Cometic steel gasket for 1.6/2.0 engines

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Cometic steel gasket for 1.6/2.0 engines

Post by GsiTurbo »

I just found a company that offers multi-layer steel head gaskets for the 2.0/1.6 family engine - Cometic

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Engine
1.6 LITRE 16V 82MM
Material: MLS.054
Part number: C4257

TC, 2.0 LITRE 4 CYLINDER 88MM
Material: MLS.054
Part number: C4216

FOR MOST MLS LISTINGS ADD HP TO PART NUMBERS FOR NITROUS AND TURBO APPLICATIONS - EXAMPLE C4168HP
Some info on the MLS technology

Cometic Gasket?s advanced engineering and manufacturing process allows us to manufacture
gaskets to fit your specific needs regardless of the material, application or quantity. Our state-of-the-art process
requires no tooling. We can change bore size, intake and exhaust port size and shapes.
The key to manufacturing gaskets is to know the environment the gasket must endure and our
engineering staff will assist you in choosing the gasket and material to fit your needs.
MLS (Multi-Layer Steel Head Gaskets)
Ideal for both aluminum heads to cast iron blocks and aluminum heads to aluminum blocks. Two viton coated
outer embossed spring steel layers with a steel inner layer that provides support to the gasket allowing multiple
thickness. Withstands the shearing forces created by aluminum heads on cast iron blocks. Retains torque (once
the gasket takes a torque set, re-torque is NOT required). Less clamping force is required allowing for reduced
bore distortion.
Available thickness: .025?, .027?, .030?, .036?, .040?, .043?, .045?, .054?, .067?, .078?, .120?
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Post by PrecisionBoost »

I've heard quite a bit about soft copper head gaskets but I'm haven't heard much about steel gaskets.....if their not soft how do they make a good seal?
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Post by GsiTurbo »

Erfinder wrote:I've heard quite a bit about soft copper head gaskets but I'm haven't heard much about steel gaskets.....if their not soft how do they make a good seal?
MLS Head Gaskets

The cylinder head gasket is arguably the most important seal in the automotive engine. Since the birth of the internal combustion engine, gasket designers have specified many materials to meet this critical sealing challenge.

Traditional copper and brass gave way to metal and asbestos in the 1950s, superseded in turn by composite metal and impregnated fibre or graphite composites by the 1980s. However, those systems were largely overtaken by the development of the Multi-Layer Steel (MLS) gasket in Japan during the early 1990s.

MLS gaskets remain the automotive industry's preferred method of sealing between cylinder head and engine block, as yet unmatched by any other sealing system. Today an estimated 80 percent of new engines are designed with MLS gaskets as standard equipment, and further growth is projected.

In the MLS system, multiple thin layers of cold-rolled spring grade stainless steel are coated with 7-25 microns of elastomeric material. The resilient elastomer is essential to the structure by providing micro-sealing of metal surface imperfections while resisting aggressive combustion gases, oils and coolants at temperatures up to 250?C.

The Leading FKM

Fluoroelastomer (FKM) has been adopted by the industry in Europe as the most successful coating material for long-term functionality in this critical sealing environment. Although nitrile rubber (NBR) has been widely used for MLS coating in the US and Japan, rapidly increasing use of FKM is now expected in these regions over the next five years.

The predominant FKM chosen by compounders and MLS gasket manufacturers is Viton? fluoroelastomer. Viton? is applied to MLS gaskets fitted as original equipment to most automobile models assembled in Europe by BMW, Daimler, Fiat, Ford, General Motors, PSA, Renault and Volkswagen.

"Over 80 percent of all MLS gaskets specified for new engine designs in Europe are now coated with Viton?," reports Lucio Corrado, European automotive business development manager for DuPont Dow Elastomers. "Viton? meets stringent industry requirement for a high temperature and aggressive fluids resistant elastomer that can be applied as a very thin coating on a stainless steel substrate to seal micro-asperities between automotive engine heads and blocks."

Viton? offers static sealing at service temperatures ranging from -40?C to as high as 250?C and are highly resistant to fuels and fuel mixtures, oils, coolants and combustion gases. Combined with its excellent long-term compression set resistance, the FKM retains sealing functionality for the lifetime of the vehicle.
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Post by GsiTurbo »

And here is the Chrysler info on replacing the typical head gaskets with the MLS head gasket: Remember it is for Chrysler Hopefully this will help as well.

