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Difference between revisions of "Inlet Manifold Fault - Duratec"

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m (How can I tell if I'm affected?)
 
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For the Mk3 Mondeo with a 4-cylinder Duratec petrol engine...
+
{{note|'''The Ford Mondeo hit our roads in 1993, and has consistently been a sales success. Now on its 4th incarnation, it remains a drivers favourite.'''<br>
 +
'''For more information, visit the [http://www.talkford.com/forum/596-mondeo/ Ford Mondeo] forum on [http://www.talkford.com TalkFord.com], the definitive resource site covering all Fords from the present day to the 1970's.'''}}
 +
----
 +
{{Infobox
 +
|name          = Infobox Template
 +
|bodystyle      = float:right; valign:top;
 +
|image          = [[File:Fordwiki infobox.png]]
 +
|imagestyle  =
 +
|caption        = Overview Guide
 +
|captionstyle =
 +
|headerstyle  = background:#ccf;
 +
|labelstyle  = background:#ddf;
 +
|datastyle      = text-align:right;
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|header1 =
 +
|label1  = Ford Model:
 +
|data1  = '''Mondeo Mk3'''
 +
|header2 =
 +
|label2  = Petrol/Diesel:
 +
|data2  = '''1.8/2.0 Petrol'''
 +
|header3 =
 +
|label3  = Estimated Cost:
 +
|data3  = '''£0-400'''
 +
|header4 =
 +
|label4  = Difficulty?
 +
|data4  = '''Easy/Medium'''
 +
|label5  = How long does this take?
 +
|data5  = '''To fix: ~4hr'''
 +
}}
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 +
For the pre-facelift Mk3 Mondeo with a 4-cylinder Duratec petrol engine...
  
 
== Background ==
 
== Background ==
Line 5: Line 34:
 
The 1.8 and 2.0 Duratec-HE petrol engines fitted to Mk3 Mondeos have swirl plates (also called tumble flaps) fitted in the inlet tracts to modify the incoming airflow under certain conditions for allegedly improved smoothness, economy and emissions.
 
The 1.8 and 2.0 Duratec-HE petrol engines fitted to Mk3 Mondeos have swirl plates (also called tumble flaps) fitted in the inlet tracts to modify the incoming airflow under certain conditions for allegedly improved smoothness, economy and emissions.
  
However, the flaps in early vehicles (built up to late 2002) are susceptible to falling apart and getting ingested by the engine. This frequently causes engine damage and has caused several vehicles to be written off. Sometimes this is preceded for a long time by an audible rattle, other times failure is sudden and catastrophic.
+
However, the flaps in early vehicles ('''built''' up to late 2002, don't rely on your registration) are susceptible to falling apart and getting ingested by the engine. This frequently causes engine damage and has caused several vehicles to be written off. Sometimes this is preceded for a long time by an audible rattle, other times failure is sudden and catastrophic.
  
 
Ford are not accepting any liability for this, so don't expect a result there. Feel free to voice your displeasure to them, though.
 
Ford are not accepting any liability for this, so don't expect a result there. Feel free to voice your displeasure to them, though.
Line 11: Line 40:
 
== Affected vehicles ==
 
== Affected vehicles ==
  
The exact date of introduction of the revised manifold - which appears to have drastically improved the situation - is not exactly known. The closest we can say at the moment is that:
+
The exact date of introduction of the revised manifold - which appears to have cured the situation - is not precisely known. The closest we can say at the moment is that:
* a 2.0 litre car built on 28 August 2002 (build code 2P) had the old manifold;
+
* a 2.0 litre car built on 28 August 2002 ([[Build Date Codes|build code]] 2P) had the old manifold;
 
* a 1.8 litre car built on 16 October 2002 (build code 2R) seems to have the revised one, but we can't confirm it hasn't been updated during the car's life;
 
* a 1.8 litre car built on 16 October 2002 (build code 2R) seems to have the revised one, but we can't confirm it hasn't been updated during the car's life;
 
* a 1.8 litre car built on 4 December 2002 (build code 2G) had the revised manifold out of the factory.
 
