Great video that addresses an important topic. I just wanted to mention, however, that the elongation of the bolt is essentially the strain. The tension is the force which causes this strain.
I think a more simple way to think of it is bolt stretch and clamping force. The thing is they are related, but their relationship can change. When a bolt is yielding, it changes their relationship. The bolt can keep stretching while the clamping force actually decreases. You can feel this if you have ever tried torquing damaged/yielded wheel studs. They won't tighten to spec, they will keep turning until eventually the stud breaks.
Back in the early days, I would regularly hear that certain competitors bolts were better quality than mine. Then a smart man cane along and taught me this. Never lost a deal after on perceived quality
My 2000 F-250 manual advises me thusly: On all two-piece flat wheel nuts, apply one drop of motor oil between the flat washer and the nut. Do not apply motor oil to the wheel nut threads or the wheel stud threads and... On vehicles equipped with single rear wheels, retighten the lug nuts to the specified torque at 800 km (500 miles) after any wheel disturbance (tire rotation, changing a flat tire, wheel removal, etc.).
I bought tires at TireRack at the South Bend, Indiana location. After they installed them I had to sign a form stating I'd retorque them after 50 miles. Same thing.
i think you'd just be helping it to reach the amount of stretch/preload a fastener of that material and size was rated for. i'd be inclined to say that even if you compared two new bolts, one lubed and one not - you'd reach a higher preload on the lubed one for the same torque. of course if they are torque to yield bolts then its a different story
Also wouldn't the quality of the steel used to make the bolt make a difference? Wouldn't a bolt made of steel with lower strength steel stretch over time lessening the tension?
My car is 32 years old and I'm more than twice that, so I meet long time lubrication problems, often at the lug bolts. I'm not in socal any more, but soggy eastern NY where they use salt on the roads in the winter. My lug bolts effectively seize up (only partially, thank God) due to the threads being freed of all lubrication by repeated washings of water, especially at the bolt "cone" juncture with the countersunk holes in the alloy rim. The steel and the alloy do their best at trying to become one with each other at their joining surfaces over the time of one year or more. The "mechanics" with their air impact weapons can't or won't take the time to assure that the bolts are brushed clean of foreign material, which adds to the problem. To get to the point, when I detect that there is a problem with the lug bolts at a wheel, I clean off the threads (at least on the bolt) and apply a thin amount of Permatex anti-seize compound (the dreaded "gray stuff" feared by mechanics everywhere) to both the threads and the "cone." The metal particles do a better job of remaining over time than would just plain oil or grease. Then, I tighten by using a lug wrench and I can feel (judging by the size of the bolt thread [in my case 12 mm]) when I am tightening by elastically stretching the bolt, and not plastically deforming it towards breakage. I have never had lug bolts loosen, and the anti-seize compound is much better than risking a broken bolt when removing a wheel.
When torqueing we can only rely on the manufactures specs for minimum and maximum lb.-ft. and keep the indicated value between them. However, this value does not indicate tension but rather the combined amount of both tension and overcoming friction. So I wonder when using a lubricant on the nuts which reduces friction, is the indicated lb.-ft. on the torque wrench still within the min/max or exceeding the max. Perhaps it's moot but I've seen a lot of lug nuts with studs still in them laying in the street.
When talking about wheel studs/nuts, I never hear about replacing studs on any regular basis. Don't Wheel studs stretch over time? Would that cause breakage with the same torque applied?? I'm still learning
If you lubricate a bolt then you reduce the required torque for a set pre-tension, however, you also greatly increase the chances to break the bolt or the clamped parts. VDI2230 standard advises correct torque calculation and provides achievable pre-tension ranges for bolted joints. Never lubricate a bolt without understanding tension/compression capacities of the joint.
Also depends on your lubricant, motor oil is alot different than greese but both lubricants. I use oil sometimes, greese be very careful, may torque to a minimum load then use angular torque like with a stretch head bolt. Good thinking.
This is one of those. "I didn't know the building was loose" kinda of conversations you say to lawyers in court. This is not common knowledge and could easily be overlooked to end in catastrophe.
The lower the coefficient of thread friction the bigger the chance of that bolt coming loose. The thread lubrication of carbon steel coated fasteners is normally not necessary. After a prolonged service interval however, a PTFE lubricant can be used to reduce the friction coefficient.
Yes, when using a lubricant this effects torque specs! When I was very green, an old school mechanic told me to be careful of this! Happened to be my big Brother Eddie. Keep this in mind when torquing your bolts. What you do about it is up to you, your in control. Under God.
buenas tardes, tengo una duda; si tengo un tornillo de 1 1/4 A490 para un tension de 116000 lb aproximadamente y necesita aproximadamente como minimo unas 3900 lb para que quede torqueado el perno; pero en la pistla solo esta hasta 2200 libras; como hago para que me llegue a las 2900 lb necesarias ?
