Help!! My Intake Valves Keep Wearing Out!
#201
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And most people would have just re shimmed these valves and moved on with it. But given my previous experience with these parts, I knew that would not fix what was actually wrong here.
2 of the 8 intakes had closed up ~ 1.5 thousands of an inch. When I got the head disassembled they were starting to exhibit the same failure pattern as I had previously experienced.
For a "normal person" these two valves which were now at .0085" would have been re-shimmed and then would have ran it for another year or more.....When you have the volume of data that I have....there was no question what the cause of the movement was.....and if I want my car to continue to be at the front of the pack...It needs valves that don't leak.
As a side note....the same exhaust valves have been in the motor since 2012 FWIW.
2 of the 8 intakes had closed up ~ 1.5 thousands of an inch. When I got the head disassembled they were starting to exhibit the same failure pattern as I had previously experienced.
For a "normal person" these two valves which were now at .0085" would have been re-shimmed and then would have ran it for another year or more.....When you have the volume of data that I have....there was no question what the cause of the movement was.....and if I want my car to continue to be at the front of the pack...It needs valves that don't leak.
As a side note....the same exhaust valves have been in the motor since 2012 FWIW.
#203
point of reference my flyin miata super tech 1mm oversized valves have been in use since bought in 2006. Head was rebuilt FM ported casting replaced with one ported from replika after ARP torque specs cracked it after needing the bottom end rebuilt, valves were re-used. I then burned exhaust valves twice running it on the track and melted a piston and did some knock damage to the head once. Im on the third rebuild of the bottom end, still reused the intake valves. 2013 I blew the freeze plug out of the front of the head and thought it might have been damaged too much during the melted piston event had it checked out real good and couldn't find any evidence of catastrophic damage so I re built it again and added Inconel exhaust valves, shim under bucket lifters, and went from super tech single to medium double springs still reused the intake valves. 2016 I broke an intake camshaft and replaced it. I still have not seen intake valve seat wear like others are seeing.
Current config is 2.0l stroker motor. bp4w head. with bp5a intake. makes ~330hp setup for the track ~400 setup for everything else. II holds all the TT2 lap records on northwest tracks. It does pretty good set up for SSM autocross as well and is nationally competitive. rev limit is set to 8600 rpm and it sees that on many autocross courses.
I think there is something to the supertech intake valves of much older vintage being better. mine are in 10 years of abuse now.
Current config is 2.0l stroker motor. bp4w head. with bp5a intake. makes ~330hp setup for the track ~400 setup for everything else. II holds all the TT2 lap records on northwest tracks. It does pretty good set up for SSM autocross as well and is nationally competitive. rev limit is set to 8600 rpm and it sees that on many autocross courses.
I think there is something to the supertech intake valves of much older vintage being better. mine are in 10 years of abuse now.
And most people would have just re shimmed these valves and moved on with it. But given my previous experience with these parts, I knew that would not fix what was actually wrong here.
2 of the 8 intakes had closed up ~ 1.5 thousands of an inch. When I got the head disassembled they were starting to exhibit the same failure pattern as I had previously experienced.
For a "normal person" these two valves which were now at .0085" would have been re-shimmed and then would have ran it for another year or more.....When you have the volume of data that I have....there was no question what the cause of the movement was.....and if I want my car to continue to be at the front of the pack...It needs valves that don't leak.
As a side note....the same exhaust valves have been in the motor since 2012 FWIW.
2 of the 8 intakes had closed up ~ 1.5 thousands of an inch. When I got the head disassembled they were starting to exhibit the same failure pattern as I had previously experienced.
For a "normal person" these two valves which were now at .0085" would have been re-shimmed and then would have ran it for another year or more.....When you have the volume of data that I have....there was no question what the cause of the movement was.....and if I want my car to continue to be at the front of the pack...It needs valves that don't leak.
As a side note....the same exhaust valves have been in the motor since 2012 FWIW.
