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ssswitch
ssswitch HalfDork
8/2/16 8:35 a.m.

Good work on this so far. I'm always a little disappointed that German manufacturers use such terrible fasteners; for the money I want you guys to go out and pick up something nice.

What's the difference between your new IMS bearing and the old one? I can't imagine the shaft filling with crusted-up ancient gunk is good for the OE bearing either.

Flight Service
Flight Service MegaDork
8/2/16 8:52 a.m.

jfryjfry
jfryjfry Reader
8/2/16 9:22 a.m.

If the cover centers the shaft, what rides in the bearing??

bluej
bluej UltraDork
8/2/16 9:44 a.m.
ssswitch wrote: Good work on this so far. I'm always a little disappointed that German manufacturers use such terrible fasteners; for the money I want you guys to go out and pick up something nice. What's the difference between your new IMS bearing and the old one? I can't imagine the shaft filling with crusted-up ancient gunk is good for the OE bearing either.

The new one looks like an open race bearing. If that's correct, would that mean that oil is free to both fill and empty from the IMS interior?

BoxheadTim
BoxheadTim UltimaDork
8/2/16 9:47 a.m.

In reply to mrap1000:

IIRC you can change the tensioners with the engine still in the car (at least on a 996), but the chains and pads are an engine out job. The pad for the IMS chain is an engine strip down job but I think you know how I know that...

Mister Fister
Mister Fister New Reader
8/2/16 1:18 p.m.

My 2000 Boxster 2.7 with the M030 retrofit was my favorite car of all time (out of 39 cars so far, including 911s).

So easy to work on and live with. Almost everything can be accessed from underneath - so while you don't need a lift, it's nice to know someone who has one.

NOHOME
NOHOME PowerDork
8/2/16 1:22 p.m.

Am I understanding this correctly? The stud used to pull the bearing is the pivot/support for the intermediate shaft bearing? That would be like building a log bridge where the last inch was a toothpick

Didn't Germany used to have good engineers?

The0retical
The0retical Dork
8/2/16 1:29 p.m.
bluej wrote:
ssswitch wrote: Good work on this so far. I'm always a little disappointed that German manufacturers use such terrible fasteners; for the money I want you guys to go out and pick up something nice. What's the difference between your new IMS bearing and the old one? I can't imagine the shaft filling with crusted-up ancient gunk is good for the OE bearing either.
The new one looks like an open race bearing. If that's correct, would that mean that oil is free to both fill and empty from the IMS interior?

That was my impression too. Seems odd to have a sealed bearing with a lubrication source all the way right there though. I wonder what the logic for that was?

Dashpot
Dashpot Reader
8/2/16 2:08 p.m.

In reply to mrap1000:

Great Write-up!

Wondering if there's a procedure to gauge chain/friction block condition by measuring depth through the tensioner ports? There must be a maximum extension spec on each tensioner plunger before you get chain slap. If that spec is documented, it would be a nice proxy for engine/timing cover removal.

Mister Fister
Mister Fister New Reader
8/2/16 3:02 p.m.
NOHOME wrote: Didn't Germany used to have good engineers?

This car and the wonderfully hated 996 were built with "help" from Toyota.

dculberson
dculberson PowerDork
8/2/16 3:19 p.m.

In reply to Mister Fister:

Ehh, I am willing to bet that Toyota had nothing to do with that. "Consulting" on sharing hardware between models and platforms is quite unlikely to extend to internal motor engineering, which is something Porsche has always had a handle on. (Until this model, apparently.)

Flight Service
Flight Service MegaDork
8/2/16 4:02 p.m.

I was under the impression that Toyota was just doing consulting on the Toyota Production System (JIT and Lean manufacturing) with Porsche. No design work, (other than stop overbuilding and parts commonality philosophy)

Agent98
Agent98 New Reader
8/2/16 5:12 p.m.

Hello:

Great write ups and progress.

Flight Service - just asking ---when did Porsche ever "overbuild"? and who but Porsche in the sports cars world wrote the book on parts commonality - Porsche 914/VW platform ---924/Audi engines..etc.

