• NAXJA is having its 18th annual March Membership Drive!!!
    Everyone who joins or renews during March will be entered into a drawing!
    More Information - Join/Renew
  • Welcome to the new NAXJA Forum! If your password does not work, please use "Forgot your password?" link on the log-in page. Please feel free to reach out to [email protected] if we can provide any assistance.

Gratuitous Lack Of Moderation - A little stroker build

cal

NAXJA Forum User
NAXJA Member
Location
Hammertown, USA
Well, since Project Unicorn blew the engine some time back, I've been considering what to do for a replacement.

I talked about it with Mr. Russ Pottenger, and he kindly took the blown engine from 4643 apart and found that a surprising amount of it would be reusable, and figured we could probably knock a stroker together without even getting into 4 digit dollars. I liked that idea, so we set out figuring the details and getting parts on ordered.

Somewhere something went terribly askew. I've forked the build thread off here so we can document the build of "GLOM - The strokerator". Because I refuse to own anything called the "unicorn stroker". ;)
 
Cool, looking forward to the thread. I need to call Russ and talk to him about an engine or 2. Have one I need to reassemble into a stock class baja racer and the other for my badly knocking DD.
 
I'm going to go slow here and may cheat with my moderator powers to come back and correct the technical stuff here on this thread as Russ straitens me out, but we've decided to try and drop some details here.

Started off with a 99-04 NVH block.

20190105_091447-me.jpg


Russ punched it out to .060 over and chopped the top off of the deck, and set me to washing it.

Started off with a large assortment of brushes.

20190105_095204-me.jpg


Lots of scrubbing the outside.

20190105_094548-me.jpg


Lots of scrubbing the inside.

20190105_094602-me.jpg



And into every oil passage.

20190105_095643-me.jpg


20190105_095823-me.jpg


20190105_100115-me.jpg


And a good hot water rinse.

20190105_100729-me.jpg


I didn't take any pictures, but after this I wiped every machine surface down with Marvel Mystery Oil to prevent flash rust, and then painted it.

20190105_114151-me.jpg


And then I got criticized for not painting the back red. I don't know why red, but it got done. ;)

20190105_114931-me.jpg
 
And then into the shop for some work.

Cam bearings.

20190105_132909-me.jpg


20190105_132954-me.jpg


20190105_133036-me.jpg


20190105_132812-me.jpg


Russ marks the bearings with an "up" line so the oil hole stays lined up.

20190105_133107-me.jpg



Even though he carefully aligned them, he went back and checked to make sure the holes passed through correctly for every oil hole.

20190106_110157-me.jpg
 
Next Russ started prepping the rods and pistons.


Russ has his own rods made. They are forged steel H beam chromoly and bushed for floating wrist pins.


20190105_152714-me.jpg


The caps are doweled for additional strength.

20190105_152719-me.jpg


Next to a stock rod you'll notice they are far more substantial, and you will also notice there are no balancing pads - so they clear the girdle in a late model block without grinding. I managed to not get a picture of it, but they also have ARP bolts.

20190105_152850-me.jpg


So he installs the bearings, torques the bolts. He measures the corresponding rod journal on the crank, and zero's his dial bore indicator to that exact size, and then uses it to check the rod bearing clearance on a per rod basis.

20190105_155415-me.jpg


20190105_155716-me.jpg


This rod has roughly 2.5 thousands bearing clearance.

20190105_155723-me.jpg


Number the rod (and cap) so you are sure to put it in the right place later, and then also label which side points forward.

20190105_170430-me.jpg


20190105_170445-me.jpg
 
Last edited:
Russ also has his own pistons made. In fact I think a bunch of you are familiar with his pistons.

But you aren't familiar with *these* pistons. ;)

Edelbrock a couple of years ago released a new aluminium head for the 4.0. They missed a lot of opportunities as far as upgrades goes, but the one thing they got right was reengineering the combustion chamber instead of re-using the same AMC chamber from 1941 (1941! jeep used it until 2006). The combustion chamber is a bit smaller both in CC (55) and overall footprint, giving you a better quench zone.

Russ had new custom pistons made to take advantage of that.

20190105_165140-me.jpg


You'll notice unlike any other 4.0 piston (at least that I have seen) to date, these are not all the same. They are asymmetric to match the intake/exhaust orientation of their cylinder. They are forged high silica aluminum (4041? he told me and i don't remember the exact compound). He feels its the best compromise between strength and user friendliness. My particular pistons are a 3.935 bore, 1.385 compressed height and a 14cc dish.

20190105_165145-me.jpg



Compare to his standard iron head pistons.

20190105_165252-me.jpg


And to really show what we mean.

20190105_165419-me.jpg



Back to building.

Once we establish which pistons belong to which holes, we need to label 'forward' so we don't put them on backward.

20190105_170419-me.jpg


Toss the rod in the rod vice, slide the piston on, slide the pin in, drop in 2 C clips, and then re-mark 'forward'.

20190105_172901-me.jpg



20190105_172903-me.jpg
 
Last edited:
Once the pistons are hung, its time to toss the crank bearings in, and torque the caps down.

20190106_094659-me.jpg


Measure each main journal.

20190106_094730-me.jpg


Zero out the bore indicator.

20190106_094814-me.jpg


20190106_094817-me.jpg


20190106_094839-me.jpg


Measure the corresponding bearing.