Por favor, en ingles: "Good afternoon, I have a question; If I have a 1 1/4 A490 screw for a tension of approximately 116000 lb and it needs approximately at least 3900 lb for the bolt to be torqued; but the pistol is only up to 2200 pounds; How do I get the 2900 lb needed?"
@@appliedbolting He asked: "Good afternoon, I have a question; If I have a 1 1/4 A490 screw for a tension of approximately 116000 lb and it needs approximately at least 3900 lb for the bolt to be torqued; but the pistol is only up to 2200 pounds; How do I get the 2900 lb needed?"
I'm not expecting an answer on a 13 year old video, but I'll try anyways. Will a lubed bolt assembly not have a greater chance of sliding out after a while and lose tension since the threads are lubed?
In Automotive and aviation I am familiar with some fasteners are required to have a specific lube and torque to achieve the required tension. Follow the manual. For example an aircraft engine assembly manual specifies all fasteners be lubed with engine oil unless shown otherwise. Proper clamping force can keep fasteners from becoming loose. I have not seen properly lubed and torqued fasteners "back off". There are some situations where cotter pins or safety wire are used as well.
Can you please go back and lube a brand new fastener out of the keg and test again??? The amount of rust on the bolt is subjective isn't it? Thus if one applies lube to a brand new fastener or one with very little rust, will it result in an over torque and over load of the bolt? This is likely. If a joint design calls for a specified lube and it is applied consistently - no problem. But the vast majority of joints/fasteners are designed for no lube. If one applies lube - it could overload the shank of the stud or bolt. Certainly there are no drawings calling out the acceptable amount of rust on a fastener!
According to Bob Shaw, if a bolt survives tensioning, it'll be fit for service in the joint because once you let off the gun, the strain on the bolt decreases by a lot.
So your saying the bolt has 14,000 lbs of over-tension. WOW! Too much tension and Too much torque are the #1 cause of joint failures. How is 53,000 lbs or tension acceptable when only 39,000 lbs are required?
you could have a reduction of bolt cross section with strain due to poisson contraction but if it's a friction connection it's fine unless it's a really long bolt (say >10xdia.) which could then become loose after relaxation
Too much tension and too much torque are the #1 cause of joint failures? Where can one find the information you used to base this statement on? I disagree with what you. I believe it is to little tension which is the #1 cause of critical bolted joint assemblies.
@@jimbob7218 I think both too little and too much torque can result in joint failures. For too little, shearing may occur. In any case, check this YT video and see if that helps. It was insightful for me. th-cam.com/video/g_CdH3RJc04/w-d-xo.html
@@jimbob7218 it's A.S.M.E. code and all bolting courses teach this. It's even in John Bickfords 1000 page bolting books. Overtightening and stretching the threaded bolt past its elongation will cause broken bolts.
Thank you for this. Interesting how much tension is lost in rust between nut and washer and threads.
Insightfull video.. I learned why the difference between dry and wet torque can be so great. Thank you
Great video that addresses an important topic. I just wanted to mention, however, that the elongation of the bolt is essentially the strain. The tension is the force which causes this strain.
I think a more simple way to think of it is bolt stretch and clamping force. The thing is they are related, but their relationship can change. When a bolt is yielding, it changes their relationship. The bolt can keep stretching while the clamping force actually decreases. You can feel this if you have ever tried torquing damaged/yielded wheel studs. They won't tighten to spec, they will keep turning until eventually the stud breaks.
Excellent video!!
Yeah, I commented on this video three years ago, but apparently I needed to relearn what it has to say!
Outstanding video!
SUPER vid simple strait forward well-spoken and I learned something! thank you subscribed!
Back in the early days, I would regularly hear that certain competitors bolts were better quality than mine. Then a smart man cane along and taught me this. Never lost a deal after on perceived quality
traps looking good bro. Keep up the hard gym work.
Excellent! We definitely owe you a beer!!!
Yes please!
What a great video. So the message here is to triple the torque setting that the bolt requires. No?
i feel so special, i made the wingscrews holding the tester to the beam n my dad made the guard around the dial
Excellent work =)
Awesome information. Thank you.
My 2000 F-250 manual advises me thusly:
On all two-piece flat wheel nuts, apply one drop of motor oil between the flat washer and the nut.
Do not apply motor oil to the wheel nut threads or the wheel stud threads
and...
On vehicles equipped with single rear wheels, retighten the lug nuts to
the specified torque at 800 km (500 miles) after any wheel disturbance
(tire rotation, changing a flat tire, wheel removal, etc.).
I bought tires at TireRack at the South Bend, Indiana location. After they installed them I had to sign a form stating I'd retorque them after 50 miles. Same thing.
