. At that point if you don't want the feature to regenerate you can use the collapse functionality to make it into a dummy solid. This is sort of equivalent to making it a step file except that the surface IDs are retained.

To collapse the geometry its Model Tab -> Editing Group -> Drop down arrow -> Collapse

As I mentioned before this makes it into a step like dummy solid that can't be edited except with the flexible modeling tools.

Something like this.  You could also leave out the sweep and only show the final curve.

Here is an improved version in 4.0 with predefined flexibility.

What I ended up doing was just creating a single part made from 2 features.  A trajectory curve and a sweep.  It's just straight.  I used the trajpar function to create the twist.  

Because they are straight and it is very difficult to assembly I'm planning just to embed them into the nuts (not necessarily through the holes).  They will remain packaged parts in the assembly and will be positioned approximately with the drag handles on the amble component command.

When assembled it is made flexible so that the length can be varied as needed.  I made a relation to relate the number of twists to the length so no matter what flex length someone chooses it will still look the same.

I might evolve it to something more sophisticated  that has elevation changes and curves and an easy way to assemble without being packaged.  It get's exponentially more complicated the more features you add.

We use bulk parts a lot for things like threadlockers, paint, adhesives, etc. It's a fine solution for things you don't see but that are required for the assembly. If there are a number of bulk items used for all the time for different projects, like a "toolkit" of sorts, I've even made a family table of bulk items that serve as the kit and can be copied over to any new project.

The difficulty with things like lock wire and such is you often want to depict what the configuration of the wire is supposed to be (winding direction, where the wire must lie in its installed state, etc.) This can be helpful to the installer as a reference.

Using bulk parts also entails being careful about keeping the quantities correct. If your design changes and now you need double the number of items, the bulk item will not "automatically" update its quantity to reflect the design change like an actual assembled component would. You've got to do some "old school" type bookkeeping.