hoston23
Well-known member
my impact sockets get soo much abuse that when i need to use a torque wrench i know my chrome sockets wont have play.
Why buy non impact sockets?
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visionguru
Well-known member
There are many lower end impact sockets on the market that use the same CR-V steel, just thicker/bulkier.
I recently purchased a set of Snap-on Semi-deep impact socket set, intending to use for both impact and regular ratchets. I found that while they are useable, just not as easy to put on.
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Finky198
Well-known member
I have those and use them daily the older Pittsburghs in the steel cases. They are great sockets. I have Sunex ones as well. Our other box has Snap on, Sk impacts.
The HF and Snap on are much heavier and I think the extra mass works in your favor. Out of the four the Snap ons are the softest in my exp. all though it takes a long time to cause enough deformation to make it unusable...
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Gila Monster
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I have both, but I rarely use my chrome 1/2" sockets.
I definitely think if you're not a pro you can save some money and just own 1/2" impact sockets.
I definitely think if you're not a pro you can save some money and just own 1/2" impact sockets.
Can you elaborate on the need for 12-point sockets when HD torquing? I would have thought 6pt would be best in that situation?
Wamsutta
Well-known member
Not as easy to put on what? You got me curious.
FYI -
Impact is also **** for torque instruments because of the flex (not to mention play) messes with the correlation of torque measured by the handle and force put on the bolt. You don't want that kind of energy storage and dissipation between the measurement tool and the target bolt. The reason is that the torque tool is itself a spring, so adding more springs to the mix is generally a bad idea and not in the engineering.
Messing around with demolition jobs or rusty bolts of course you can use a pipe wrench and a hammer and it won't matter either. Just horse for courses.
Impact is also **** for torque instruments because of the flex (not to mention play) messes with the correlation of torque measured by the handle and force put on the bolt. You don't want that kind of energy storage and dissipation between the measurement tool and the target bolt. The reason is that the torque tool is itself a spring, so adding more springs to the mix is generally a bad idea and not in the engineering.
Messing around with demolition jobs or rusty bolts of course you can use a pipe wrench and a hammer and it won't matter either. Just horse for courses.
davethorik
Well-known member
Guessing on the ratchet/extension etc
*non tech* I have a set of Wright 1/2 shallow 6pt metric impact sockets and I use them exclusively with hand tools. The 19mm in particular I often use on my Mac 24" breaker bar to remove lug nuts with no issues. I probably would have gotten chrome 6pt but I found a screaming deal on the Wright impact set.
I'm also guilty of using chrome sockets on my M18 impact. I've only broken one, a Husky 9/16 deep 6pt that cracked on one of the points where the wall is thinnest. I guess I'm just backwards.
donpauli2
Well-known member
Side thought. Don't use chrome sockets on an impact gun. They may break and for sure the springiness reduces the force
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I'm having trouble following the logic. The impact socket is a slightly less stiff spring than the chrome socket, but why should it matter? Draw a free-body diagram of the socket and you'll see that the torque applied to the bolt is the same as the torque applied to the socket regardless of deflection.
Yes, with a weaker spring the torque wrench anvil will twist more relative to the bolt head, but the wrench is still reading the torque being passed through to the fastener. Of course this is assuming the correct technique of gradually applying the load.
earlthegoat2
Well-known member
Myself, for 1/2 drive, I only use impact sockets. With ratchets and impacts. Saves space in the box and have never regretted not having chrome 1/2 drives. I use chrome 3/8 for hand tools and impacts as well. Never broken one yet (cheap Craftsmans and Gewarwrenches too)....but I think the day will eventually come.....then I may consider 3/8 impacts. Not today though.
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M_George
Well-known member
Be realistic, How much torque are you planning on putting on 1/4 and 3/8 sockets anyway? That leaves them out of the argument. If I plan to put a lot of heavy torque on a bolt, I use 1/2 inch every time. The hits provided by an impact driver is between 200 and 1500 psi. That's why the steel has to be more elastic to receive the shock that will crack a CRV socket. Whereas the CRV will withstand the sustained torque a breaker bar with a cheater bar will create. The impact socket will stretch and loose hold of the bolt..
Al Borland
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As far as this goes, I only have a couple chrome Metric 1/2" drive sockets. I usually use impact sockets, Never worried about it. Most of my "Daily use" SAE 1/2" sockets are old industrial finish sockets or impacts. I've used them with breaker bars and cheater pipes for 30+ years and never broken them. A few of the older industrial sockets have drive damage from impacts, but so do some of the impacts.
Most of them are painted fluorescent orange so I can find them when I drop them out of a manlift or off a catwalk and they bounce off into "Narnia". (Not sure what/where/who "Narnia" is, but I learned on this site that is where falling sockets end up)
Most of them are painted fluorescent orange so I can find them when I drop them out of a manlift or off a catwalk and they bounce off into "Narnia". (Not sure what/where/who "Narnia" is, but I learned on this site that is where falling sockets end up)
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Don't believe me or my example, it might be confusing in context. Instead, do this: look at an aerospace-style torque adapter. Then compare it to a combination wrench, and ask why its so overbuilt. Its overbuilt so it doesn't flex and is reliable when used with a calbrated device. The torque wrench is a calibrated spring, and introduced non-calibrated spring in between the other moving pieces is common sensically going to create some issues.
Wakefield
Well-known member
You would have a very hard time breaking my Bonney.
Wakefield
Well-known member
He must be using 12 point fasteners?
crf450x
Well-known member
Flex is irrelevant concerning torque wrenches. It's like the common myth that you can't use an extension with a torque wrench. You can use a mile of extensions if you want and, while it will flex a lot, the torque applied/measured will be exactly the same.
maintguy
Well-known member
Fender1325
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Black oxide would get lost so quickly working under a car or in an engine bay
Mr.Nutcase
Well-known member
chrome sockets are thinner and gives more access to components.
