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HOW-TO: 3.5L EcoBoost PTU Build Thread

Started by Ecoboost_xsport, July 12, 2020, 10:20:57 PM

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Ecoboost_xsport

So, this is my attempt at doing what little we can to improve the PTU with what is currently available.  I'd also like to make it a resource for those of you looking for detailed photos of the latest version of our PTUs (which has the cooler).  I've completely torn down the PTU, and sourced all brand-new seals for it.  I will keep the photos at max resolution so apologies for their size, but some may find it helpful.

In this photo, looks like the vehicle is beginning to experience some of those dreaded PTU failure symptoms.  Last time I was underneath the truck, I saw quite a bit of oil covering the body of the PTU, and soaking the portion of the exhaust that sits underneath it.  It hasn't failed, in that I don't have any drive-ability issues yet, but it is coming I'm sure.  I will say, that I have NOT been proactive with changing of the fluid.  Not because I'm lazy but because I was not aware of the PTU issues until very recently.  Call it my ignorance on it, but regardless, I'm glad I caught it when I did.  It's a 2015 with just a hair over 30K miles on it.  I don't drive it much, believe it or not, this is pretty much my dedicated project car.



Anyway, being the consummate prepper that I am, and wanting to keep downtime to a minimum, I went and purchased a brand new one before I am even taking the old one out.

Ford Part Number: DG1Z-7251-F

My punch list for things I want to accomplish with this:

       
  • Change drain plug to bottom of case in order to ensure complete drainage of fluid when performing oil changes.

       
  • Extend hose from vent to top of engine bay to facilitate future oil changes and fills.

       
  • Send all gears and cast components to receive WPC treatment (WPC Treatment).

       
  • Send all gears, cast components, bearings and case to receive cryogenic treatment (Nitrofreeze).

       
  • If possible, research possible higher quality bearings to replace existing ones.

       
  • Apply gold metallic radiant heat reflection material to outside of case.














Now I want to say, I truly believe if you have an older SHO/Flex/XSport that doesn't have this cooler, you COULD make this version with the cooler work.  It would take some effort, but I am certain it could be accomplished.  You'd have to buy the hose:

Ford Part Number: BB5Z-8A519-G



Then run your lines through an aftermarket pump and heat exchanger of some sort.  It would be a pretty trick setup if done right.

And for those of you wanting to do just that and get REALLY fancy by using the included temperature probe to wire up to the pump or some sort of temp gauge, I think I did some of the legwork for you on giving you some data on the output of that probe and how it correlates to temperature. I figured since I have it off and I have the tools to do this, I'd pass this onto you guys.  What I did was use two of my Fluke meters, using one that has temp reading capability with a probe end right next to the actual probe itself, and use the other meter to read the resistance output of the probe at various temperatures.  I created those various temps using ice water then boiled water.  Dipping the end of the probe into the liquids and taking temp recordings at various intervals.  Here is a simple spreadsheet showing the results.  This may help those interested in the scaling of this particular temp sending unit:



As I disassembled it, here is what the cooler actually looks like.  It isn't very complex, I wonder if there is any way to improve it:







So, before I started complete disassembly, I ordered a replacement for every single seal, gasket or one-time-use part as I wasn't sure how much I would destroy trying to take them apart.  Below is a list of all the Ford Part Numbers you will need as far as seals or seal kits go:


       
  • 7T4Z-7086-A (Qty: 1)

       
  • 7E5Z-7H469-C (Qty: 2)

       
  • DB5Z-7275-E (Qty: 1)

       
  • GB5Z-7275-A (Qty: 1)

       
  • 7T4Z-7R284-A (Qty: 1)
This does NOT include replacement of the cooler medium.  The edges of it are rubber, but it was in good shape and I couldn't find the part number anyway.

Here's a bag of all the old seals after being removed.  The stuff in this bag will be thrown away, but not until it's all done, LOL:



When you take it apart, make sure you have some sort of catch for the oil that will come out, as it comes filled from Ford.  I have a large oil drip cookie sheet that I was working on.  Worked great!  BTW, I forgot how much I hate the smell of gear oil...

When you finally get it apart, you will find it somewhat difficult to remove the gears from the side of the case.  In order to remove them, you will have to basically destroy the white end seal/plastic cover that is pressed onto the end of one of the gears.  Make sure you get a new one, but once you do, don't be afraid to just break it, it's hard plastic.  Once it is off, the gears will all come out one after the other.





I just used an air impact to remove the nut off the end of the pinion gear.  That nut will be replaced and is included in the new parts kits.  Be advised, many of the seals will have to be destroyed when removing them.

I decided to remove all the seals as I wasn't sure if my disassembly would damage them at all and, more importantly, they may not survive the cryo process.  So, when I send all the parts to cryo, they will be disassembled bare metal.













