Teflon-steel friction coefficients

Click For Summary
SUMMARY

The dynamic friction coefficient between steel and Teflon can vary significantly based on contact stress and the presence of lubricants. For Teflon-X interactions, a typical assumption is a coefficient of 0.04 for both static (μs) and kinetic (μk) friction. However, the dynamic friction coefficient can range from 0.4 at low contact stress (approximately 20 psi) to 0.02 at high contact stress (approximately 1000 psi). Accurate values depend on specific conditions, and testing under actual circumstances is recommended for precise applications.

PREREQUISITES
  • Understanding of friction coefficients and their significance in material interactions
  • Familiarity with contact stress concepts and measurement techniques
  • Knowledge of lubricants and their effects on friction
  • Experience with multibody simulation software for modeling friction effects
NEXT STEPS
  • Research the effects of contact stress on Teflon friction coefficients
  • Learn about the role of additives like molydisulfide in friction reduction
  • Investigate methods for testing friction coefficients in real-world applications
  • Explore multibody simulation techniques for modeling Teflon interactions with various surfaces
USEFUL FOR

Mechanical engineers, materials scientists, and anyone involved in the design and simulation of systems utilizing Teflon and steel interactions will benefit from this discussion.

serbring
Messages
267
Reaction score
2
Hi guys,

I need the dynamic friction coefficient between steel and teflon. Do you know where I can get it?

Thanks
 
Engineering news on Phys.org
Take these with a grain of salt (ie, YOU double check their sources to make sure they're correct before just using the values).


http://www.engineeringtoolbox.com/friction-coefficients-d_778.html"
and
http://hypertextbook.com/facts/2004/GarvinTam.shtml"

It looks like you can reasonably assume 0.04 for both \mu_{s} and \mu_{k} for most teflon-X interactions.
 
Last edited by a moderator:
AIR&SPACE said:
Take these with a grain of salt (ie, YOU double check their sources to make sure they're correct before just using the values).


http://www.engineeringtoolbox.com/friction-coefficients-d_778.html"
and
http://hypertextbook.com/facts/2004/GarvinTam.shtml"

It looks like you can reasonably assume 0.04 for both \mu_{s} and \mu_{k} for most teflon-X interactions.

Thanks but I haven't found in your links the dynamic friction coefficient of teflon-X interactions.
 
Last edited by a moderator:
Hi sebring. The coefficient of friction is a function of contact stress, lubricants, and the type of additives and reinforcement fibers. Additives include things like molydisulfide which is a commonly used dry lubricant. Dynamic friction coefficient can vary from about 0.4 if contact stress is low (aprox. 20 psi or less) to about 0.02 for high contact stress (aprox. 1000 psi or more). That's obviously a very wide range so if it's important, you really need to test it given the actual conditions you will have.
 
serbring said:
Thanks but I haven't found in your links the dynamic friction coefficient of teflon-X interactions.

Just so I'm clear, my notation of "teflon-X" is supposed to mean teflon-(some other surface).

With this in mind, it should be pretty easy to find the coefficients. Let me know if you still have trouble.
 
AIR&SPACE said:
Just so I'm clear, my notation of "teflon-X" is supposed to mean teflon-(some other surface).

With this in mind, it should be pretty easy to find the coefficients. Let me know if you still have trouble.

I have understood this, but I haven't found that data, please may you show me where you get this in your links?

thanks
 
Q_Goest said:
Hi sebring. The coefficient of friction is a function of contact stress, lubricants, and the type of additives and reinforcement fibers. Additives include things like molydisulfide which is a commonly used dry lubricant. Dynamic friction coefficient can vary from about 0.4 if contact stress is low (aprox. 20 psi or less) to about 0.02 for high contact stress (aprox. 1000 psi or more). That's obviously a very wide range so if it's important, you really need to test it given the actual conditions you will have.


I need to simulate it in a multibody software, so I can take into account some special effects in a formula. In my case no lubrificants are used and unfortunately I have no data about the teflon type, I know just roller dimensions.
However I have found a report about stainless steel-teflon friction and I couldn't imagine it has a so wide range: from 0.05 to 0.2 :(
Do you have some data or formulas you think it could be useful for me
 
serbring said:
I have understood this, but I haven't found that data, please may you show me where you get this in your links?

thanks

Check attachments
 

Attachments

  • Capture.jpg
    Capture.jpg
    32.7 KB · Views: 1,336
  • Capture2.jpg
    Capture2.jpg
    35.3 KB · Views: 1,443
AIR&SPACE said:
Check attachments

Oh thanks, but in the second link there are just static friction in dried contact and in greased contact, instead in the other one there is just friction for teflon-different kind of teflon :(

however thanks a lot
 

Similar threads

Fastened joint - Preload scatter - Bossard calculator
  • · Replies 1 ·
Replies
1
Views
2K
Reducing friction at interface between a sphere and a plane?
  • · Replies 15 ·
Replies
15
Views
3K
Lubrication in fasteners and loss of preload
  • · Replies 18 ·
Replies
18
Views
2K
I have a hydrodynamic loss head question
  • · Replies 6 ·
Replies
6
Views
1K
What Are the Best Low-Friction Bearings for Precision Positioning Mechanisms?
  • · Replies 30 ·
2
Replies
30
Views
6K
How to calculate this torque? (steel ball in a spiral tube)
  • · Replies 104 ·
4
Replies
104
Views
12K
Damping and friction in syringe equation of motion
  • · Replies 4 ·
Replies
4
Views
2K
Pull-off force: hose, pipe, clamp
  • · Replies 5 ·
Replies
5
Views
1K
Are Aluminum Non-Stick Baking Sheets Better Than Teflon?
  • · Replies 1 ·
Replies
1
Views
1K
Kinetic friction coefficient of aluminum on lubricated cast iron
  • · Replies 2 ·
Replies
2
Views
2K