* a 1.8 litre car built on 4 December 2002 (build code 2G) had the revised manifold out of the factory.
  
Check your build date at [http://www.etis.ford.com eTIS] (free registration), or to get just the month and year, look at your VIN (base of windscreen) and use [[Build Date Codes|this table]].
+
On Ford's parts catalogue, the oil separator seems to change on 15 October 2002, so that could well be the critical date.
 +
 
 +
Check your build date at [http://www.etis.ford.com eTIS] (free registration); or to get just the month and year, look at your VIN (base of windscreen) and use [[Build Date Codes|this table]].
  
 
Of course, things can fail on any car. If you have a rattle from the inlet manifold of any age Duratec-HE, it's worth getting it checked out.
 
Of course, things can fail on any car. If you have a rattle from the inlet manifold of any age Duratec-HE, it's worth getting it checked out.
 +
 +
'''Edit by hatziman:''' a 1.8 lt built on 16 April 2004 (Series 40) had the faulty manifold, although it is a facelift model.
 +
 +
== How can I tell if failure is imminent? ==
 +
 +
Pull off the vacuum pipe that is visible between ports 2 and 3 in the middle of the manifold - it could be quite tight. Removing this pipe destroys the vacuum that helps to actuate the flaps. If you pull this off and the rattling disappears, you need to take action.
 +
 +
If the pipe won't come off easily, hold the pointy end of a screwdriver on each inlet tract of your running engine in turn, putting the blunt end to your ear. The usual safety notes apply - don't wear a tie or dangle long hair into a running engine. If you can hear a rattle (as opposed to the normal injector ticking sound), you have a problem. However, no rattle doesn't necessarily mean no problem.
 +
 +
== What can I do about it? ==
 +
 +
You have four options, that you can either implement yourself or get a garage to do. Removing the manifold is a fairly lengthy but not particularly tricky job and is covered in a [[Intake Manifold Removal|separate article]], or alternatively, get a Haynes manual.
 +
 +
* Do nothing. Not recommended, as failure can be sudden.
 +
* Remove the flaps and rod completely, and seal up the holes with something like Araldite. Several Talkford members have done this and at least one (Dazzaman) has successfully passed an MoT test with the flap movement disabled. A cheap solution that requires a moderate level of skill.
 +
* Replace the flaps. A kit was available early on to permit this to be done, and that seems to be available again now. FINIS is F1317276 for the flaps, F1119284 for the gaskets, and you'll need four of each. This solution is cheaper and easier than the next one, and retains the intended function of the flaps. You may also choose to upgrade the oil separator at the same time.
 +
* Replace the entire manifold. This is the expensive and comprehensive option. Either use a second-hand manifold from a 2003 or later car, or buy a new one direct from Ford.
 +
 +
More details on all of these can be found in [http://www.talkford.com/topic/97564-important-inlet-manifold-failure-in-graphic-detail/ this thread].
  
 
== How can I tell if I'm affected? ==
 
== How can I tell if I'm affected? ==
Line 35: Line 85:
  
 
[[Image:Manifold2.jpg]]
 
[[Image:Manifold2.jpg]]
 +
 +
 +
 +
'''Edit by hatziman:''' Another easy way to check your manifold is shown in this YouTube [http://youtu.be/hjRIsLwvjZQ video]
  
 
== What happens if it breaks? ==
 
== What happens if it breaks? ==
  
Read [http://www.robertjenkins.co.uk/mondeo/index.php Robert Jenkins' article] for the gory details.
+
Executive summary: engine failure is likely. The flaps and rod come loose and can fall into the running engine. This is a Bad Thing.
  
== How can I tell if failure is imminent? ==
+
The following is taken from a writeup by Robert Jenkins on his own site that pre-dates the wiki entry. His page is  at [http://www.robertjenkins.co.uk/mondeo/index.php robertjenkins.co.uk]. This FordWiki.co.uk copy is an edited replication to preserve this vital information. All copyright belongs to Robert Jenkins.
  