SUBJECT: Multi-Layer Steel (MLS) Head Gasket Installation Procedures
NO: 09-05-98
GROUP: Engine
DATE: Nov. 6,1998
MODELS:
1995 - 1999 (JA) Cirrus/Stratus/Breeze
1996 - 1999 (JX) Sebring Convertible
1996 - 1999 (NS) Town & Country/Caravan/Voyager
1995 - 1999 (PL) Neon
1997 - 1999 (GS) Chrysler Voyager (international Market)
NOTE: THIS INFORMATION APPLIES TO MODELS WITH A 2.0L SOHC/DOHC OR 2.4L ENGINE.

DISCUSSION:
A new Multi-Layer Steel (MLS) head gasket has been developed and is being implemented into production vehicles. Additionally, it has been approved for service applications.
This new gasket will provide superior sealing characteristics, but will require extra care in its installation where a composite gasket was previously in place. The following steps will assist service technicians in the proper installation of this MLS gasket.

CAUTION: ALUMINUM ENGINE COMPONENTS ARE VERY SUSCEPTIBLE TO METAL TRANSFER AND SURFACE DAMAGE WHEN OLD GASKET MATERIAL IS REMOVED FROM THEM. EXERCISE EXTREME CARE WHEN CLEANING THESE COMPONENTS. THE MLS GASKET CANNOT PROPERLY SEAL IF GOUGING OF THE SURFACES, METAL TRANSFER HAS TAKEN PLACE, OR COMPOSITE GASKET MATERIAL IS LEFT ON THE HEAD OR BLOCK SURFACES.

DIAGNOSIS:
PARTS/EQUIPMENT REQUIRED:

1 5014127AA Package, Head Gasket.1995 - 1999 2.0L SOHC (includes Head Gasket & Instruction Sheet)
1 5014131 AA Package, Head Gasket.1995 - 1999 2.0L SOHC (includes Head Gasket & Instruction Sheet)
1 5014173AA Package, Head Gasket 2.4L (includes Head Gasket & Instruction Sheet)
1 5014132AA Package, Upper Gasket 1995 2.OL SOHC (includes following seals/gaskets- cam sensor, cam front, head, valve cover, spark plug tube, EGR - cover/tube/flange, intake manifold, throttle body & instruction sheet)
1 5014133AA Package, Upper Gasket 1996 - 1999 2.0L- SOHC (includes following seals/gaskets- cam sensor, cam front, head, valve cover, spark plug tube, EGR - cover/tube/flange, intake manifold, throttle body & instruction sheet)
1 5014134AA Package, Upper Gasket 1995 - 1998 2.0L- DQHC (includes following seals/gaskets- cam sensor, cam front, head, valve cover, spark plug tube, EGR - cover/flange, intake manifold, exhaust manifold & instruction sheet)
1 5014136AA Package, Upper Gasket 2.4L (includes following seals/gaskets- cam front, head, valve cover, spark plug tube, intake manifold, exhaust manifold & instruction sheet)
1 04318035 Sealant, Aerosol Gasket
AR NPN Solvent
1 NPN Plastic/Wooden Scraper
AR(1) 07528 2", 3M Roloc Bristle Disk White (for aluminum engine surfaces)
AR(1) 07525 2", 3M Roloc Bristle Disk Yellow (aluminum/cast iron/steel surfaces)
1 05539 2", 3M Roloc Bristle Disk Arbor
1 NPN Drill Motor

REPAIR PROCEDURE:
This bulletin explains the proper procedures for preparing head/block surfaces for MLS gasket installation.

1 . Following service manual procedures, remove the head.

2. Remove as much of the loose composite gasket material with a plastic or wooden scraper.

NOTE: PRIOR TO ADDITIONAL CLEANING, INSPECT THE COOLING PASSAGES OF THE HEAD. REPLACEMENT OF THE HEAD MAY BE REQUIRED IF PITTING/EROSION HAS TAKEN PLACE THAT WILL COMPROMISE THE SEALING SURFACES AROUND THE PASSAGES.

3. Cover coolant and oil passages and apply solvent or a commercially available gasket cleaner to the head/block surfaces. Allow the solvent to soften the remaining composite gasket residue.

4. Using a plastic or wooden scraper, scrape any large amounts of gasket residue from the surfaces. If necessary, apply additional solvent/gasket remover to ease removal.

5. If additional cleaning is needed, use a drill motor and 3M roloc bristle disc p/n 07528 (white) carefully remove remaining gasket material from head/block
NOTE: IF DIFFICULT TO REMOVE RESIDUE IS LEFT, THE YELLOW ROLOC BRISTLE DISK 3M P/N 07525 CAN BE USED. USE EXTREME CARE WHEN POWER CLEANING ALUMINUM SURFACES. EXCESS CLEANING PRESSURE OR HIGH RPM CAN CAUSE ALUMINUM TRANSFER.

