Tech Tip: Triumph Exhaust Spigot Repair
Last week I had the opportunity to save an old Triumph cylinder head which was destined for the “junk” parts shelf
The cylinder in need of repair was a 1967-1974 Triumph 500 Daytona (T100R) head which has the “Hemi” style combustion chambers
Exhaust port #1 had damaged and worn threads beyond repair
Making an oversized spigot was quickly ruled out…
I had no choice but to bore the threads and tap to a larger diameter
If you would like to see how I tackled this job, please follow along
Let’s dive in…
Preparation (3 steps)
#1 Cylinder head
Preparation and checking over the cylinder head is vital to understand what type of work needs to be done and how it should be executed
This 500 cylinder head was pretty “crusty” but with a quick dusting in my blast cabinet I had the head looking decent
I run a file on the head gasket surface and exhaust spigot surface to remove any burs or “high spots” that would cause issues when the head is bolted to my angle plate
Measuring the major thread diameter, I find that this cylinder head has a bore of 1 1/2”, however the major diameter of the threads are 1.440” which is correct for an 1 1/2” x 16 TPI hole
Visually looking at the exhaust thread quality, I figured I would bore the hole to the next nominal oversize which would be 1 9/16”
The correct hole size for a 1 9/16” x 16 tap is 1.501” - this means I do not have much material to remove and very little room for error
Since I figured out my game plan, I decided to roll with what I have
#2 Mill set up
Before I set-up my angle plate I took the time to clean the milling table
I removed any burs by stoning the table and then finishing off with quick level check
My angle plate just got it back from Blanchard grinding so this will be a good time to check how straight and true the plate is
With the angle plate on the milling table I use my Mituoyo test indicator to ensure the plate is Pharrell with the table and also check that the plate is running “straight” - both areas of the plate is within .001” which is more than enough
Now that the plate is ready to go, it’s time to bolt the head onto the plate
#3 Head set up
With the head bolted to the angle plate (loosely) the goal is to make sure that the exhaust spigot surface is running level with the table or perpendicular with the spindle
I can do this in 2 different ways - first using a spirit level and matching the angle of the head to mimic the table or use a known ground plate or parallel with an indicator to find “0”
For this cylinder head I decided to do both
I first sat my spirit level on the exhaust spigot surface and used my mallet to get the head level
After I set my ground parallel down over the spigot surface I then measured using my indicator the work area using an indicator
I was approx .005” off - tapping the head and focusing on a 1 1/2” diameter I got the head running true
Next up is to find the center of the existing hole
I decided to take a new spigot off the shelf and thread it as far as I could down the existing hole
The reason I indicated off the spigot is due to the wear of the threads
If I decided to indicate off the major diameter of the threads, it would have given me a false "center"
Once the spigot was installed I used my Blake co-ax indicator to find the center of the hole
Now I was ready to start boring..
Boring
Using my APT boring head and a new micro100 carbide boring bar I began to remove material .005” at a time to monitor the quality of the cut and to check if our prep work (leveling and centering) was paying off.. which it was!
Each pass I would bore to the bottom face inside the cylinder head
I get as close as I can to the bottom face each pass but not touching the shoulder, it is only on the final pass I manually feed the boring bar down to clean up the bottom inside face
The reason for manual feed is because I have more control and can visually see how much material I’m removing
I want to be able to clean the bottom face up without removing any unnecessary material and making the exhaust port “deeper”
Cleaning the shoulder the face up allows the shoulder to be concentric with the threads… this helps when I make the new spigot to ensure we have a good contact area
I use a telescopic snap gauge to measure the fresh bores hole and I get 1.500” which is .001” off to what I need to be - that is acceptable
I changed out my tooling and installed a chamfering tool I modified from an older carbide boring bar and added a nice deep chamfer at the top
A deep chamfer and the top will allow the tap to locate itself and makes it easier on the tool to start cutting
Thread tapping
Now that the hole is ready I begin to tap the threads using my “new to me” tap
I add some cutting thread oil and tap the hole until the tap bottoms out
Once done I remove the tap to clean and inspect all threads for defects or burs
Spigot prep
Now that the threads are complete in the head it’s time to finish up the job and focus on making a custom, oversized exhaust pipe spigot
I took a look at my stock pile and found a solid chunk of 4140 round stock (2” OD) that we can use
Usually I have hollow tube on hand but have since ran out (waiting for an order due the following week)
Measurements
Now that we have our stock selected we must take some measurements of our cylinder head which will help us when making the spigot
We need to obtain the bore depth using a depth micrometer
This spec will ensure that our spigot will fully seat inside the cylinder head - if done right, the threads should be flush with the face of the head
Depth is different from head to head
Turning, boring & threading
Making the spigot doesn’t take very long to produce
Each spigot requires a mix of boring, turning, tapering and threading
Once the ID and OD are complete we are ready for threading
I use a thread ring to check the spigot thread engagement quality - I try to get the ring to thread onto the adapter as smooth as I can with little “slop”
Now that the spigot is complete we head over to the JET mill and bore 2 (5/16”) holes in line of each other to accept the locking tool pin
Tightening the spigot
The last step is arguably the most important step; making sure that the spigot is tight
I take the cylinder head and bolt the unit onto my milling table
I use my custom made tool to together the spigot in place using all my body weight as leverage
With the spigot having fresh threads and good thread engagement now we can feel confident that this is a permanent fix that should last a lifetime
Thanks for reading
Thanks for reading todays post
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Ride safe!
Phil Masterson
Hi what a great job you done on that head supperb
I wish you were on this side of the attlantic as i have 6 9 stud heads to be repaired How much is the tap to purchase?
Phil
Perry
Nice, wish I lived closer to swing by and have some shop time. ;-)
Classic British Spares
@Daniel – thank you for reading! Sounds like you got it right on the money! Thank you again
Classic British Spares
@sandy – thanks for reading! It’s amazing how strong 4140 is, really tough stuff, overkill but it got the job done
@Geoff – This was a unit 500 head, haven’t seen these crack before. I do not offer such a service. Thanks for reading!
@Boyd – So great to hear from you! Yes, loving the JET mill, I hope you are doing well my friend!
@Philip – If they are stuck, and you have no reason to remove them, I would say leave them. You could be opening a can of worms… if you do need to remove them, use heat. If no go, you might have to collapse the spigot
Sandy McWilliam
Nice well planned out job!! As you mentioned you only get one shot. btw impressed with the 4140 bar, erected tower cranes all over Europe and US and that was our go to steel to manufacture the pins, many 6"+dia that keep most of them together…and up there. Waiting for next episode.