If you using a toque wrench like the one shown in unclesyd's post, then yes, the torque will change with a different "head" length.
In my earlier response I was thinking of this type, a torque limiting screwdriver...
If you haven't changed the adjustment (locked by a setscrew maybe?) then I would think that the torque at which the wrench will "click" will not change.
In other words, it's still calibrated.
Any way you can do a quick check which of course is not the same as a calibration?
This is similar to Brinell hardness testing or Rockwell B. I would look into the theory behind these tests for guidance on how you can calculate this.
Is the ball material tungsten carbide? It probably should be.
Look into how the gas spring manufacturers do it. Suspa, Stabilus, IGS. They're dealing with high (>2kpsi) pressures.
I've heard (from a manager, not an engineer) that they crimp right on the end of the tube for some important reason that I can't remember.
Tom
sreid, I was surprised to hear you got that much damping from the eddy current device. Thanks for the info.
I looked into the magnet track from Parker/Trilogy. It's pretty neat that you can buy long lengths or modular. However, the tracks are expensive. A 48" long pc is $2500-$2700 (210...
First, an eddy current damper (the "magnetic damping") can be useful but is not appropriate here. This frictionless damping will be too low unless you use huge neodymium magnets with thick copper or aluminum plates.
Second, a rack driving a rotary damper is a great idea. I think you won't...
It seems like your are looking for snap fit design help.
Compliant mechanisms are really another category where the intention of the design is to provide defined repeatable motion with flexures.
I own the first edition of this book for snap fits and it is pretty good...
Drew,
How about a Hollow Lock Socket Set Screw? Screw it in to a tapped hole. Secure with Loctite 680.
This will give you the socket running all the way through.
McMaster-Carr sells them.
Tom
We use Loctite 680 for production threadlocking with good success.
Just because your test showed that a prototype cured without primer doesn't mean you don't need primer. We learned the hard way. We originally tested some sample stainless-to-stainless parts and had good bonding. However in...
rb1957,
Yes ASSIST is very good (and free) for MIL specs, but what about ANSI, ASTM or other non-governmental specs? I don't think they're available thru ASSIST.
Tom
I found zekeman’s idea to try to satisfy all the criteria of the question including the 1 second launch time to be very interesting. I think he also got the correct answer of a lever ratio of 260, but there were problems. The differential equation he used is wrong which you can tell by setting...
tg,
Spring rate of one spring = 0.5 lb/in * (12 in/ft) = 6 lb/ft. The 0.5 lb/in was from the original post.
Also, the total 144 lb/ft in my last post was a typo. It was corrected lower in the analysis as 114 lb/ft.
jistre,
Interesting idea to look at an impulse analysis.
However, the average force of one spring is 1.25 lb, not 2.5 lb.
F(av)=(5*0.5)/2 = 1.25 lb
Following your argument with this change,
I = F(av) * Delta t = 1.25lbf * 1 sec = 1.25 lbf-sec.
The change in velocity of the balloon...