Hold the pointy end of a screwdriver on each inlet tract of your running engine in turn, putting the blunt end to your ear. The usual safety notes apply - don't wear a tie or dangle long hair into a running engine. If you can hear a rattle (as opposed to the normal injector ticking sound), you have a problem. However, no rattle doesn't necessarily mean no problem.
+
=== Mondeo Mk3 2L Duratec engines can eat their inlet manifolds ===
  
== What can I do about it? ==
+
In my case, the final failure happened one morning as I started the car in the garage, so it was only running at tickover for a few seconds after the manifold bits went in to the engine and it seems no serious damage was caused to the piston or valves.
  
You have four options, that you can either implement yourself or get a garage to do. Removing the manifold is a fairly lengthy but not particularly tricky job and is covered in a [[Intake Manifold Removal|separate article]], or alternatively, [http://tinyurl.com/hm-mk3p get the Haynes manual].  
+
I'm probably one of the lucky ones, I'd only spoken to a few people about it before someone said it had happened to them while driving and in their case the engine had to be replaced.
  
* Do nothing. Not recommended, as failure can be sudden.
+
=== What actually fails ===
* Remove the flaps and rod completely, and seal up the holes with something like Araldite. Several MEG members have done this and at least one (Dazzaman) has successfully passed an MoT test with the flap movement disabled. A cheap solution that requires a moderate level of skill.
+
 
* Replace the flaps. A kit was available early on to permit this to be done, and that seems to be available again now. FINIS is F1317276, you'll need four of them. This solution is cheaper and easier than the next one, and retains the intended function of the flaps. See [http://fordmondeo.org/forum/showtopic.php?tid/825176/ this MEG thread] for details. You may also choose to upgrade the oil separator at the same time.
+
The inlet manifold has an extra set of butterfly valves set in to the flange where it attaches to the cylinder head. These are controlled by a vacuum actuator and appear to be designed to deflect the airflow towards the fuel injectors to give better mixing under low throttle / high manifold vacuum conditions.
* Replace the entire manifold. This is the expensive and comprehensive option. Either use a second-hand manifold from a 2003 or later car, or buy a new one direct from Ford.
+
 
 +
The problem is that each butterfly has relatively small moulded-in bearing bushes at the ends, and over time these wear away. Once the bushes are worn through, the long square steel spindle that runs the length of the manifold (to connect the butterfly plates to the vacuum actuator) also starts to wear away at the points it touches the manifold tube walls, and eventually breaks at one or more of these points.
 +
 
 +
In mine, the steel spindle was in four separate pieces, one of which was in number three cylinder.
 +
 
 +
This was only the final failure. Two of the butterfly plates were rattling about in the inlet ports and one of these still had another bit of the spindle in it, with the ends nicely rounded over purely due to it bouncing about against the port walls.
 +
 
 +
Note: replacement butterfly inserts are now available for the new type manifold.
 +
 
 +
I have not used these myself, but according to reports on the Mondeo forum, they will directly replace the butterfly assemblies on the original type manifold. They apparently do not relate to the old manifold in the Ford part database, presumably as they were not introduced until after the original manifold was discontinued.
 +
 
 +
A set of these is a fraction of the price of a replacement manifold, but do check that the metal spindle and actuator etc. are still in good order before fitting them - a new manifold is cheaper than a new engine!
 +
 
 +
----
 +
 
 +
The pictures - click an image for a larger view
 +
 
 +
(For reference, the car is was just under six years old & had always been serviced by a local Ford main dealer)
 +
 
 +
----
 +
 
 +
[[File:Mondeo-manifold-1.jpg|left|thumb|This is the manifold, as removed. As you can see, two of the butterfly plates are missing - they were in the head ports]]
 +
 
 +
[[File:Manifold-port-1.jpg|left|thumb|This is Port 1, the butterfly plate is out at one side but the stub of spindle (towards port 2) is stopping it falling out completely.]]
 +
 
 +
[[File:Manifold-port-2.jpg|left|thumb|This is Port 2 - in this one the spindle had broken completely at both sides of the butterfly plate, and the plate complete with shaft was in the head port.]]
 +
 