6. Inspect the sealing surfaces for any composite gasket residue. Carefully remove remaining material.

7. The head and block must be checked for flatness. Follow service manual procedures/specifications where applicable. Machine or replace components as necessary.

8. Spray both sides of the MLS gasket with a coat of MOPAR spray gasket sealant p/n 04318035.

9. Re-assemble the engine as outlined in the appropriate service manual. Pay particular attention to head bolt torque and torquing procedures. (Refer to figure 1)

CAUTION: THE 2.0L DOHC CYLINDER HEAD BOLT TORQUE AND TORQUING PROCEDURE HAS CHANGED FOR THE MLS GASKET. THE TORQUE SPECIFICATIONS AND PROCEDURES FOR THE 2.OL DOHC MUST BE CHANGED AS FOLLOWS: ALL HEAD BOLTS SHOULD BE OILED PRIOR TO ASSEMBLY, THE FOUR SHORT BOLTS ARE INSTALLED IN THE CORNER HOLES. TORQUE SEQUENCE IS SHOWN IN FIGURE 1.

1. TORQUE ALL CENTER BOLTS TO 34 NM (25 FT LBS.), TORQUE THE 4 CORNER BOLTS TO 27 NM (20 FT LBS.).

2. TORQUE ALL CENTER BOLTS TO 68 NM (50 FT LBS.), TORQUE THE 4 CORNER BOLTS TO 47 NM (35 FT LBS.).

3. RE-TORQUE ALL CENTER BOLTS TO 68 NM (50 FT LBS.), TORQUE THE 4 CORNER BOLTS TO 47 NM (35 FT LBS.).

4. TIGHTEN ALL BOLTS IN THE SPECIFIED SEQUENCE AN ADDITIONAL 900 (1/4 TURN).


10. Be sure to install a new cam sensor seal on all engine applications.

NOTE: A NEW CAM SENSOR SEAL MUST BE INSTALLED DURING THE HEAD GASKET REPLACEMENT PROCEDURE. OIL SEEPAGE FROM THIS SEAL CAN BE MISINTERPRETED AS A HEAD GASKET LEAK.
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Post by GsiTurbo »

Wow...things are only getting cooler... I found this reading - I think the rules pretty much apply to the previous-generation head gaskets.

PREVENTING REPEAT HEAD GASKET FAILURES

by Larry Carley, Copyright 2000 CarleySoftware.com

When a head gasket is installed between the cylinder head and engine block, tightening the head bolts compresses the gasket slightly allowing the soft facing material on the gasket to conform to the small irregularities on the head and block deck surfaces. This allows the gasket to "cold seal" so it won?t leak coolant until the engine is started.

The head gasket?s ability to achieve a positive cold seal as well as to maintain a long-lasting leak-free seal depends on several things: it?s own ability to retain torque over time (which depends on the design of the gasket and the materials used in its construction), surface finish and the clamping force applied by the head bolts.

Some head gaskets remain resilient and retain torque better than others, so they do not require retorquing. Others, though, can lose as much as 50 to 60% of their original torque after only 100 hours of service!

But even the best head gasket won?t maintain a tight seal if the head bolts have not been properly torqued. The amount of torque that?s applied to the bolts as well as the order in which the bolts are tightened determine how the clamping force is distributed across the surface of the gasket. If one area of the gasket is under high clamping force while another area is not, it may allow the gasket to leak at the weakly clamped point. So the head bolts must all be tightened in a specified sequence and equally torqued to a specified value to assure the best possible seal.

Another consequence of failing to torque the head bolts properly can be head warpage. Uneven loading created by unevenly tightened head bolts can distort the head. Over a period of time, this may cause the head to take a permanent set. So any head that has not been properly torqued should be checked for flatness prior to installing a new head gasket.

FLATNESS CHECKS

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Before the head goes back on the block, the flatness of both the head and block should be checked to make sure both are flat enough to provide a good seal for the new gasket. Warpage on either surface, deep scratches, corrosion, pitting, gouges, excessive roughness or waviness can all reduce a gasket?s ability to seal and allow combustion gases and/or coolant to leak.

