This is a bit of a saga…..
When removed, the manifold parts were very rusted and brown.
When removed, the manifold parts were very rusted and brown.
Originally I intended to
de-rust them and then paint them with VHT high temperature paint. I told a
couple of people this and they just laughed – telling me the VHT would either
simply fall straight off, or would gradually fall off – leaving less and less area
painted. I wanted to soldier on and convinced myself that a good clean surface
for the paint to key-to would make all the difference to paint adhesion.…..
While I decided on my next step, I set about removing the manifold studs
so that they could be replaced with new ones. I tried double-nutting a stud but
that had no effect – the two nuts yielded and turned before the stud moved. I
stripped several nuts in this way!
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| Busy Stripping Threads...... |
There was no easy way to do this. In the end I used my biggest,
strongest mole grips to grips the end of a stud. With a can of WD40 on
standby, I applied a gradual, too and fro, wiggling action. The grips slipped
off many times and the stud ended up very gnarled, but eventually I started to
sense almost microscopic signs of movement.
I applied a squirt of WD40 and kept
wiggling (the tightening was as important as the loosening) and the sense of
movement turned into a reality – the stud began to loosen it’s grip and, with
more wiggling and WD40, was eventually persuaded out. I did that eight
times……until all the downpipe and heat shield studs were out. I was VERY lucky that none of the studs broke off - as I didn't fancy having to drill them out.
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| Gnarled and New........ |
So if I was going to get good paint adhesion, now I needed to de-rust and de-grease the manifold…..so took them to my local machine shop for sandblasting. Unfortunately, after sand blasting, my local engineer – thinking he was
doing me a favour - sprayed the bits over with WD40 before handing them back!
He did it to stop flash-rusting. No chance of paint sticking now!
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| A Generous Coating of WD40 |
Apologising
he suggested that a good clean with painters ‘panel wipe’ would remove any
grease. However with the parts rough and pitted, I wasn’t at all confident that
I would get them clean again.
So now I needed to de-grease them (again)……With
the parts now thoroughly covered in WD40, choosing a day when Gayle was out of
the house, my Plan B was to give the manifolds a wash in the dishwasher! I
added a little carburettor cleaner (meant for my ultrasonic cleaner). Now I
cannot advise you follow suit: I had suds pouring onto the floor! And, as
expected, the parts began to show surface rust as soon as the rinse water had
dried off.
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| Sparkly Clean! |
So now I needed to remove rust (again)……I thoroughly coated the
manifolds in strong (85%?) phosphoric acid to kill the rust. Coming back to
them a few days later, this had worked very well: the surfaces were now
blackened, but a hard crystalline deposit had formed in patches on the
surface.
So now I needed to remove the acid!!! Wearing gloves and
goggles I applied some dilute phosphoric acid and used a wire brush to scrub the manifolds
clean once more – removing the crystallised layer and getting down to bare metal.
They didn’t look so bad!
I decided to abandon plans to repaint the manifolds and resolved to
going with the bare metal finish: I used a thin, diluted wash of phosphoric
acid to stop any rusting and, when that was dry, gave them a squirt over with
WD40….. Which is what my engineer had done in the first place!!!
With the manifolds looking cleaner, I fitted the new studs.
To my surprise, a couple of studs to join the manifolds to the down pipes
didn’t fit all the way to the unthreaded ‘waist’ in the middle of the stud.
This meant that when the downpipe was fitted and the nut tightened, the nut
would stop at the ‘waist’ and would not ‘bite down’ onto downpipe to provide a
gas-tight seal. I tried tightening the studs again but didn’t want to risk
stripping the threads in the manifold. I used a bottoming tap to make sure that
the thread was clear and clean, but could not risk tapping deeper for fear the tap
drill would damage the existing thread and weaken it. For the two studs that
would still not go ‘all the way’, in the end, I resorted to using a thread die
to cut a little extra thread on the nut side of the ‘waist’. That did the
trick.
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| Tapping Threads for the New Studs |
With the studs in place, I fitted the
manifolds to the car. I had deliberately built my engine trolley so that it
allowed sufficient space on the exhaust side for the fitting of the downpipe.
For the two-piece DS21 manifold the
technique is covered in Operation DX.180-1 in Section 1 of Volume 2 of Manual 814.
Check that the joining surfaces are as
clean and flat as possible.
Smear a little exhaust assembly paste on
both sides of the exhaust gaskets and hang them over the studs on the cylinder
head. Slide both manifold halves over the studs together: a little wiggling is
necessary to get them to align and ‘nest’ one in the other.
Fit flat washers and nuts (copper nuts
recommended) and tighten them finger tight only
Smear a little exhaust assembly paste on
both sides of the gaskets that join the two manifold halves to the down pipe.
Press these gently into place on the studs on the underside of the manifold.
(They should stay there while you prepare for the next step).
Introduce
the downpipe to the manifolds. Fit nuts (no washers used) finger tight.
At this point I re-checked the nuts at the
cylinder head end for any slack that had developed, but otherwise still left
them only finger tight. I wanted the manifold to be hanging parallel to the
side of the cylinder head, but still be loose enough to have a little ‘give’ in
them because of the next step.
Returning to the manifold/ down pipe join,
I tightened these nuts fully. Only when this was done did I return to the
nuts on the cylinder head and tighten them fully.
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| Exhaust manifolds and downpipes fitted |
My reward for this was that I was then able to fit the outer heat shield
over the manifold. For some reason this felt like a significant step. I had also given this heat shield a polish. In this case, it's the inner surface that does all the work - keeping exhaust heat away from other components through radiation - so I worked hard to give that hidden surface a good shine.
I haven’t tightened the two shield bolts on top yet. I will save those until I come to fit the air cleaner and its base bracket.
It’s starting to look like a proper DS engine now!
I haven’t tightened the two shield bolts on top yet. I will save those until I come to fit the air cleaner and its base bracket.
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| Heat Shield Fitted |