 +
[[File:Butterfly-shaft.jpg|left|thumb|You can see quite clearly the way the spindle has been rounded over at the ends - this must have happened a long time ago, it's just luck that this particular bit of metal didn't get into the cylinder.]]
 +
 
 +
[[File:Manifold-port-4.jpg|left|thumb|Port 4 - A straight bit of spindle! This is the longest piece of the spindle, it's still straight and slides freely about in the manifold. When one of the other bits has broken away, it's slid 'forward' and allowed the butterfly plate to drop off intact.]]
 +
 
 +
[[File:Butterfly-bare.jpg|left|thumb|The butterfly plate from No. 4, found in the inlet port.]]
 +
 
 +
[[File:manifold-port-wear.jpg|left|thumb|This is a view of one of the ports, showing the crater that started out as a bearing hole for the bush on the end of a butterfly plate.]]
 +
 
 +
[[File:manifold-port-close.jpg|left|thumb|A close-up of the same thing..]]
 +
 
 +
[[File:manifold-inserts.jpg|left|thumb|The set of inserts that support(ed) the butterfly plates, plus the bit of spindle from port 1.]]
 +
 
 +
[[File:manifold-shaft-1.jpg|left|thumb|A closer shot of the shaft from port 1.]]
 +
 
 +
[[File:butterfly-bush-wear.jpg|left|thumb|This is the side of a butterfly assembly, clearly showing the wear of the hole and bush.]]
 +
 
 +
[[File:butterfly-bush-close.jpg|left|thumb|And its close-up view.]]
 +
 
 +
[[File:butterfly-shaft-2.jpg|left|thumb|And the crunch - this is the bit of spindle that ended up in the engine. As you can see, it's almost 50mm long. When I assembled the other parts of the spindle, it was obvious some was missing. I retrieved this with a bit of magnet fishing down the plughole of number three cylinder.]]
 +
 
 +
[[File:butterfly-shaft-3.jpg|left|thumb|Looking at how mangled that bit of steel is from just a few seconds at tickover, it's not surprising the engine can be wrecked if this happens on the road. After fitting the new manifold, the car runs fine - actually better than before, which is not really surprising as it's no longer got stray bits of plastic partly blocking the inlet ports... The compression readings are excellent and virtually identical on all cylinders, so I think it's safe so say that neither the valves or piston rings were damaged.]]
 +
 
 +
----
  
More details on all of these can be found in [http://fordmondeo.org/forum/showtopic.php?tid/777251 this thread].
+
If you need any more info on this, you can contact me via TalkFord (username rajenkins).
  
 
[[Category:Mondeo_Mk3]]
 
[[Category:Mondeo_Mk3]]
[[Category:Mondeo_Petrol]]
 
[[Category:Mondeo_4 Cylinder]]
 

Latest revision as of 14:49, 13 December 2012

The Ford Mondeo hit our roads in 1993, and has consistently been a sales success. Now on its 4th incarnation, it remains a drivers favourite.
For more information, visit the Ford Mondeo forum on TalkFord.com, the definitive resource site covering all Fords from the present day to the 1970's.

Fordwiki infobox.png
Overview Guide
Ford Model: Mondeo Mk3
Petrol/Diesel: 1.8/2.0 Petrol
Estimated Cost: £0-400
Difficulty? Easy/Medium
How long does this take? To fix: ~4hr

For the pre-facelift Mk3 Mondeo with a 4-cylinder Duratec petrol engine...

Background

The 1.8 and 2.0 Duratec-HE petrol engines fitted to Mk3 Mondeos have swirl plates (also called tumble flaps) fitted in the inlet tracts to modify the incoming airflow under certain conditions for allegedly improved smoothness, economy and emissions.

However, the flaps in early vehicles (built up to late 2002, don't rely on your registration) are susceptible to falling apart and getting ingested by the engine. This frequently causes engine damage and has caused several vehicles to be written off. Sometimes this is preceded for a long time by an audible rattle, other times failure is sudden and catastrophic.

Ford are not accepting any liability for this, so don't expect a result there. Feel free to voice your displeasure to them, though.