Something that was not mentioned is that too much or the wrong lube on a bolt and nut will also give false torque \ tension
HI - what is the lubricant stick used in the video (Brand and type)
Looks like Hougen Slick Stick
i think you'd just be helping it to reach the amount of stretch/preload a fastener of that material and size was rated for. i'd be inclined to say that even if you compared two new bolts, one lubed and one not - you'd reach a higher preload on the lubed one for the same torque. of course if they are torque to yield bolts then its a different story
GREAT VIDEO!!!!!! Thank you very much!
Thanks
I’ve often wondered why torque values weren’t given for lubricated bolts rather than “clean and dry” which almost never exists in the field.
The moral of the story: Do not expect proper tension when using rusted bolts.
Rob: Excellent explanation.
Please set a good example by wearing safety glasses in all your videos.
What could possibly go wrong?
I also suggest a minimum of one vaccine booster just to be sure.
Also wouldn't the quality of the steel used to make the bolt make a difference? Wouldn't a bolt made of steel with lower strength steel stretch over time lessening the tension?
My car is 32 years old and I'm more than twice that, so I meet long time lubrication problems, often at the lug bolts. I'm not in socal any more, but soggy eastern NY where they use salt on the roads in the winter.
My lug bolts effectively seize up (only partially, thank God) due to the threads being freed of all lubrication by repeated washings of water, especially at the bolt "cone" juncture with the countersunk holes in the alloy rim. The steel and the alloy do their best at trying to become one with each other at their joining surfaces over the time of one year or more.
The "mechanics" with their air impact weapons can't or won't take the time to assure that the bolts are brushed clean of foreign material, which adds to the problem.
To get to the point, when I detect that there is a problem with the lug bolts at a wheel, I clean off the threads (at least on the bolt) and apply a thin amount of Permatex anti-seize compound (the dreaded "gray stuff" feared by mechanics everywhere) to both the threads and the "cone." The metal particles do a better job of remaining over time than would just plain oil or grease.
Then, I tighten by using a lug wrench and I can feel (judging by the size of the bolt thread [in my case 12 mm]) when I am tightening by elastically stretching the bolt, and not plastically deforming it towards breakage.
I have never had lug bolts loosen, and the anti-seize compound is much better than risking a broken bolt when removing a wheel.
When torqueing we can only rely on the manufactures specs for minimum and maximum lb.-ft. and keep the indicated value between them. However, this value does not indicate tension but rather the combined amount of both tension and overcoming friction. So I wonder when using a lubricant on the nuts which reduces friction, is the indicated lb.-ft. on the torque wrench still within the min/max or exceeding the max. Perhaps it's moot but I've seen a lot of lug nuts with studs still in them laying in the street.
When talking about wheel studs/nuts, I never hear about replacing studs on any regular basis. Don't
Wheel studs stretch over time?
Would that cause breakage with the same torque applied??
I'm still learning
If you lubricate a bolt then you reduce the required torque for a set pre-tension, however, you also greatly increase the chances to break the bolt or the clamped parts. VDI2230 standard advises correct torque calculation and provides achievable pre-tension ranges for bolted joints. Never lubricate a bolt without understanding tension/compression capacities of the joint.
You are 100% correct! Lubing a fastener and joint that is designed for a dry torque will result in axial and/or torsional overload.
Also depends on your lubricant, motor oil is alot different than greese but both lubricants. I use oil sometimes, greese be very careful, may torque to a minimum load then use angular torque like with a stretch head bolt.
Good thinking.
Great video!
This is one of those. "I didn't know the building was loose" kinda of conversations you say to lawyers in court. This is not common knowledge and could easily be overlooked to end in catastrophe.
At 4:17 Actually, more than tripled.
Excellent video.
But, what is the direct disadvantage of over-lubricating the bolt? Thanks
The lower the coefficient of thread friction the bigger the chance of that bolt coming loose. The thread lubrication of carbon steel coated fasteners is normally not necessary. After a prolonged service interval however, a PTFE lubricant can be used to reduce the friction coefficient.
@Semper Fi I agree.
Buenas noches que marca y modelo es la pistola de torque?
Great info man. Thank you.
Ive read that when using anti seize, to multiply the recommended torque spec by 0.8, or 80%. What say you??
Yes, when using a lubricant this effects torque specs! When I was very green, an old school mechanic told me to be careful of this! Happened to be my big Brother Eddie. Keep this in mind when torquing your bolts. What you do about it is up to you, your in control.
Under God.
great video brother thank you for sharing. Gracias.
more videos!!!!! love it
Buenísimo, gracias.
Where are your safety glasses and ear plugs?!? 😂
dude looks and sounds like Taylor Hall
great videos, how much torque or load we need using 5/8-11 bolt and single Belleville washer, How do you test deflection in Belleville washer.