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You sir, are a nutcase.
finn
Well-known member
Don't you agree that this thread doesn't reflect well on our education system?
WittHay
Well-known member
Head bolts on a lot of diesels are 12-point, also main cap bolts. There are 12-point impact sockets but i just prefer chrome sockets for the final torquing
My reasoning for chrome sockets when torquing is that chrome has a tighter fit on the fastener, so when your pulling on the torque wrench with 2 hands the socket stays level. The last machine i did had 120 bolts that had to be torqued to 150 ft.lbs.
Pictures of broken Proto impact sockets, using a breaker bar and cheater pipe.
My reasoning for chrome sockets when torquing is that chrome has a tighter fit on the fastener, so when your pulling on the torque wrench with 2 hands the socket stays level. The last machine i did had 120 bolts that had to be torqued to 150 ft.lbs.
Pictures of broken Proto impact sockets, using a breaker bar and cheater pipe.
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Using socket with a cheater bar is silly and dangerous and could scratch or leave a wear mark on your shiny polished artifacts. Just leave them in their expensive tool chest so there ready and looking their best for the next forum pic. If you need auto work done pay a pro to it properly.
The torque wrench is a calibrated spring between the handle and the drive anvil. I'm still failing to see why it matters if there's a spring between the anvil and the fastener. The wrench must read the torque that's applied to the fastener. There's no way the torque at the anvil can be different than the torque at the fastener with just a spring in between.Don't believe me or my example, it might be confusing in context. Instead, do this: look at an aerospace-style torque adapter. Then compare it to a combination wrench, and ask why its so overbuilt. Its overbuilt so it doesn't flex and is reliable when used with a calbrated device. The torque wrench is a calibrated spring, and introduced non-calibrated spring in between the other moving pieces is common sensically going to create some issues.
Think of a spring-style force gauge, with a spring between the housing and the hook and a scale to measure the deflection of the spring. If I loop a second unknown spring onto the hook and then apply the load, there will certainly be more deflection but the gauge will still read the correct force. It's a simple statics problem.
Your concerns about stored energy aren't relevant until the loading becomes dynamic, which would be improper technique. Maybe these aerospace adapters are designed to minimize the error due to operators improperly bouncing on their torque wrenches? Or maybe the folks who designed them are also misconstruing the problem.
If there's some technical explanation for what you're trying to explain, by all means, get technical.
This is patently false by observation. I won't argue theory, just experience. But its common knowledge that torque is lost quite readily with extensions, adapters, wobble-sockets and the like. Its also common knowledge that the rotational mass/inertia of the impact socket itself can be modfied to deliver more 'torque' (impact force) to the fastener, despite the measured torque of the anvil not changing...
These are empirical datapoints which point to the same forces at play.
see for example...
So they make 1/2 drive extensions with 3/8 drive squares....eg
https://www.amazon.com/dp/B00061SNGQ/?tag=atomicindus08-20
https://store.snapon.com/Adaptors-E...l-drive-x-3-8-External-drive-36--P631537.aspx
Inertial delivery sockets for Honda crank bolts
http://www.coptool.com/ingersoll-rand-to-add-50-impact-torque-with-powersockets/
https://store.snapon.com/PARTS-Socket-Metric-Crank-Bolt-17mm-P857206.aspx
...read the reviews and they seem to be happy throwing money at the various vendors...
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T45 - You are still in the world of dynamic impact loading, which is entirely irrelevant to the manual torque wrenches we're talking about. I'm not arguing that extra springs and clearance fits reduce the peak torque that makes it to a fastener from an impact wrench. There's good supporting theory and empirical evidence there.
That has nothing to do with your original assertion that using an impact socket on a torque wrench causes some inaccuracy. As far as I can tell, there's no theory to support that idea.
Edit: on re-read I'm realizing that your original post only says "torque instruments" which could mean torque sticks meant for impact use. If that's the case we may have been talking past each other this whole time. Would you agree that in the case of a manual torque wrench, it does not matter at all whether the socket is chrome or impact?
That has nothing to do with your original assertion that using an impact socket on a torque wrench causes some inaccuracy. As far as I can tell, there's no theory to support that idea.
Edit: on re-read I'm realizing that your original post only says "torque instruments" which could mean torque sticks meant for impact use. If that's the case we may have been talking past each other this whole time. Would you agree that in the case of a manual torque wrench, it does not matter at all whether the socket is chrome or impact?
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bcradio
Well-known member
This thread literally requires one response... why is it 4 pages long?
finn
Well-known member
77thor
Well-known member
Because opinions are like AZZholes... Everybody has one(and they like to share).
I was about to reply and argue with you, citing the energy it takes to load the spring, and then I thought about it a little more and realized you are right.
Here's a different way to think about it. Imagine a spring hung from the hook of a scale, with the scale zeroed, and we hang a 1lb weight from the spring. The spring will deflect, but nobody would think that the scale would read anything other than 1lb.
In this example it's gravity applying the force, rather than your arm, but the principle is the same; the spring makes no difference in the amount of force transmitted to the scale.
You guys are talking about this in an impact thread, it's fairly irrelevant.
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The original assertion was that impact sockets should not be used on "torque instruments" because of some vague issue with spring constants and energy dissipation. I interpreted torque instruments to mean manual torque wrenches. With an impact socket on a properly-used manual torque wrench, there's no impact in sight except in the name of the socket. The discussion is very much relevant.
Ok got it. I was fixated on the part that said no difference in torque no matter what extension you have and it took a minute to realize the topic had changed to static torque measurement rather than the use of an impact wrench.
Jazz1
Well-known member
^ this here. I have split impact sockets with a cheater bar. I knew better but just had to see proof
