Why PTFE Rotary Seals vs normal rubber?

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Why PTFE Rotary Seals vs Normal Rubber?

Whitepapers On Whiteboard

 

EXPERT LEVEL:

Beginner

LENGTH:

7:07

INSTRUCTOR:

Jason Huff

 


 


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VIDEO TRANSCRIPT

Today we’re going to talk about PTFE rotary seals.

PTFE is more commonly known in the industry as Teflon, but today we’re going to refer to it as PTFE because Teflon is the DuPont trade name. Reasons we would choose to use PTFE over your normal rubber elastomer style seal would be that we’ve exceeded the capabilities. Whether it be speed, pressure, temperature, and maybe the chemicals that it meets. PTFE is a very low friction material – so it’s able to operate at very high speeds.

It’s got a very broad temperature range. Virgin PTFE can handle ranges from -425 Fahrenheit up to 450 Fahrenheit and we can even shift that range a little higher depending on the fillers that we add to it. So, it can handle a wide range of temperatures and basically any fluid or chemical that you throw at it.

High Speed, Low Pressure Profile

For this one, we’ve got very lightly loaded and very flexible lips that are machined. They’re very lightly engaged, so we need a shaft that runs very true – no runout because PTFE is not a very resilient material. It needs some form of energizer in order to make sure that it remains in contact with the shaft.

So with this profile here, we’re going to be limited to about 50 psi, but we can run up to about 5,000 surface feet per minute for speeds. We have an excluder and then the main lip to retain the fluid.

Alterations

We can change that a little bit – we could do away with that lip and possibly add a redundant lip for fluid retention.

If we had additional pressure, we could reinforce this a little bit with a metal band – increasing the rigidity of it. We could increase the pressure rating of up to 150 psi.

If we did have a little bit of runout that we needed to handle we could modify this lip a little bit and include what we call an “elf toe”. And then we could add a small spring to help the lip maintain contact with the shaft. But still, the runout must be minimal. We’re talking about maybe 20 thousandths depending on the speed.


High Pressure, Low Speed Profile

If we shift gears and go over to this other style, we’re looking at high pressure but relatively low speed.

The pressure rating on this profile would be about 3,000 PSI and your surface speed is going to be limited to about 1,000 surface feet per minute.


Alterations

We’ve got quite a few different options as far as lip styles:

We can do a traditional scraper lip, which is good at scraping fluid and keeping contaminants out.


We could change the lips style to a taper and that’s going to be better for sealing and lower friction.


Several different spring options:

– I’ve got the cantilever or V Springs shown in there right now.

– Another option would be a canted coil if we wanted to reduce the lip loading a little bit.


And we’ve got several different options for the bore:

We could eliminate this o-ring and do a flanged design. This flange would get clamped in the hardware and ensures that the seal cannot rotate in the bore and allows you to increase your speed rating just a little bit.


If we needed to go higher than the 3,000 PSI for pressure, we could extend this heal a little bit. It makes it a lot more rigid, a lot more stable profile. So, in something like this, there would be an o-ring in there as well. This could bump our pressure rating up to close to 10,000 PSI.


So, we’ve got a wide range of possibilities with PTFE and we can tailor the fillers depending on the application conditions and the performance criteria needed. There’s a wide range of additives that we can put in the PTFE to tailor to the needs.

Applications

Wide range of applications that these seals can be used in:

  • A lot of times you’ll see them in gearboxes or motors
  • Pressure washers for when we’ve got high pressure
  • Rotary unions
  • Swivels
  • Compressors
  • The Virgin PTFE is FDA compliant. So it’s a good option for those types of applications.
  • Cryogenics due to the wide temperature range
  • Robotics

Another benefit of PTFE versus a rubber elastomer seal is that there’s no tooling required for these. These get machined out of a sleeve or billet of material. So prototyping and initial samples are very fast and inexpensive.

And that’s it for PTFE seals.

 


 

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