As for the bearings.  My goal is to try and source some higher quality ones, if they exist.  I imagine Ford made some specifications for bearings they needed, then sent out the contract for the lowest bidder to meet those specs.  Most of the bearings are Iljin, whom I've never heard of, but looks to be a Korean company.  I've found some in-depth documentation on some of their bearings but so far, nothing about the ones within the PTU specifically.  I'm hoping to find some equivalent or better versions via Timkin or Torrington, maybe some SKFs.  I removed as many of the bearings as I could:



The only one I cannot remove was the one behind the pinion gear head.  It sits in a recessed pocket and no puller can get behind it without destroying the bearing cage.  Even though I will begin the process of looking for better grade bearings, I didn't want to risk destroying this one as it may end up being a unicorn bearing and not easily sourced/replaced.

ASSISTANCE FROM FORUM MEMBERS: If anybody has an old PTU that they replaced laying around and can take it apart and either send me the pinion gear with the bearing on it or feels like removing it (even if it's destroyed) and tell me what the part number is, I can better research it.  For some reason, of all the bearings in this PTU, the parts numbers are not showing on the visible end.  I think they are on the backside.



ASSISTANCE FROM FORUM MEMBERS: Although I have some good resources for locating bearings, I am always open to "crowd-sourcing" this task.  If any of you guys have a good bearing "guy", here are some of the bearing numbers:













Anyway, here are all the parts I'll be sending to WPC:



I spoke with one of their reps regarding having parts with bearings still pressed onto shafts.  Their response was, although they recommend removal of all roller/ball bearings, they CAN still apply the WPC treatment, but it is absolutely imperative that a very extensive and thorough cleaning job be accomplished on the bearing prior to installation.  They do ultrasonic cleaning, so it should be pretty good, but I also have a high-quality industrial grade parts washer I will put all the parts through as well once they come back.

The cryo treatment will be performed after the WPC treatment and I will include every metal component I can for that one.  It will be sent over un-assembled except I will re-press all the bearings back onto their respective location.  I use a bearing heater prior to pressing them on (it gets pretty damn hot) and don't want that to cancel out any gain provided by the cryo treatment in doing so.  I will do final assembly and seal installation after it all comes back home. There is no case gasket but looks like they used something similar to Yamabond, which I've used successfully to seal Harley Davidson Twin Cam cases.  It should work fine in this instance as well. Then fill it with some Amsoil Severe Gear Oil:



And finally, the piece-de-resistance, the reflective material.



My heart tells me this is snake oil, but my brain tells me that the logic behind it is sound.  I figured, what the hell, what harm can it do.  It really only works to reflect radiant heat, so not sure how effective it is in the real world, especially where I will be putting it.  Anyway, just doing every small thing possible to keep this thing cool, which is really the true killer of this thing.

I know it's been said that regular oil changes can keep this thing alive, but figured I'd try a few additional steps.

So, right now, I'm getting ready to pack the parts up for the WPC treatment.  As I proceed with the PTU build, I'll post updates...

Thanks!

UPDATE 01: Internals back from WPC.  Now to press the bearings back on and off to cryo...



UPDATE 02: I know the idea of using a small reservoir was being thrown around and that gave me an idea.  I had this thing laying around and it was originally going to be used for my meth tank to be filled remotely.  I got it from ProMeth.  I've since gone to a different meth tank and never used this but it looks perfect for what will be done:



I am also about to extend that vent hose, but...PLOT TWIST...will NOT be connecting it to the reservoir.  I'm just going to extend it up higher, just to be higher, LOL.  But what I WILL be doing is....drilling for another hose fitting.  After reading about how long it can take to get the fluid down the vent hose.  I figured the air is just fighting you, but if there was another line..it would be WAY easier.  Not only that, but the hose fitting at the bottom of that reservoir allows for a slightly larger hose to be used.  I'm going with 1/2" on it.  with a 1/2" hose barb fitting.

This photo shows me mocking up where it will go, but that isn't the actual fitting I will use, the actual one will be smaller and  stainless...



See...plenty of room inside the PTU for it:


Anyway, should facilitate fluid changes more easy.  I'll update when I get closer.

To Be Continued...

Ecoboost_xsport

Now I want to say, I truly believe if you have an older SHO/Flex/XSport that doesn't have this cooler, you COULD make this version with the cooler work.  It would take some effort, but I am certain it could be accomplished.  You'd have to buy the hose:

Ford Part Number: BB5Z-8A519-G



Then run your lines through an aftermarket pump and heat exchanger of some sort.  It would be a pretty trick setup if done right.