Every motor builder I spoke to keeps saying it's spring pressure causing the problem. I am not 100% sure of that myself. The quality of the nitrated valves are in question as well as required spring pressure. Sure Bob has gotten away with light pressures (both single and double) but his cams are very mid stock ones. Eric had problems with stock cams IIRC as well as his aftermarket ones. Overall I find the spring pressures quite low vs what I am use to dealing with. Sure this is a DOHC 4V head vs SOHC 2V head but still I think creeping up in spring pressure is not a bad idea. I opted to go pretty aggressive on my last head refresh and shimmed the intakes to 85lbs seat pressure. When I start running it again later this year I'll keep a close eye on clearances and report back. If I gotta pull the head again I am going to push for fully nitrated valves.
Anyway great info guys! Lots of relevant info to help put this problem to rest. Thanks!!!
#204
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My current seat pressures are between 92 and 96 psi on the intake side and 64-71 on the exhaust side.
That was as close as I could get them with the available shims.
I saw no reason to increase the seat pressure on the exhaust side because they seem to be living a happy life.
So. Over .060" seat witdh, fresh bronze guides, over 90 psi seat pressure, 8,500 rpm redline, 11.5:1 CR, 26psi boost, C16 leaded fuel, VR1 oil.....and they still started to tighten up after 13 races (That equates to just over 3.5 hours running at "race pace" and is the longest life I have yet to achieve with Supertech Parts)
The new parts I have will fix the issue. The new valaves are 3.3 grams per valve heavier than ST stainless valves and with the coatings they were only 4.5x's as expensive as ST valves......and if they fail....I'm taking up golf again.
That was as close as I could get them with the available shims.
I saw no reason to increase the seat pressure on the exhaust side because they seem to be living a happy life.
So. Over .060" seat witdh, fresh bronze guides, over 90 psi seat pressure, 8,500 rpm redline, 11.5:1 CR, 26psi boost, C16 leaded fuel, VR1 oil.....and they still started to tighten up after 13 races (That equates to just over 3.5 hours running at "race pace" and is the longest life I have yet to achieve with Supertech Parts)
The new parts I have will fix the issue. The new valaves are 3.3 grams per valve heavier than ST stainless valves and with the coatings they were only 4.5x's as expensive as ST valves......and if they fail....I'm taking up golf again.
#205
FM has some ST inconel intakes out being tested. There are a lot of us having the same issue with the ST stainless intakes. Also I have had no issues with the inconel exh. valves. I would rather pay for the inconels if they prove to work.I have tried all diff spring pessures including singles, light dbls and hvy dbls and diff seat widths all to no avail with msm intake and stock exh cams. Have no issues with OEM intake valves, and that is what I've been running this season along with the oversize exh. ST inconel valves but would like to be able to run the larger ones on the intakes also.
#206
My current seat pressures are between 92 and 96 psi on the intake side and 64-71 on the exhaust side.
That was as close as I could get them with the available shims.
I saw no reason to increase the seat pressure on the exhaust side because they seem to be living a happy life.
So. Over .060" seat witdh, fresh bronze guides, over 90 psi seat pressure, 8,500 rpm redline, 11.5:1 CR, 26psi boost, C16 leaded fuel, VR1 oil.....and they still started to tighten up after 13 races (That equates to just over 3.5 hours running at "race pace" and is the longest life I have yet to achieve with Supertech Parts)
The new parts I have will fix the issue. The new valves are 3.3 grams per valve heavier than ST stainless valves and with the coatings they were only 4.5x's as expensive as ST valves......and if they fail....I'm taking up golf again.
That was as close as I could get them with the available shims.
I saw no reason to increase the seat pressure on the exhaust side because they seem to be living a happy life.
So. Over .060" seat witdh, fresh bronze guides, over 90 psi seat pressure, 8,500 rpm redline, 11.5:1 CR, 26psi boost, C16 leaded fuel, VR1 oil.....and they still started to tighten up after 13 races (That equates to just over 3.5 hours running at "race pace" and is the longest life I have yet to achieve with Supertech Parts)
The new parts I have will fix the issue. The new valves are 3.3 grams per valve heavier than ST stainless valves and with the coatings they were only 4.5x's as expensive as ST valves......and if they fail....I'm taking up golf again.