Seems eerily similar to the German Ford Capri MK1 - truly great, great design engineering (from "Koln"), world's worst!!! selection of materials of construction (from the "colon"). (Gotta go now, must scan C/L for cheap Boxsters.....)

mrap1000
mrap1000 New Reader
8/2/16 7:29 p.m.

Before I go any further, I’d like to take a shot at discussing some of the theories for the failure of the IMS bearing, and the various replacement options. And we are just dealing with “theories” here. Porsche battled a class-action lawsuit on the bearing failure, and the folks in Zuffenhausen have never released a long-term fix. That has left the aftermarket groping in the dark for a way out of this mess; causing loads of virulent debate on the interwebs.

As a bit of background, I’m a maintenance engineer by trade, mostly working on large pumps and small turbines. I’ve done a few root cause evaluations on bearing failures. Understand that I’m COMPLETELY incompetent to recommend a best “fix” for the bearing issue. I’m late to this party, have zero empirical data on the failure, and my understanding of engine internal conditions comes from hearsay and conjecture. If you’re interested, I’ve waded through hundreds of pages of internet discussion, applied my “sniff test”, and I have a few insights. If not, just scroll down a few paragraphs and watch me mangle more engine components.

This is an intermediate shaft. The left end of the shaft is supported by an engine-oil lubricated bearing with a failure rate of zero. The right end of the shaft is supported by a sealed bearing with a failure rate that causes Porsche 986 and 996 owners to develop drinking problems. The shaft sits near the bottom of the engine case and is submerged in engine oil when the car is shut down or idling. When the car is at speed, the sump level drops and the shaft rotates in an oil mist/splash lubrication environment.

The IMS shaft is hollow to reduce rotational mass. As you can see from this picture, the left side of the shaft is sealed with an endcap. This endcap is inserted through the engine-lubricated bearing and contains a hex-head socket for the oil pump drive. On the other end, the shaft is open, and has just received my shiny new bearing.

Now here’s the deal: because the IMS shaft is hollow, when the car is warms to operating temperature, the air inside the shaft expands and a small amount leaks out through the minuscule gaps around the bearing. When the car is shut down, the shaft sits submerged in the engine sump oil and cools; forming a slight vacuum inside the shaft. Nature (and my daughter, by the looks of her room) abhors a vacuum, so a tiny volume of oil is pulled into the shaft through the gaps around the bearing. Over lots of starts and stops, oil begins to accumulate within the shaft. Conditions inside the shaft are not kind to lubricants. The spinning shaft repeatedly shears and aerates the oil, and volatile components boil off and leak away. As the remaining fluid concentrates, all additives and buffers are depleted and the oil turns into an acidic hellbroth.

Failure contributing cause #1 is that the factory IMS bearing sits submerged in this nasty oil. My experience is typical to what other internet mechanics reported - about two cups of this smelly, evil stuff spilled out of the shaft when the bearing came out. This oil seeps through the bearing seal, washes out the grease installed at the factory, and attacks the internals.

However, I’ve seen bearings operate reliably in worse environments, which brings us to contributing cause #2 – loading on the bearing. Spinning the camshafts requires a certain amount of force. There are five chains in the timing system, so there’s a lot of efficiency loss due to friction. So, the shaft sees some fairly high loads during operation. If the timing between the cams in each head and crankshaft isn’t perfect (camshaft deviation) the cam chains can exert a back-and-forth tugging on the shaft (and supporting bearings) that also increases loading on the bearing.

There are other failure modes, but that’s a simplified view of the two that drive the various “fixes” offered in the aftermarket. On one hand we have folks who believe that lubrication is the issue. They advocate providing a direct oil feed to the bearing, or at the very least, installing a bearing without seals which would receive lubrication from the splash/oil mist environment in the engine sump. An open bearing design also provides a drain path for any oil trapped inside the shaft. The source for the external oil feed is a matter of fierce debate. The lubrication system on the M96 engine is not considered a strong point, with lots of small orifices and tortuous passageways. Robbing oil from the wrong area might make main and cam bearings go bye-bye.

There’s another camp that believes that bearing loads are the issue. They advocate a bearing manufactured from exotic materials to better accommodate high loading. Or replace the factory ball bearing design with a roller bearing designed for higher radial loads. Whatever the bearing type, make sure it isn’t sealed so it can receive lubrication from the sump environment.