20190106_095036-me.jpg


And repeat the entire process over and over again, removing caps as we go.

20190106_095710-me.jpg
 
Back to the pistons, its time to install new moly rings.

Russ made a point of going in and filing the ends of every ring back just a little to make sure they aren't going to scratch the cylinder wall.

20190106_102543-me.jpg


20190106_102524-me.jpg


He installs the rings not only with the gap 180* out from each other, but also makes a point to put them on the sides of the piston, where there is no cylinder wear from the skirts and its not a thrust wall.

20190106_104406-me.jpg
 
Russ keeps an old cam around just for testing cam bearing installs. Once the bearings are in, he slides his cam in and spins it to make sure there is no binding and it has the anticipated amount of drag.

20190106_110435-me.jpg


Apparently its pretty common in the graybeard builder crowds to actually grind all of the lobes off of a cam to keep around just for this job, but he feels its unnecessary.
 
And now onto the crank. Drop the crank in, with the first, last, and thrust bearing, and spin to to check for drag and make sure there is proper fore/aft movement in the thrust bearing.

20190106_121057-me.jpg


No gauge for this one, he does it by feel, with a screwdriver he apparently only uses for this job.

20190106_121349-me.jpg


20190106_121354-me.jpg


When I asked about the spec, "it just needs to move a little". It does just move a little.
 
Now to liberally lube up all of the rod bearings (everything else got lubed up, but usually I was doing it so i didn't stop to take photos).

20190106_122635-me.jpg


20190106_122640-me.jpg


One last marvel mystery oil of the cylinder walls before dropping the pistons in.

20190106_123049-me.jpg


Piston into the ring compressor.

20190106_123249-me.jpg


20190106_123324-me.jpg


Making sure the compressor is seated and square

20190106_123348-me.jpg

20190106_123349-me.jpg


And gently tap it home.

20190106_123353-me.jpg


20190106_123405-me.jpg


Now doing number 6 since they run in sync.

20190106_123537-me.jpg


You'll notice that the rods had no studs, so there was no reason to cover them with a sleeve or hose.
 
Roll it over and install the caps. Remember they are numbered and have forward marked, so its pretty easy to not fail here.

20190106_123639-me.jpg


Nice bolts. Lubed, like everything else.

20190106_123848-me.jpg


One of the bearings moved a little. Russ just pushed it back in place with a screwdriver.

20190106_123720-me.jpg


20190106_123731-me.jpg
 
Pistons are a little out of the hole. We'll get to do some math on that shortly.

20190106_124219-me.jpg


Russ taps the pistons on all 4 corners to square it up in the bore (I was shocked how much they move).

20190106_130554-me.jpg


And then measures how far out of the hole it is at all 4 corners, and marks them.

20190106_124952-me.jpg


20190106_131534-me.jpg


They average about 12.5 thousands above deck.
 
Next Russ dropped the oil pump on there. We went with a high volume Melling.

In my application we don't need to clearance the pump, but for most oil pans you do have to, so he did it to document it in this thread.

20190106_133940-me.jpg


20190106_133957-me.jpg


This mark is where you hit the pan. Clearancing involves sanding the corner of the pump and pounding the baffle in the pan with a balpean until the pump clears.

20190106_134135-me.jpg


20190106_134143-me.jpg


45 seconds on the belt sander.

20190106_134630-me.jpg


Russ wanted me to point out that there is a machine ledge on the surface the oil pump mounts to. On most blocks there is miles of clearance, but every now and then the aftermarket pumps do hit the ledge and do not sit flush, in which case you need to grind the block a little bit.

You can see the ledge here. Loads of clearance.

20190106_150025-me.jpg
 
While we're talking about grinding.

On Renix blocks, the Russ Rods get really close to a boss cast in the block for the knock sensor. On some blocks you do have to grind the back of that boss.

This isn't a renix block, and we have miles of clearance, but you can see it here.

20190106_150115-me.jpg


We did have to clearance it on the stroker for Dallas's MJ that we built last month.
 
It's so pretty.

20190106_153605-me.jpg


But we're going to talk about it at a later date. The cam for this motor is not back from being nitrided and Russ happens to be out of valve guide seals for the Edelbrock head, which are not the same as the standard 4.0.


So that's as far as we got. For those of you keeping score, that was ~11-13 hours of build time (2 days), and we started with all machined parts. Russ is super meticulous about assembly, which is why his lead time is so long.

But if you happen to be waiting for a motor, it's probably right here, in a mountain of machined blocks awaiting assembly.

20190105_105810-me.jpg


And here's a retirement funds worth of cylinder heads. All ported and polished, and waiting for you to buy them. ;)

20190105_112708-me.jpg
 
Last edited:
Something interesting I see here. I know there is a good reason for doing it but I just so not know the reason.

There is a diagonal grove across the camshaft bearings, Why is that?

I have rebuilt dozens of engines as a marine mechanic,... Fords, Chryslers and mostly GM's and I never seen that.

It is good to see Russ is almost :anon: as meticulous as I used to be when rebuilding an automotive 350 block to change it from 260 +/- HP to 500 + hp to do amateur boat race.

Post up some dyno numbers. Reading this sends shivers down my spine with anticipation and excitement. Beautiful job!! :yelclap:
 
Back
Top