Place the straight edge on the face of the cylinder head or block and then use a feeler gauge to check any gaps between the straight edge and the surface. If the clearance between the straight edge and surface exceeds the following maximum limits, the head or block is not flat enough to hold a good seal and should be resurfaced:

Out-of-flat lengthwise should not be more than .003 in. (0.076 mm) in a V6 head, .004 in. (0.102 mm) in a four cylinder or V8 head, or .006 in. (0.152 mm) in a straight six head. The maximum allowable limit for out-of-flat sideways in any head is .002 in. (.05 mm) -- with no sudden irregularities that exceed .001 in in any direction.

If you?re checking flatness on a late model Japanese engine that has a multi-layer steel (MLS) head gasket, both sealing surfaces must be even flatter: no more than .002 in. (.05 mm) of total distortion (that is, block plus the head combined) in any direction. Engines that use this type of gasket include 1990 & up Honda Accord 1.8L, 1990 & up Honda 1.5L, 2.2L & 2.3L, 1988 to ?92 Mazda 3.0L V6, 1990 & up Mazda SOHC & DOHC 1.8L, and 1992 & up Mazda 1.8L.

Any head that fails to meet these specs needs to be straightened and/or resurfaced.

Milling a head to restore flatness has its limits because milling affects the installed height of the head. On overhead cam (OHC) engines, this can alter the OHC cam drive geometry enough to retard cam timing which can adversely effect emissions, performance and driveability. Milling also reduces the volume of the combustion chamber which increases compression and the risk of engine damaging detonation. It also reduces the clearance between the valves and pistons, which on some engines is pretty close already.

To minimize changes in head height, the amount of metal that?s removed when resurfacing should always be kept to a bare minimum. In other words, your machine shop should not remove any more metal than is absolutely necessary to restore proper flatness and surface finish.

A head can usually be "cleaned up" by removing only a couple thousandths of metal?unless it is warped or damaged, in which case the amount of metal that has to be removed will depend on how badly the head is warped or the depth of the surface depressions or damage. In cases where a head is cracked and has been repaired by welding or pinning, it may be necessary to take off a considerable amount of metal to restore the surface.

Aluminum heads should always be straightened prior to resurfacing. This will substantially reduce the amount of metal that has to be removed from the head to restore flatness.

If a head cannot be restored without exceeding the resurfacing limit specified by the vehicle manufacturer, it may be possible to save the head by installing a head gasket shim. A .020 inch thick shim can be used to restore proper head height, compression and OHC valve timing. Shims are designed to be be used with standard head gaskets, and should be coated with a tacky sealer on the block side before the head gasket is installed over it.

WATCH FOR SURFACE FLAWS, TOO

The surfaces of both the head and block should be carefully inspected for pitting, corrosion, metal erosion (common on high mileage aluminum heads around combustion chambers), gouges and cracks. Any flaw which creates a cavity, low spot, valley, depression or ridge on the surface of the metal creates a potential leak path. Pay particular attention to the areas between the cylinders on the block, between the combustion chambers on the head, and where the combustion armor of the head gasket seats around the cylinders on both surfaces as these are the most highly stressed sealing areas. Any surface flaws that are found should be eliminated by resurfacing the head or block.

RESURFACING

For years, most aftermarket gasket manufacturers have said surface finishes with a roughness average (RA) of anywhere from 55 to 110 microinches (60 to 125 RMS) are acceptable. The preferred range they have recommended is from 80 to 100 RA. Even so, as long as the surface finish on the head and block end up somewhere between the minimum smoothness and maximum roughness numbers, there shouldn?t be any cold sealing or durability problems with the head gasket.

But like everything else, these numbers have been changing. These recommendations were primarily for older cast iron heads on cast iron blocks. As castings have become lighter and less rigid, the need for smoother, flatter surfaces has become more important. Consequently, some aftermarket gasket manufacturers now recommend a surface finish of 30 to 110 RA for cast iron head and block combinations, with a preferred range of 60 to 100 RA for best results.

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For aluminum heads, the numbers are even lower. The typical recommendation today for an aluminum head on an OHC bimetal engine is a surface finish of 30 to 60 RA, with the preferred range being from 50 to 60 RA?unless, of course, it?s one of the Japanese engines already mentioned with the MLS steel head gaskets which requires an even smoother finish (typically 20 to 30 RA).

It?s not difficult for the OEM?s to achieve this type of mirror-like finish when they manufacture a brand new engine on an assembly line. But not every aftermarket machine shop has the proper equipment to reproduce this kind of finish. So some experts say heads that mate to MLS gaskets should not be resurfaced unless absolutely necessary. For this reason, you should use extra care when removing the old head gasket so you don?t scratch or change the surface finish.

