lock CHRYSLER VOYAGER 2001 Service Manual

INSTALLATION - TIMING BELT
CAUTION: The crankshaft sprocket is set to a pre-
determined depth from the factory for correct tim-
ing belt tracking. If removed, use of Special Tool
6792 is required to set the sprocket to original
installation depth. An incorrectly installed sprocket
will result in timing belt and engine damage.
(1) Set crankshaft sprocket to TDC by aligning the
sprocket with the arrow on the oil pump housing.(2) Set camshafts timing marks so that the
exhaust camshaft sprocket is a 1/2 notch below the
intake camshaft sprocket (Fig. 121).
CAUTION: Ensure that the arrows on both camshaft
sprockets are facing up.
(3) Install timing belt. Starting at the crankshaft,
go around the water pump sprocket, idler pulley,
camshaft sprockets and then around the tensioner
(Fig. 122).
(4) Move the exhaust camshaft sprocket counter-
clockwise (Fig. 122) to align marks and take up belt
slack.
NOTE: A new tensioner is held in the wound posi-
tion by a pull pin.
Fig. 118 Locking Timing Tensioner
1 - ALLEN WRENCH - 1/8 OR 3 mm
2 - BELT TENSIONER
3 - ALLEN WRENCH-6mm
Fig. 119 Crankshaft Sprocket - Removal
1 - SPECIAL TOOL 6793
2 - SPECIAL TOOL C-4685±C2
3 - CRANKSHAFT SPROCKET
Fig. 120 Crankshaft Sprocket - Installation
1 - SPECIAL TOOL 6792
2 - TIGHTEN NUT TO INSTALL
Fig. 121 Camshaft Sprocket Alignment
1 - CAMSHAFT SPROCKET-EXHAUST
2 - CAMSHAFT SPROCKET-INTAKE
3 - 1/2 NOTCH LOCATION
RSENGINE 2.4L9-63
TIMING BELT AND SPROCKET(S) (Continued)

(5) Remove the pull pin or Allen wrench from the
belt tensioner.
(6) Once the timing belt has been installed and
tensioner released, rotate the crankshaft two (2) com-
plete revolutions. Verify that the TDC marks on
crankshaft and timing marks on the camshafts are
aligned as shown in (Fig. 123).
(7) Install engine mount bracket to engine (Fig.
116).
(8) Install timing belt front covers and bolts.
(Refer to 9 - ENGINE/VALVE TIMING/TIMING
BELT / CHAIN COVER(S) - INSTALLATION)
(9) Install air conditioning/generator belt tensioner
and pulley. (Refer to 7 - COOLING/ACCESSORY
DRIVE/BELT TENSIONERS - INSTALLATION)
(10) Install right engine mount. (Refer to 9 -
ENGINE/ENGINE MOUNTING/RIGHT MOUNT -
INSTALLATION)(11) Install crankshaft vibration damper. (Refer to
9 - ENGINE/ENGINE BLOCK/VIBRATION
DAMPER - INSTALLATION)
(12) Install accessory drive belts. (Refer to 7 -
COOLING/ACCESSORY DRIVE/DRIVE BELTS -
INSTALLATION)
(13) Install drive belt splash shield.
(14) Install right front wheel.
(15) Connect make-up air hose to cylinder head
cover.
(16) Install air cleaner housing, upper cover, and
clean air tube.
TIMING BELT TENSIONER &
PULLEY
REMOVAL
(1) Remove the timing belt. (Refer to 9 - ENGINE/
VALVE TIMING/TIMING BELT/CHAIN AND
SPROCKETS - REMOVAL)
(2) Remove timing belt idler pulley.
(3) Hold camshaft sprocket with Special Tool 6847
while removing bolt (Fig. 124). Remove both cam
sprockets.