And for those of you wanting to do just that and get REALLY fancy by using the included temperature probe to wire up to the pump or some sort of temp gauge, I think I did some of the legwork for you on giving you some data on the output of that probe and how it correlates to temperature.  The following photos are for the hardcore nerds out there.  I figured since I have it off and I have the tools to do this, I'd pass this onto you guys.  What I did was use two of my Fluke meters, using one that has temp reading capability with a probe end right next to the actual probe itself, and use the other meter to read the resistance output of the probe at various temperatures.  I created those various temps using ice water then boiled water.  Dipping the ends of each probe into the liquids and taking temp recordings at various intervals. If anyone is interested in compiling a data set and chart this thing, feel free.   I haven't gotten to it yet.  I have no idea if this data is useful, but even so, here ya go:








Ecoboost_xsport


Ecoboost_xsport





As I disassembled it, here is what the cooler actually looks like.  It isn't very complex, I wonder if there is any way to improve it:







So, before I started complete disassembly, I ordered a replacement for every single seal, gasket or one-time-use part as I wasn't sure how much I would destroy trying to take them apart.  Below is a list of all the Ford Part Numbers you will need as far as seals or seal kits go:


  • 7T4Z-7086-A (Qty: 1)

  • 7E5Z-7H469-C (Qty: 2)

  • DB5Z-7275-E (Qty: 1)

  • GB5Z-7275-A (Qty: 1)

  • 7T4Z-7R284-A (Qty: 1)
This does NOT include replacement of the cooler medium.  The edges of it are rubber, but it was in good shape and I couldn't find the part number anyway.

Here's a bag of all the old seals after being removed.  The stuff in this bag will be thrown away, but not until it's all done, LOL:



When you take it apart, make sure you have some sort of catch for the oil that will come out, as it comes filled from Ford.  I have a large oil drip cookie sheet that I was working on.  Worked great!  BTW, I forgot how much I hate the smell of gear oil...

When you finally get it apart, you will find it somewhat difficult to remove the gears from the side of the case.  In order to remove them, you will have to basically destroy the white end seal/plastic cover that is pressed onto the end of one of the gears.  Make sure you get a new one, but once you do, don't be afraid to just break it, it's hard plastic.  Once it is off, the gears will all come out one after the other.





I just used an air impact to remove the nut off the end of the pinion gear.  That nut will be replaced and is included in the new parts kits.  Be advised, many of the seals will have to be destroyed when removing them.

I decided to remove all the seals as I wasn't sure if my disassembly would damage them at all and, more importantly, they may not survive the cryo process.  So, when I send all the parts to cryo, they will be disassembled bare metal.













As for the bearings.  My goal is to try and source some higher quality ones, if they exist.  I imagine Ford made some specifications for bearings they needed, then sent out the contract for the lowest bidder to meet those specs.  Most of the bearings are Iljin, whom I've never heard of, but looks to be a Korean company.  I've found some in-depth documentation on some of their bearings but so far, nothing about the ones within the PTU specifically.  I'm hoping to find some equivalent or better versions via Timkin or Torrington, maybe some SKFs.  I removed as many of the bearings as I could:



The only one I cannot remove was the one behind the pinion gear head.  It sits in a recessed pocket and no puller can get behind it without destroying the bearing cage.  Even though I will begin the process of looking for better grade bearings, I didn't want to risk destroying this one as it may end up being a unicorn bearing and not easily sourced/replaced.

ASSISTANCE FROM FORUM MEMBERS: If anybody has an old PTU that they replaced laying around and can take it apart and either send me the pinion gear with the bearing on it or feels like removing it (even if it's destroyed) and tell me what the part number is, I can better research it.  For some reason, of all the bearings in this PTU, the parts numbers are not showing on the visible end.  I think they are on the backside.


Ecoboost_xsport

ASSISTANCE FROM FORUM MEMBERS: Although I have some good resources for locating bearings, I am always open to "crowd-sourcing" this task.  If any of you guys have a good bearing "guy", here are some of the bearing numbers:













Anyway, here are all the parts I'll be sending to WPC:



I spoke with one of their reps regarding having parts with bearings still pressed onto shafts.  Their response was, although they recommend removal of all roller/ball bearings, they CAN still apply the WPC treatment, but it is absolutely imperative that a very extensive and thorough cleaning job be accomplished on the bearing prior to installation.  They do ultrasonic cleaning, so it should be pretty good, but I also have a high-quality industrial grade parts washer I will put all the parts through as well once they come back.

The cryo treatment will be performed after the WPC treatment and I will include every metal component I can for that one.  It will be sent over un-assembled except I will re-press all the bearings back onto their respective location.  I use a bearing heater prior to pressing them on (it gets pretty damn hot) and don't want that to cancel out any gain provided by the cryo treatment in doing so.  I will do final assembly and seal installation after it all comes back home. There is no case gasket but looks like they used something similar to Yamabond, which I've used successfully to seal Harley Davidson Twin Cam cases.  It should work fine in this instance as well. Then fill it with some Amsoil Severe Gear Oil:



And finally, the piece-de-resistance, the reflective material.



My heart tells me this is snake oil, but my brain tells me that the logic behind it is sound.  I figured, what the hell, what harm can it do.  It really only works to reflect radiant heat, so not sure how effective it is in the real world, especially where I will be putting it.  Anyway, just doing every small thing possible to keep this thing cool, which is really the true killer of this thing.

I know it's been said that regular oil changes can keep this thing alive, but figured I'd try a few additional steps.

So, right now, I'm getting ready to pack the parts up for the WPC treatment.  As I proceed with the PTU build, I'll post updates...

Thanks!

Ecoboost_xsport

Internals back from WPC.  Now to press the bearings back on and off to cryo...