Affected vehicles

The exact date of introduction of the revised manifold - which appears to have cured the situation - is not precisely known. The closest we can say at the moment is that:

  • a 2.0 litre car built on 28 August 2002 (build code 2P) had the old manifold;
  • a 1.8 litre car built on 16 October 2002 (build code 2R) seems to have the revised one, but we can't confirm it hasn't been updated during the car's life;
  • a 1.8 litre car built on 4 December 2002 (build code 2G) had the revised manifold out of the factory.

On Ford's parts catalogue, the oil separator seems to change on 15 October 2002, so that could well be the critical date.

Check your build date at eTIS (free registration); or to get just the month and year, look at your VIN (base of windscreen) and use this table.

Of course, things can fail on any car. If you have a rattle from the inlet manifold of any age Duratec-HE, it's worth getting it checked out.

Edit by hatziman: a 1.8 lt built on 16 April 2004 (Series 40) had the faulty manifold, although it is a facelift model.

How can I tell if failure is imminent?

Pull off the vacuum pipe that is visible between ports 2 and 3 in the middle of the manifold - it could be quite tight. Removing this pipe destroys the vacuum that helps to actuate the flaps. If you pull this off and the rattling disappears, you need to take action.

If the pipe won't come off easily, hold the pointy end of a screwdriver on each inlet tract of your running engine in turn, putting the blunt end to your ear. The usual safety notes apply - don't wear a tie or dangle long hair into a running engine. If you can hear a rattle (as opposed to the normal injector ticking sound), you have a problem. However, no rattle doesn't necessarily mean no problem.

What can I do about it?

You have four options, that you can either implement yourself or get a garage to do. Removing the manifold is a fairly lengthy but not particularly tricky job and is covered in a separate article, or alternatively, get a Haynes manual.

  • Do nothing. Not recommended, as failure can be sudden.
  • Remove the flaps and rod completely, and seal up the holes with something like Araldite. Several Talkford members have done this and at least one (Dazzaman) has successfully passed an MoT test with the flap movement disabled. A cheap solution that requires a moderate level of skill.
  • Replace the flaps. A kit was available early on to permit this to be done, and that seems to be available again now. FINIS is F1317276 for the flaps, F1119284 for the gaskets, and you'll need four of each. This solution is cheaper and easier than the next one, and retains the intended function of the flaps. You may also choose to upgrade the oil separator at the same time.
  • Replace the entire manifold. This is the expensive and comprehensive option. Either use a second-hand manifold from a 2003 or later car, or buy a new one direct from Ford.

More details on all of these can be found in this thread.

How can I tell if I'm affected?

If your car is from around the changeover point, or if you're unsure if the work's already been carried out by a previous owner, the easiest way to establish if your car is affected is to measure the diameter of the oil separator pipe. This seems to have been changed at the same time as the revised manifold was introduced. If the pipe is ½" (just under 13mm) outside diameter, you have the old separator and manifold; if it's ¾" (19mm), you have the new parts. Of course, it's possible an old manifold has been fixed in the past without upgrading the separator.

Unfortunately, this pipe isn't particularly easy to see or access to measure. You need to remove the engine cover first, then your best view of it is with a torch down the gap between the rightmost two cylinders' inlet tracts as you look at the engine. Here's a diagram showing the pipe with the manifold removed:

Oilsep.jpg

The photos below show this pipe being checked with a 15mm open-ended spanner inserted in the gap below the throttle body - the old pipe would fit inside 15mm, but as this car has the new pipe, it doesn't fit. You really don't want to drop anything down there - this spanner has a ring on the other end with an old piece of speaker cable threaded through it to act as a safety rope, visible on the right side of the first photo. You could make a gauge out of stout cardboard with "jaws" around 15mm across if you don't have a suitable spanner to hand.

The car in the photos has been converted to LPG, so ignore the bank of injectors at the top of the first photo. Use the fuel rail pulse damper (the shiny cylindrical thing with the black vacuum pipe) just left of centre to locate the area in the engine bay that you need to look.

Manifold1.jpg

Manifold2.jpg


Edit by hatziman: Another easy way to check your manifold is shown in this YouTube video

What happens if it breaks?