INSTALLING THE HEAD BOLTS

Make sure all head bolts are in perfect condition with clean, undamaged threads. Dirty or damaged threads can give false torque readings as well as decrease a bolt?s clamping force by as much as 50%! Wire brush all bolt threads, carefully inspect each one, and replace any that are nicked, deformed or worn.

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Check the holes, too. Dirty or deformed hole threads in the engine block can reduce clamping force the same as dirty or damaged threads on the bolts. Run a bottoming tap down each bolt hole in the block. The tops of the holes should also be chamfered so the uppermost threads won?t pull above the deck surface when the bolts are tightened. Finally, clean all holes to remove any debris.

Lightly lubricate all head bolts that screw into blind holes. Apply 30W engine oil to the threads as well as the underside of the bolt head. For head bolts that extend into a coolant jacket, coat the threads with a flexible sealer (failure to do so may result in coolant leakage).

If the bolts are the "torque-to-yield" (TTY) type, you should probably use new ones rather than take a chance on reusing old bolts that have stretched. TTY bolts are usually longer and narrower than ordinary head bolts, and are designed to stretch slightly when tightened to provide more consistent clamping force. But reusing them increases the risk of breakage. A stretched bolt may also not hold the same torque load as before, which may cause a loss of clamping force resulting in head gasket leakage.

Check bolt lengths. Make sure you have the correct length bolts for the application and for each hole location (some holes require longer or shorter bolts than others).

Bolts should also be measured or compared to one another to check for stretch. Any bolt found to be stretched must be replaced because (1) it may be dangerously weak, (2) it won?t hold torque properly, and (3) it may bottom out when installed in a blind hole.

When installing head bolts in aluminum cylinder heads, hardened steel washers must be used under the bolt heads to prevent galling of the soft aluminum and to help distribute the load. Make sure the washers are positioned with their rounded or chamfered side up, and that there is no debris or burrs under the washers.

Resurfacing a cylinder head decreases its overall height, so be sure to check bolt lengths to make sure they won?t bottom out in blind holes. If a bolt bottoms out, it will apply little or no clamping force on the head which may allow the gasket to leak.

If a head has been milled and one or more head bolts may be dangerously close to bottoming out, the problem can be corrected by either using hardened steel washers under the bolts to raise them up, or by using a head gasket shim in conjunction with the new head gasket to restore proper head height.

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Always use the specified tightening sequence and recommended head bolt torque values for the engine you?re working on?and make sure you have the latest specs because the torque specs on some engines have been revised since they were first published. If your reference material is more than a few years old, it may be out of date. A good source any changes that may have occurred would be an online service such as All-Data that allows you to search factory TSBs (technical service bulletins). Another source for engine bulletins is the Automotive Engine Rebuilders Association (AERA).

Also, keep in mind that the listed torque valves are for head bolts that have been lightly lubricated with 30W engine oil only, not for dry bolts or ones that have been coated with anything else (assembly lube, graphite, silicone, grease, etc.).

Use an accurate torque wrench to tighten standard head bolts in 3 to 5 incremental steps following the recommended sequence and torque specs for the application. Tightening the bolts down gradually creates an even clamping force on the gasket and reduces head distortion. It?s a good idea to double check the final torque readings on each head bolt to make sure none have been missed and that the bolts are retaining torque normally.

If a bolt is not coming up to normal torque or is not holding a reading, it means trouble. Either the bolt is stretching or the threads are pulling out of the block.

With TTY head bolts, a "Torque-To-Angle Indicator" should be used in conjunction with a torque wrench to achieve proper bolt loading.

Finally, if a head gasket is the type that requires retorquing, run the engine until it reaches normal operating temperature (usually 10 to 15 minutes), then shut it off. Retighten each head bolt in the same sequence as before while the engine is still warm. If the engine has an aluminum cylinder head or block, however, wait to retorque the head bolts until the engine has cooled back down to room temperature.

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On some applications with retorque style head gaskets, it may be necessary to retorque the head a third time after a specified time or mileage interval due to the design of the engine. Follow the vehicle or gasket manufacturer?s recommendations.

BTW, this is the engine from Chrysler SRT-4...stock numbers are 237 whp and 245 lbs of torque :lol:
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Post by gti_7 »

GsiTurbo wrote:snip.. BTW, this is the engine from Chrysler SRT-4...stock numbers are 237 whp and 245 lbs of torque :lol:




Have you seen the vid of the guy with 501 at the wheels in his srt4? :shock: and it's still running the stock clutch! :twisted: he also claims with more tuning he has an additional 50hp to squeeze out! and the motors all stock top to bottom.. has mods.. but its all stock rods and pistons!

Bernard
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