IIRC boost x surface area of the valve is about 1:1. Since I only run 12 PSI I should in theory have more effective seat pressure than you. I cap red-line at 8k. I'll be sure to share the results ASAP. I had about 9 race hrs on the old setup before I lost all of my intake clearances.
Again thanks for sharing. Would love to hear more about these uber valves you're gonna run. I hope for your sake it puts the problem to rest cause your too young to hang up your hat for golf.
#207
I share your logic on the exhaust side. I did not increase pressure either.
IIRC boost x surface area of the valve is about 1:1. Since I only run 12 PSI I should in theory have more effective seat pressure than you. I cap red-line at 8k. I'll be sure to share the results ASAP. I had about 9 race hrs on the old setup before I lost all of my intake clearances.
Again thanks for sharing. Would love to hear more about these uber valves you're gonna run. I hope for your sake it puts the problem to rest cause your too young to hang up your hat for golf.
IIRC boost x surface area of the valve is about 1:1. Since I only run 12 PSI I should in theory have more effective seat pressure than you. I cap red-line at 8k. I'll be sure to share the results ASAP. I had about 9 race hrs on the old setup before I lost all of my intake clearances.
Again thanks for sharing. Would love to hear more about these uber valves you're gonna run. I hope for your sake it puts the problem to rest cause your too young to hang up your hat for golf.
Can you explain when it is that you have significantly more manifold pressure than what is in your cylinder? (Shouldn't the pressures be near equal when the valve is attempting to close?)
Last edited by Alternative; 08-12-2016 at 03:24 PM.
#209
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If you don't have a net force acting to push the valve/lifter against the camshaft at all times, you will loft the intake valve off the camshaft and break stuff. The most likely time for that lofting to happen is right at/around max lift.
If you want to get really crazy with valvetrain design, google "valve loft". Some race engineers are designing cams for "max valve lift" rulesets that are actually designed to throw the intake valve further open than what those rulesets intend
#213
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Imagine a camshaft that has two "noses" and a valley in the center. It looks exactly like a skiier or snowboarder hitting a jump - imagine that the ground is the camshaft and the skiier/snowboarder is the valve. The guy rises much further off the ground than the camshaft would indicate, and then lands softly on the landing ramp. Same exact theory with intentional valve lofting. I can imagine it's quite hard on the valvetrain, but it shouldn't be hard at all on the valve seats if done correctly.
#217
Keep us posted jmann. I was unable to find a strength difference between stainless and inconel. Most articles spoke of strength stability of inconel at elevated temps.
TNTUBA what type of valves to you end up going with? Knowing your past cam decisions I imagine it's something from the U.K.
Without getting all exotic maybe retreating the valves after the machine work would be a good idea. It seem ST is cutting right through the nitrate treating during final finishing of the valves casing them to be weakened.
TNTUBA what type of valves to you end up going with? Knowing your past cam decisions I imagine it's something from the U.K.
Without getting all exotic maybe retreating the valves after the machine work would be a good idea. It seem ST is cutting right through the nitrate treating during final finishing of the valves casing them to be weakened.
#218
So a little update on this.
I build a few heads a year and from what Iv experienced with Supertech they are trying to resolve the issue and we might have a final solution.
the old valves that were junk were ss and ground. They didn’t last.
Then they started leaving them unground with the nitride coating. This seamed to last according to bbundy.
Currently they have added a stelite face to the valves and grind them. This should be even harder than the nitride surface.
Time will tell
I build a few heads a year and from what Iv experienced with Supertech they are trying to resolve the issue and we might have a final solution.
the old valves that were junk were ss and ground. They didn’t last.
Then they started leaving them unground with the nitride coating. This seamed to last according to bbundy.
Currently they have added a stelite face to the valves and grind them. This should be even harder than the nitride surface.
Time will tell