Fig. 122 Timing Belt - Installation
1 - ROTATE CAMSHAFT SPROCKET TO TAKE UP BELT SLACK
2 - CAMSHAFT TIMING MARKS 1/2 NOTCH LOCATION
3 - CRANKSHAFT AT TDC
4 - INSTALL BELT IN THIS DIRECTION
Fig. 123 Crankshaft and Camshaft Timing
1 - CAMSHAFT TIMING MARKS
2 - CRANKSHAFT TDC MARKS
3 - TRAILING EDGE OF SPROCKET TOOTH
9 - 64 ENGINE 2.4LRS
TIMING BELT AND SPROCKET(S) (Continued)

BALANCE SHAFT
DESCRIPTION
The 2.4L engine is equipped with two nodular cast
iron balance shafts installed in a cast aluminum car-
rier attached to the lower cylinder block (Fig. 127).
OPERATION
The balance shafts are driven by the crankshaft
via a roller chain and sprockets. The balance shafts
are connected by helical gears. The dual counter
rotating shafts decrease second order vertical shak-
ing forces caused by component movement.
REMOVAL
BALANCE SHAFTS
(1) Drain engine oil.
(2) Remove the oil pan. (Refer to 9 - ENGINE/LU-
BRICATION/OIL PAN - REMOVAL)
(3) Remove chain cover, guide and tensioner (Fig.
128). Also see Carrier Assembly Removal for serviceprocedures requiring only temporary relocation of
assembly.
(4) Remove gear cover retaining stud (double
ended to also retain chain guide). Remove cover and
balance shaft gears (Fig. 128).
(5) Remove balance shaft gear, chain sprocket
retaining screws, and crankshaft chain sprocket.
Remove chain and sprocket assembly (Fig. 129).
Using two wide pry bars, work the sprocket back and
forth until it is off the shaft.
(6) Remove carrier gear cover and balance shafts
(Fig. 130).
(7) Remove four carrier to crankcase attaching
bolts to separate carrier from engine bedplate.
BALANCE SHAFT CARRIER
The following components will remain intact dur-
ing carrier removal. Gear cover, gears, balance shafts
and the rear cover (Fig. 131).
(1) Remove chain cover and driven balance shaft
chain sprocket screw.
(2) Loosen tensioner pivot and adjusting screws,
move driven balance shaft inboard through driven
Fig. 127 Balance Shafts and Carrier Assembly
1 - SPROCKET 7 - GEARS
2 - TENSIONER 8 - GEAR COVER
3 - PLUG 9 - CHAIN COVER
4 - CARRIER 10 - SPROCKET
5 - REAR COVER 11 - GUIDE
6 - BALANCE SHAFTS 12 - CHAIN
9 - 66 ENGINE 2.4LRS

NOTE: The lower plated link is 8 links from the
upper link.
(9) With balance shaft keyways pointing up (12
o'clock) slide the balance shaft sprocket onto the nose
of the balance shaft. The balance shaft may have to
be pushed in slightly to allow for clearance.
NOTE: THE TIMING MARK ON THE SPROCKET, THE
(LOWER) NICKEL PLATED LINK, AND THE ARROW
ON THE SIDE OF THE GEAR COVER SHOULD LINE
UP WHEN THE BALANCE SHAFTS ARE TIMED
CORRECTLY.(10) If the sprockets are timed correctly, install the
balance shaft bolts and tighten to 28 N´m (250 in.
lbs.). A wood block placed between crankcase and
crankshaft counterbalance will prevent crankshaft
and gear rotation.
(11)CHAIN TENSIONING:
(a) Install chain tensioner loosely assembled.
(b) Position guide on double ended stud making
sure tab on the guide fits into slot on the gear
cover. Install and tighten nut/washer assembly to
12 N´m (105 in. lbs.).
(c) Place a shim 1 mm (0.039 in.) thick x 70 mm
(2.75 in.) long or between tensioner and chain.
Push tensioner and shim up against the chain.
Apply firm pressure 2.5±3 Kg (5.5±6.6 lbs.)
directly behind the adjustment slot to take up
all slack.Chain must have shoe radius contact as
shown in (Fig. 136).
(d) With the load applied, tighten top tensioner
bolt first, then bottom pivot bolt. Tighten bolts to
12 N´m (105 in. lbs.). Remove shim.
(e) Install carrier covers and tighten screws to
12 N´m (105 in. lbs.).
(12) Install pick-up tube and oil pan.