We don't use Belleville washers in structural steel, so I don't have answer for you. My apologies.
buenas tardes, tengo una duda; si tengo un tornillo de 1 1/4 A490 para un tension de 116000 lb aproximadamente y necesita aproximadamente como minimo unas 3900 lb para que quede torqueado el perno; pero en la pistla solo esta hasta 2200 libras; como hago para que me llegue a las 2900 lb necesarias ?
I'm sorry we didn't respond. Please contact us via our website.
Por favor, en ingles: "Good afternoon, I have a question; If I have a 1 1/4 A490 screw for a tension of approximately 116000 lb and it needs approximately at least 3900 lb for the bolt to be torqued; but the pistol is only up to 2200 pounds; How do I get the 2900 lb needed?"
@@appliedbolting He asked: "Good afternoon, I have a question; If I have a 1 1/4 A490 screw for a tension of approximately 116000 lb and it needs approximately at least 3900 lb for the bolt to be torqued; but the pistol is only up to 2200 pounds; How do I get the 2900 lb needed?"
great video, thanks alot
Thank you.
Very well explained. Class
Great Video, Where can I get the Non Impact Wrench? Do you have any specifications? Thanks
+Maynor Cascante Kopper Devo-Tools dot ch
The Enerpac PTW and ETW Torqueing tools
HYTORC LION gun and Lithium Gun are awesome tools. The Lithium Gun will go up to 3,000 ft-lbs.
Best video of TH-cam
I'm not expecting an answer on a 13 year old video, but I'll try anyways.
Will a lubed bolt assembly not have a greater chance of sliding out after a while and lose tension since the threads are lubed?
still hoping for an answer 🙏
In Automotive and aviation I am familiar with some fasteners are required to have a specific lube and torque to achieve the required tension. Follow the manual. For example an aircraft engine assembly manual specifies all fasteners be lubed with engine oil unless shown otherwise. Proper clamping force can keep fasteners from becoming loose. I have not seen properly lubed and torqued fasteners "back off". There are some situations where cotter pins or safety wire are used as well.
good video , if you use more washers.would that makes it stronger?
Never knew..
I dont work on structures. But this still applies to smaller assemblies.
Very true!!
So much talk about loads around that banner proclaiming that 1,750,000 squirters were filled
Thank you. So, does an S1 or CWI have to go up at great heights to perform daily duties? Or do they perform these tests on the ground?
Pre-installation verification is typically done on the ground. Your inspection will be at great heights
I go up to look at the connections to ensure they have drawn the steel together by proper sequence of tensioning, and other reasons.
very interesting thanks
Very informative thank you
Glad it was helpful!
Waoo.. 👍🏼👌🏼
Great!😀
Possibly one of the last videos with knowledge...
Can you please go back and lube a brand new fastener out of the keg and test again??? The amount of rust on the bolt is subjective isn't it? Thus if one applies lube to a brand new fastener or one with very little rust, will it result in an over torque and over load of the bolt? This is likely. If a joint design calls for a specified lube and it is applied consistently - no problem. But the vast majority of joints/fasteners are designed for no lube. If one applies lube - it could overload the shank of the stud or bolt. Certainly there are no drawings calling out the acceptable amount of rust on a fastener!
JP - We'd be happy to speak with you about your concerns. Please give us a call.
precisely. When a torque is specified, you don’t know what conditions are assumed. By lubing it you risk to overload it…
According to Bob Shaw, if a bolt survives tensioning, it'll be fit for service in the joint because once you let off the gun, the strain on the bolt decreases by a lot.
👍
So your saying the bolt has 14,000 lbs of over-tension. WOW! Too much tension and Too much torque are the #1 cause of joint failures. How is 53,000 lbs or tension acceptable when only 39,000 lbs are required?
I was just going to say the same thing
you could have a reduction of bolt cross section with strain due to poisson contraction but if it's a friction connection it's fine unless it's a really long bolt (say >10xdia.) which could then become loose after relaxation
Too much tension and too much torque are the #1 cause of joint failures? Where can one find the information you used to base this statement on?
I disagree with what you. I believe it is to little tension which is the #1 cause of critical bolted joint assemblies.
@@jimbob7218 I think both too little and too much torque can result in joint failures. For too little, shearing may occur. In any case, check this YT video and see if that helps. It was insightful for me.
th-cam.com/video/g_CdH3RJc04/w-d-xo.html
@@jimbob7218 it's A.S.M.E. code and all bolting courses teach this. It's even in John Bickfords 1000 page bolting books. Overtightening and stretching the threaded bolt past its elongation will cause broken bolts.
damn cuz , eyebrows on fleek. smh
You'd be better off just flat up tensioning them honestly.