Executive summary: engine failure is likely. The flaps and rod come loose and can fall into the running engine. This is a Bad Thing.

The following is taken from a writeup by Robert Jenkins on his own site that pre-dates the wiki entry. His page is at robertjenkins.co.uk. This FordWiki.co.uk copy is an edited replication to preserve this vital information. All copyright belongs to Robert Jenkins.

Mondeo Mk3 2L Duratec engines can eat their inlet manifolds

In my case, the final failure happened one morning as I started the car in the garage, so it was only running at tickover for a few seconds after the manifold bits went in to the engine and it seems no serious damage was caused to the piston or valves.

I'm probably one of the lucky ones, I'd only spoken to a few people about it before someone said it had happened to them while driving and in their case the engine had to be replaced.

What actually fails

The inlet manifold has an extra set of butterfly valves set in to the flange where it attaches to the cylinder head. These are controlled by a vacuum actuator and appear to be designed to deflect the airflow towards the fuel injectors to give better mixing under low throttle / high manifold vacuum conditions.

The problem is that each butterfly has relatively small moulded-in bearing bushes at the ends, and over time these wear away. Once the bushes are worn through, the long square steel spindle that runs the length of the manifold (to connect the butterfly plates to the vacuum actuator) also starts to wear away at the points it touches the manifold tube walls, and eventually breaks at one or more of these points.

In mine, the steel spindle was in four separate pieces, one of which was in number three cylinder.

This was only the final failure. Two of the butterfly plates were rattling about in the inlet ports and one of these still had another bit of the spindle in it, with the ends nicely rounded over purely due to it bouncing about against the port walls.

Note: replacement butterfly inserts are now available for the new type manifold.

I have not used these myself, but according to reports on the Mondeo forum, they will directly replace the butterfly assemblies on the original type manifold. They apparently do not relate to the old manifold in the Ford part database, presumably as they were not introduced until after the original manifold was discontinued.

A set of these is a fraction of the price of a replacement manifold, but do check that the metal spindle and actuator etc. are still in good order before fitting them - a new manifold is cheaper than a new engine!


The pictures - click an image for a larger view

(For reference, the car is was just under six years old & had always been serviced by a local Ford main dealer)


This is the manifold, as removed. As you can see, two of the butterfly plates are missing - they were in the head ports
This is Port 1, the butterfly plate is out at one side but the stub of spindle (towards port 2) is stopping it falling out completely.
This is Port 2 - in this one the spindle had broken completely at both sides of the butterfly plate, and the plate complete with shaft was in the head port.
You can see quite clearly the way the spindle has been rounded over at the ends - this must have happened a long time ago, it's just luck that this particular bit of metal didn't get into the cylinder.
Port 4 - A straight bit of spindle! This is the longest piece of the spindle, it's still straight and slides freely about in the manifold. When one of the other bits has broken away, it's slid 'forward' and allowed the butterfly plate to drop off intact.
The butterfly plate from No. 4, found in the inlet port.
This is a view of one of the ports, showing the crater that started out as a bearing hole for the bush on the end of a butterfly plate.
A close-up of the same thing..
The set of inserts that support(ed) the butterfly plates, plus the bit of spindle from port 1.
A closer shot of the shaft from port 1.
This is the side of a butterfly assembly, clearly showing the wear of the hole and bush.
And its close-up view.
And the crunch - this is the bit of spindle that ended up in the engine. As you can see, it's almost 50mm long. When I assembled the other parts of the spindle, it was obvious some was missing. I retrieved this with a bit of magnet fishing down the plughole of number three cylinder.
Looking at how mangled that bit of steel is from just a few seconds at tickover, it's not surprising the engine can be wrecked if this happens on the road. After fitting the new manifold, the car runs fine - actually better than before, which is not really surprising as it's no longer got stray bits of plastic partly blocking the inlet ports... The compression readings are excellent and virtually identical on all cylinders, so I think it's safe so say that neither the valves or piston rings were damaged.

If you need any more info on this, you can contact me via TalkFord (username rajenkins).