(13) Fill engine crankcase with proper oil to cor-
rect level.
Fig. 135 Balance Shaft Timing
1 - MARK ON SPROCKET
2 - KEYWAYS UP
3 - ALIGN MARKS
4 - PLATED LINK
5 - PARTING LINE (BEDPLATE TO BLOCK)
6 - PLATED LINK
Fig. 136 Chain Tension Adjustment
1 - 1MM (0.039 IN.) SHIM
2 - TENSIONER (ADJUSTER) BOLT
3 - PIVOT BOLT
RSENGINE 2.4L9-69
BALANCE SHAFT (Continued)

ENGINE 3.3/3.8L
TABLE OF CONTENTS
page page
ENGINE 3.3/3.8L
DESCRIPTION...........................73
DIAGNOSIS AND TESTING.................74
ENGINE..............................74
ENGINE DIAGNOSIS - PERFORMANCE......74
ENGINE DIAGNOSIS - MECHANICAL........76
ENGINE OIL LEAK INSPECTION...........77
CYLINDER COMPRESSION PRESSURE
TEST................................78
CYLINDER COMBUSTION PRESSURE
LEAKAGE TEST........................79
STANDARD PROCEDURE..................79
MEASURING WITH PLASTIGAGE..........79
FORM-IN-PLACE GASKETS AND SEALERS. . . 79
ENGINE GASKET SURFACE PREPARATION . . 80
HYDROSTATIC LOCKED ENGINE..........81
REPAIR OF DAMAGED OR WORN
THREADS.............................81
ENGINE CORE AND OIL GALLERY PLUGS . . . 81
REMOVAL..............................82
INSTALLATION...........................84
SPECIFICATIONS........................86
SPECIAL TOOLS.........................90
AIR CLEANER ELEMENT
REMOVAL..............................93
INSTALLATION...........................93
AIR CLEANER HOUSING
REMOVAL..............................93
INSTALLATION...........................93
CYLINDER HEAD
DESCRIPTION...........................94
OPERATION.............................94
DIAGNOSIS AND TESTING.................94
CYLINDER HEAD GASKET...............94
REMOVAL..............................95
CLEANING..............................95
INSPECTION............................96
INSTALLATION...........................96
CYLINDER HEAD COVER(S)
DESCRIPTION...........................97
CYLINDER HEAD COVER - RIGHT
REMOVAL..............................97
INSTALLATION...........................98
CYLINDER HEAD COVER - LEFT
REMOVAL..............................98
INSTALLATION...........................99
INTAKE/EXHAUST VALVES & SEATS
DESCRIPTION...........................99
OPERATION.............................99STANDARD PROCEDURE..................99
VALVE SERVICE.......................99
REMOVAL.............................100
CLEANING.............................100
INSPECTION...........................100
INSTALLATION..........................101
VALVE SPRINGS
DESCRIPTION..........................101
OPERATION............................101
REMOVAL.............................101
INSPECTION...........................103
INSTALLATION..........................103
ROCKER ARMS
DESCRIPTION..........................103
OPERATION............................104
REMOVAL.............................104
DISASSEMBLY..........................105
ASSEMBLY............................105
INSTALLATION..........................105
VALVE STEM SEALS
DESCRIPTION..........................106
REMOVAL.............................106
INSTALLATION..........................106
ENGINE BLOCK
DESCRIPTION..........................106
STANDARD PROCEDURE.................106
CYLINDER BORE HONING...............106
CLEANING.............................107
INSPECTION...........................107
CAMSHAFT & BEARINGS (IN BLOCK)
DESCRIPTION..........................107
OPERATION............................107
REMOVAL.............................107
INSPECTION...........................108
INSTALLATION..........................108
CONNECTING ROD BEARINGS
STANDARD PROCEDURE.................109
CONNECTING ROD BEARING - FITTING....109
CRANKSHAFT
DESCRIPTION..........................109
OPERATION............................110
STANDARD PROCEDURE.................110
CRANKSHAFT END PLAY................110
REMOVAL.............................110
INSPECTION...........................111
INSTALLATION..........................111
CRANKSHAFT MAIN BEARINGS
STANDARD PROCEDURE.................113
CRANKSHAFT MAIN BEARING - FITTING . . . 113
RSENGINE 3.3/3.8L9-71

REMOVAL.............................114
INSTALLATION..........................115
CRANKSHAFT OIL SEAL - FRONT
REMOVAL.............................115
INSTALLATION..........................115
CRANKSHAFT OIL SEAL - REAR
REMOVAL.............................116
INSTALLATION..........................117
CRANKSHAFT REAR OIL SEAL RETAINER
REMOVAL.............................117
INSTALLATION..........................117
FLEX PLATE
REMOVAL.............................118
INSTALLATION..........................118