What’s the best answer? Probably the one that addresses both failure modes – an external oil feed sourced from somewhere innocuous (like the oil filter), combined with a bad-ass aerospace bearing. Of course, that’s also going to be the most expensive fix.

As a Frugal Mechanic, I really wanted the exotic bearing, because, you know, engineering and stuff. However, there were cost considerations when I started this job, and a desire to keep some money in the kitty to cover issues found during disassembly. With 100,000 miles on the car, it was probable that the dual-mass “clutch” flywheel would require replacement, to the tune of $600. $700 CV joints are also mentioned frequently in the bearing replacement threads. As a result, I compromised; selecting a moderately priced IMS bearing “fix” which appears to address both contributing causes. I’ve addressed the loading issue by installing high quality roller bearing, sans seals.

My bearing “fix” has a unique design to address the lubrication issue. Remember the end of the IMS shaft – the one with the sealed endcap and socket for the oil pump drive? Well, the metal wall between the oil pump shaft socket and the hollow interior of the shaft is thin – about .024 mm thin. So, if you poke a small hole through this metal wall, and install an oil pump drive shaft with a machined groove in it, you can meter a small flow of oil from the oil pump back into the rotating shaft. This oil makes its way through the shaft, into the internals of the roller bearing, and back into the sump. Simple, right? So why aren’t all the cool kids doing it? Well, it involves hammering a punch into a highly engineered IMS shaft, which is an $1800 factory part. And it uses a bearing of a completely different design than Porsche installed at the factory. It’s easy to see why this fix may be a little controversial. But it “makes sense to an engineer” – famous last words akin to “hold my beer, and watch this”.

Crawling back under the car, I removed the engine motor mount. This requires jacking the engine up and down to coax out the four restraining bolts and finessing the mount through the subframe. Now we have access to the oil pump casing on the front of the engine:

I removed the cover bolts and used a handy pry point to pop the pump cover off:

The machined recess for the pump vaguely resembles an erect human appendage. Oh, those wacky Germans! Or maybe I’ve been out in the garage too long. Anyway, the gear with the solid shaft is the one driven by the IMS shaft. Removing it exposes the key:

Which pulls right out and will be replaced by the new one with the machined slot. The kit for my bearing included a needle-tipped punch which was inserted into position against the IMS shaft wall.

My instructions called for punching a hole, 1-3 mm in diameter. I scrounged around in my “box ‘o wire” and found some strands with diameters of 1, 2 and 3 mm to serve as go-no go gauges. Had to hammer a little harder than I expected to pierce the wall of the shaft, but once opened, I was able to expand it to a 2 mm diameter in a controlled fashion. Grooved hex drive key installed, oil pump cover back on, and motor mount back on. Easy-peasy.

Back to the rear of the engine, it’s time to start reassembly. The bolts for the IMS cover received a squirt of Curel sealant to keep them from leaking oil and a dab of locktite to keep them in place.

Observant readers had noted my IMS shaft had shifted slightly when I pulled the cover to remove the bearing. It took a bit of prying to re-center everything when I installed the new cover, but it finally slipped into place. Fortunately, my exertions didn’t change the timing a bit, because my locking tools kept the crankshaft and camshaft sprockets in place. I reinstalled and torqued the two tensioners, removed the lock tools and used a breaker bar to turn the crankshaft through a couple of rotations while carefully monitoring for valve to piston contact. The crankshaft timing mark and camshaft slot realigned to their correct positions, so I popped in a new plastic camshaft plug and re-installed the hatch and carpet cover.

It’s time to address that leaking rear main seal. Drilled a small hole in the old seal, inserted a sheet metal screw and tugged on it a bit. Finally broke the old sealant bond and it came right out. RMS leaks have been a huge warranty repair issue for Porsche, and the seal design has been through multiple iterations to prevent the problem. Installation can be tricky, with many internet mechanics finally purchasing the $150 specialty tool to get the danged seal in. I used an option more in line with the Frugal Mechanic ethos:

A 4” PVC shower drain. Using my trusty Dremel motor tool, I hacked away the internal structure of the shower drain until I had four protruding tabs. When the tool is positioned on the seal, and four flywheel bolts are threaded into the crankshaft flange, the shoulders of the bolts engage the tabs and draw the tool (and seal) into the engine casing. The new style RMS from Porsche requires the seal face to stay perfectly square to the engine casing during installation and finally recessed 3 mm into the casing to prevent blow-out. Blow-out sounded bad, so I tightened the bolts slowly, using a small ruler to measure the position of the seal every few turns. A few times, the seal cocked slightly when I tightened a little too much on one side. However, loosening those bolts and tightening the opposite side served to work the seal back into alignment. It took about 45 minutes, but the new seal finally settled into position.

