There was a subthread ( https://www.diyaudio.com/forums/pass-labs/215392-amp-camp-amp-aca-1041.html#post6712705 ) about how much torque it is. It’s not nothing but neither brute-force … for those not having that specialized drehmomentschlüssel 🙂🙂🙂
1 N.m = 10.197162129779 kgf.cm
Promise I won't tell anybody if you do 1 N.m = 10 kgf.cm 🙂
My "small" torque wrench starts at 2.2 N.m, so I'm over torqueing too, and have never broken any transistor so far.
PS.: for those without a torque wrench, ZM's trick of using a spring washer works well: that thing closes at 1.5 N.m.
Promise I won't tell anybody if you do 1 N.m = 10 kgf.cm 🙂
My "small" torque wrench starts at 2.2 N.m, so I'm over torqueing too, and have never broken any transistor so far.
PS.: for those without a torque wrench, ZM's trick of using a spring washer works well: that thing closes at 1.5 N.m.
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Yea, your right.. Sorry my bad..Of course it is Newton..
Getting old.. lol
Thanks for bringing it on...
1 kg-m = 9.81 N-m
N-m is Newton - meter, a measure of force, in this case torque.
Nano meter is 1/1 000 000 000 of a meter....a measure of distance.
N-m is Newton - meter, a measure of force, in this case torque.
Nano meter is 1/1 000 000 000 of a meter....a measure of distance.
I use drill for tapping.
Torque limited and it's much easier to keep perpendicular than wobbling about with a hand wrench.
I tap a lot of brass which produces a discontinuous chip so no unwinding unless the tap is full of swarf as when tapping deep holes.
I also produce brass threaded bar, 300mm lengths, holding the bar in the chuck & die holder in the vice.
Torque limited and it's much easier to keep perpendicular than wobbling about with a hand wrench.
I tap a lot of brass which produces a discontinuous chip so no unwinding unless the tap is full of swarf as when tapping deep holes.
I also produce brass threaded bar, 300mm lengths, holding the bar in the chuck & die holder in the vice.
As a machinist I can attest that you can use a drill for tapping without backing off. Backing off was important in days gone by and before the advent of self reversing tapping head and modern tap and drill geometry. The critical thing is to drill the correct size hole for the tap and if it's not taking a huge amount of torque then drill a tad oversize. With a good metric drill set it's easy as you can go up in .1mm. Use tapping oil especially in stainless and aluminium. Brass not so important. Keep the tap square to the job. Better still use a drill press.
I should add a word of caution though. This thread started as threading sheet material not blind holes or holes in thick materials. One needs to be a bit more careful doing that.
Regards Johnno
I should add a word of caution though. This thread started as threading sheet material not blind holes or holes in thick materials. One needs to be a bit more careful doing that.
Regards Johnno
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That’s actually way more precise than measuring the torque applied through the turning of a threaded fastener, only about 10% of that force actually makes it to the clamping force…
N is force, Nm is torque (which more properly would be measured in J/rad, but no-one does). Energy is also force times distance, but only if the vectors are parallel (not at right angles as for torque).
In vector notation is easy, its just the difference between dot- and cross- products:
E = r . F
T = r x F