HYDRAULIC LIFTERS (CAM IN BLOCK)
DESCRIPTION..........................118
DIAGNOSIS AND TESTING................118
HYDRAULIC LIFTERS...................118
REMOVAL.............................119
INSTALLATION..........................119
PISTON & CONNECTING ROD
DESCRIPTION..........................119
OPERATION............................120
STANDARD PROCEDURE.................120
CONNECTING ROD AND BEARING -
FITTING.............................120
PISTON - FITTING.....................121
REMOVAL.............................121
INSTALLATION..........................122
PISTON RINGS
STANDARD PROCEDURE.................124
PISTON RING - FITTING................124
REMOVAL.............................124
INSTALLATION..........................125
VIBRATION DAMPER
REMOVAL.............................126
INSTALLATION..........................126
ENGINE MOUNTING
DESCRIPTION..........................127
FRONT MOUNT
REMOVAL.............................127
INSTALLATION..........................127
LEFT MOUNT
REMOVAL.............................128
INSTALLATION..........................128
REAR MOUNT
REMOVAL.............................129
INSTALLATION..........................130
RIGHT MOUNT
REMOVAL.............................130
INSTALLATION..........................131
LUBRICATION
DESCRIPTION..........................131
OPERATION............................131
DIAGNOSIS AND TESTING................131
ENGINE OIL PRESSURE................131OIL
STANDARD PROCEDURE.................132
ENGINE OIL CHANGE..................132
ENGINE OIL LEVEL CHECK..............133
OIL COOLER & LINES
DESCRIPTION..........................134
OPERATION............................134
REMOVAL.............................134
INSTALLATION..........................134
OIL FILTER
REMOVAL.............................135
INSTALLATION..........................135
OIL FILTER ADAPTER
REMOVAL.............................135
INSTALLATION..........................135
OIL PAN
REMOVAL.............................136
CLEANING.............................136
INSPECTION...........................136
INSTALLATION..........................136
OIL PRESSURE RELIEF VALVE
REMOVAL.............................137
INSTALLATION..........................137
OIL PRESSURE SENSOR/SWITCH
DESCRIPTION..........................137
OPERATION............................138
REMOVAL.............................138
INSTALLATION..........................138
OIL PUMP
DESCRIPTION..........................138
REMOVAL.............................138
DISASSEMBLY..........................138
CLEANING.............................138
INSPECTION...........................138
ASSEMBLY............................140
INSTALLATION..........................140
INTAKE MANIFOLD
DESCRIPTION..........................140
OPERATION............................141
DIAGNOSIS AND TESTING................141
INTAKE MANIFOLD LEAKS..............141
INTAKE MANIFOLD - UPPER 3.3L
STANDARD PROCEDURE.................141
MANIFOLD STRIPPED THREAD REPAIR....141
INTAKE MANIFOLD VACUUM PORT REPAIR . 142
REMOVAL.............................143
CLEANING.............................144
INSPECTION...........................144
INSTALLATION..........................144
INTAKE MANIFOLD - UPPER 3.8L
REMOVAL.............................145
CLEANING.............................146
INSPECTION...........................147
INSTALLATION..........................147
INTAKE MANIFOLD - LOWER
REMOVAL.............................148
CLEANING.............................148
9 - 72 ENGINE 3.3/3.8LRS

INSPECTION...........................148
INSTALLATION..........................149
EXHAUST MANIFOLD
DESCRIPTION..........................150
OPERATION............................150
EXHAUST MANIFOLD - RIGHT
REMOVAL.............................150
CLEANING.............................151
INSPECTION...........................151
INSTALLATION..........................151
EXHAUST MANIFOLD - LEFT
REMOVAL.............................152
CLEANING.............................152INSPECTION...........................153
INSTALLATION..........................153
VALVE TIMING
STANDARD PROCEDURE.................153
VALVE TIMING VERIFICATION............153
TIMING CHAIN COVER
REMOVAL.............................153
INSTALLATION..........................154
TIMING CHAIN AND SPROCKETS
REMOVAL.............................156
INSPECTION...........................156
INSTALLATION..........................157
ENGINE 3.3/3.8L
DESCRIPTION
The 3.3 Liter (201 cu. in.) and 3.8 Liter (231 cu.
