How much time does it take to make a shear link?
There are three flavors of Shear Link: Towline, Ribbon Bridle, and Bridle Link.
The Towline Shear Link I would recommend ONLY for the front end of an aero towline - where it doesn't get dragged. If you're gonna drag a weak link use a Tost.
The Ribbon (two point) Bridle is a nightmare. Takes a VERY LONG day to do ONE and you're half blind when you're finished. It's not the critical ends that are the problem but hand stitching three or four ten foot elements together without distortion. They're not practical and I'll never do another one.
I like the way I set Zack up with hollow braid spliced its entire length for uniform stiffness and - I'm predicting - virtual elimination of wrap potential. Appropriate string loop weak link at the top and sailmaker's thimble engaging appropriate Bridle Link at the bottom.
The Bridle Link is relatively easy. It's essentially a Towline Shear Link but folded in half so it can take twice what it could loaded end to end (like the Towline Shear Link) - which means you only have to do half as many of the critical and tedious Strength Stitches. And the Strength Stitching is split into port and starboard runs so they're not compromised by contact with the thimble or tow ring.
How much time...
One or two of them is a pain. But when you set up a production line - measure, cut, fuse the leechline Base elements; have needle, threader, floss, color coding thread and heatshrink ready to go - I dunno... Maybe three or four an hour?
What is the normal life span of a shear link (unprotected vs. protected)?
Forever. Don't leave them baking in the sun 'cause the Strength Stitching is nylon but other than that...
I've bench tested these things by cranking them up to maybe five percent shy of predicted breaking strength a couple of times and backing off and had them blow right on target.
And, just as it's a good idea for everybody to fly with a parachute even though the chances of a non aerobatic dude ever needing one are microscopic... Tow pilots NEVER get NEAR the point at which they NEED a weak link - assuming they're using half decent release (which they don't). I've never heard of an aerotow pilot with a finger on the trigger who couldn't beat even a loop of 130 pound Greenspot when the shit hit the fan.
And, also just like a parachute, if you NEED one under a couple hundred feet you're gonna die anyway.
But idiots like Marc Fink...
http://ozreport.com/forum/viewtopic.php?t=24846
Is this a joke ?
Marc Fink - 2011/08/31 08:11:05 UTC
I was actually in the process of reaching for the release and just about to pull it...
The point of all this being that you're NEVER gonna get anywhere NEAR the point of stressing a one and a half G weak link in any case.
You have them at 35 lbs. increments, why that number?
Dental floss is WONDERFUL for hand stitching hang gliding stuff - including the barrel releases I've been making for a long time. About five years ago I figured that it would be a REAL GOOD idea for me to determine what the stitching would hold so I wouldn't hafta go too nuts with massive overkill to keep things from blowing out of sequence.
First I tried the determine the breaking strength of the floss itself and think I got something around eight pounds. So I was figuring eight pounds per stitch - but was suspicious 'cause there's always the issue of how the ends are being held to screw things up.
Then I realized that that was stupid anyway - I wanted to know the strength of the actual stitching so I should be testing the ACTUAL STITCHING.
So I did a few runs of various numbers and noticed that I was getting REAL LINEAR results. LIGHTBULB!!!
Before I went into production I realized I needed to set some standards that anyone could duplicate. I went to a sailmaker's supply shop and got some standard Dacron thread sizes but the predictability sucked - I'm guessing because the elastic and parallel fiber nylon floss equalizes and seats better. So that was my choice.
I get about 17-18 pounds pounds per stitch and on a bridle end or as a bridle that's roughly doubled. And that's plenty fine enough an increment - it's not a narrow target you're shooting for. 1.3 to 2.0 Gs - as long as you don't overload the release.
How could shear links be mass produced?
It's somewhat tedious hand stitching. I don't think there's a great way around that. But one per pilot is all you need - although I encourage people to have a spare (like I do). One person could flood the market in a few weeks of the winter.
What other questions should I be asking?
If you're curious... How we got into this bullshit mess to begin with. The history is fascinating - reads like everything the US did to give the Japanese a free pass on the morning of 1941/12/07.
As always thanks for your time.
As always thanks for your questions.