Sorry for being so long-winded. I’ll get into flywheel, clutch and transmission re-installation in my next post.

Jayisacarguy
Jayisacarguy New Reader
8/2/16 7:56 p.m.

Great work so far. You're making this look a bit too easy though.

mrap1000
mrap1000 New Reader
8/2/16 8:11 p.m.

In reply to BoxheadTim:

On the 2.5 and 2.7 liter cars, there's an issue with wear on the little brown wear pads on the Variocam solenoids. These are serviced by removing the head covers and cams. Some folks have done this without removing the engine from the car.

But you are right, the other wear pads are an engine out/engine disassembly job. I read your thread at least a half dozen times before I pulled the trigger on this car.

The0retical
The0retical Dork
8/2/16 8:13 p.m.

That was an immensely interesting, and quite entertaining, explanation of something I'll likely never touch. Great read. Loving the special tool.

chgrec
chgrec None
8/2/16 9:06 p.m.

Thanks for documenting your journey. I am just wrapping up a full restoration of my MGB and really want my next car to be another boxster. After 57 cars over the years, my 97 boxster is one of the few cars I miss. Your write up gives me the motivation to give it a try!

Thanks again and great job Chris

Mitchell
Mitchell UberDork
8/2/16 9:08 p.m.

Excellent write-ups. If only manuals were written this way.

chandlerGTi
chandlerGTi UberDork
8/2/16 9:46 p.m.
Mitchell wrote: Excellent write-ups. If only manuals were written this way.

There are! Pick up the Poor Richards How to keep your Beetle/Rabbit/Datsun Alive books. Nothing current though of course.

nderwater
nderwater UltimaDork
8/2/16 11:17 p.m.
mrap1000 wrote: The machined recess for the pump vaguely resembles an erect human appendage. Oh, those wacky Germans!

FTW

Flight Service
Flight Service MegaDork
8/3/16 5:37 a.m.
Agent98 wrote: Flight Service - just asking ---when did Porsche ever "overbuild"? and who but Porsche in the sports cars world wrote the book on parts commonality - Porsche 914/VW platform ---924/Audi engines..etc.

Those were joint supplier agreements and were not common parts within the brand. The Boxster, Caymen, 911 sharing entire front clips, ect. M96/7/9A1 all being used across the lineup with only minor changes, ect. Vehicles like the Macan, where they started with the Q5 platform have been changed so much that it would have been cheaper for Porsche to have built it from scratch aren't always the most profitable. Remember the 914 wasn't done the way Porsche wanted it to go.

Things like frames around the windows, extra wide sheet metal flanges where panels come together, ect. There was some overbuild in 911s.

Flight Service
Flight Service MegaDork
8/3/16 5:38 a.m.
mrap1000 wrote: The machined recess for the pump vaguely resembles an erect human appendage. Oh, those wacky Germans!

almost seems to work the same too.

Xceler8x
Xceler8x UberDork
8/3/16 10:08 a.m.

This thread is riveting. I'm tempted to send it to a friend who just purchased a 2000 Boxster but then I read about the plastic and metal bits in the oil and I think "Maybe I should let him live forever in blessed and blissful ignorance..."

Jerry From LA
Jerry From LA SuperDork
8/3/16 10:18 a.m.

Sir, your "lurking for years" is a crime against humanity. You are an excellent writer. Your clarity while being entertaining is a virtue of the highest order. Please do not refrain from writing or commenting on whatever moves you, short of a patio extension.

I work for Autobooks-Aerobooks in Burbank, CA. Half the books I sell are not written as well as your thread. Keep up the great work. Perhaps your bride could be persuaded to give you your "Christmas present" early to avoid a second torturous exhaust removal. Looking forward to the exciting conclusion.

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