in.) engines are 60É V-6 engines with cast iron cylin-
der blocks and aluminum cylinder heads (Fig. 1). The
engine uses a single, block mounted camshaft with
pushrods to actuate the valves. These engines do not
have provisions for a free wheeling valve train.The firing order is 1±2±3±4±5±6. The cylinders are
numbered from the front of the engine to the rear.
The front cylinder bank is numbered 2, 4, and 6. The
rear cylinder bank is numbered 1, 3, and 5.
The engine identification number is located on the
rear of the cylinder block just below the cylinder
head (Fig. 2).
Fig. 1 3.3/3.8L V-6 Engines
RSENGINE 3.3/3.8L9-73

²Gradually apply air pressure from 1 psi to 2.5
psi maximum while applying soapy water at the sus-
pected source. Adjust the regulator to the suitable
test pressure that provides the best bubbles which
will pinpoint the leak source. If the oil leak is
detected and identified, repair per service manual
procedures.
²If the leakage occurs at the crankshaft rear oil
seal area, refer to the section, Inspection for Rear
Seal Area Leak.
(6) If no leaks are detected, turn off the air supply.
Remove the air hose, all plugs, and caps. Install the
PCV valve and fresh air hose (make-up air). Proceed
to next step.
(7) Clean the oil off the suspect oil leak area using
a suitable solvent. Drive the vehicle at various
speeds approximately 24 km (15 miles). Inspect the
engine for signs of an oil leak by using a black light.
NOTE: If oil leakage is observed at the dipstick tube
to block location; remove the tube, clean and reseal
using MoparTStud & Bearing Mount (press fit tube
applications only), and for O-ring style tubes,
remove tube and replace the O-ring seal.
INSPECTION FOR REAR SEAL AREA LEAKS
Since it is sometimes difficult to determine the
source of an oil leak in the rear seal area of the
engine, a more involved inspection is necessary. The
following steps should be followed to help pinpoint
the source of the leak.
If the leakage occurs at the crankshaft rear oil seal
area:
(1) Disconnect the battery.
(2) Raise the vehicle.
(3) Remove torque converter or clutch housing
cover and inspect rear of block for evidence of oil.
Use a black light to check for the oil leak. If a leak is
present in this area, remove transmission for further
inspection.
(a) Circular spray pattern generally indicates
seal leakage or crankshaft damage.
(b) Where leakage tends to run straight down,
possible causes are a porous block, oil gallery cup
plug, bedplate to cylinder block mating surfaces
and seal bore. See proper repair procedures for
these items.
(4) If no leaks are detected, pressurize the crank-
case as previously described.
CAUTION: Do not exceed 20.6 kPa (3 psi).
(5) If the leak is not detected, very slowly turn the
crankshaft and watch for leakage. If a leak is
detected between the crankshaft and seal while
slowly turning the crankshaft, it is possible thecrankshaft seal surface is damaged. The seal area on
the crankshaft could have minor nicks or scratches
that can be polished out with emery cloth.
CAUTION: Use extreme caution when crankshaft
polishing is necessary to remove minor nicks and
scratches. The crankshaft seal flange is especially
machined to complement the function of the rear oil
seal.
(6) For bubbles that remain steady with shaft
rotation, no further inspection can be done until dis-
assembled.
(7) After the oil leak root cause and appropriate
corrective action have been identified, replace compo-
nent(s) as necessary.
DIAGNOSIS AND TESTING - CYLINDER
COMPRESSION PRESSURE
The results of a cylinder compression pressure test
can be utilized to diagnose several engine malfunc-
tions.
Ensure the battery is completely charged and the
engine starter motor is in good operating condition.
Otherwise the indicated compression pressures may
not be valid for diagnosis purposes.
(1) Check engine oil level and add oil if necessary.
(2) Drive the vehicle until engine reaches normal
operating temperature. Select a route free from traf-
fic and other forms of congestion, observe all traffic
laws, and accelerate through the gears several times
briskly.
(3) Remove all spark plugs from engine. As spark
plugs are being removed, check electrodes for abnor-
mal firing indicators fouled, hot, oily, etc. Record cyl-
inder number of spark plug for future reference.
(4) Disconnect the ignition coil electrical connector.
(5) Be sure throttle blade is fully open during the
compression check.
(6) Insert compression gage adaptor Special Tool
8116 or the equivalent, into the #1 spark plug hole in
cylinder head. Connect the 0±500 psi (Blue) pressure
transducer with cable adaptors to the DRBIIIt.
(7) Crank engine until maximum pressure is
reached on gage. Record this pressure as #1 cylinder
pressure.
(8) Repeat the previous step for all remaining cyl-
inders.
(9) Compression should not be less than 689 kPa
(100 psi) and not vary more than 25 percent from cyl-
inder to cylinder.
(10) If one or more cylinders have abnormally low
compression pressures, repeat the compression test.
(11) If the same cylinder or cylinders repeat an
abnormally low reading on the second compression
test, it could indicate the existence of a problem in
9 - 78 ENGINE 3.3/3.8LRS
ENGINE 3.3/3.8L (Continued)

the cylinder in question.The recommended com-
pression pressures are to be used only as a
guide to diagnosing engine problems. An engine
should not be disassembled to determine the
cause of low compression unless some malfunc-
tion is present.
DIAGNOSIS AND TESTING - CYLINDER
COMBUSTION PRESSURE LEAKAGE
The combustion pressure leakage test provides an
accurate means for determining engine condition.
Combustion pressure leakage testing will detect:
²Exhaust and intake valve leaks (improper seat-
ing).
²Leaks between adjacent cylinders or into water
jacket.
²Any causes for combustion/compression pressure
loss.
WARNING: DO NOT REMOVE THE RADIATOR CAP
WITH THE SYSTEM HOT AND UNDER PRESSURE
BECAUSE SERIOUS BURNS FROM COOLANT CAN
OCCUR.
Check the coolant level and fill as required. DO
NOT install the radiator cap.
Start and operate the engine until it attains nor-
mal operating temperature, then turn the engine
OFF.
Clean spark plug recesses with compressed air.
Remove the spark plugs.
Remove the oil filler cap.
Remove the air cleaner.
Calibrate the tester according to the manufactur-
er's instructions. The shop air source for testing
should maintain 483 kPa (70 psi) minimum, 1,379
kPa (200 psi) maximum, with 552 kPa (80 psi) rec-
ommended.
Perform the test procedures on each cylinder
according to the tester manufacturer's instructions.
While testing, listen for pressurized air escaping
through the throttle body, tailpipe and oil filler cap
opening. Check for bubbles in the radiator coolant.
All gauge pressure indications should be equal,
with no more than 25% leakage per cylinder.
FOR EXAMPLE:At 552 kPa (80 psi) input pres-
sure, a minimum of 414 kPa (60 psi) should be main-
tained in the cylinder.
STANDARD PROCEDURE - MEASURING
BEARING CLEARANCE USING PLASTIGAGE
Engine crankshaft bearing clearances can be deter-
mined by use of Plastigage or equivalent. The follow-
ing is the recommended procedure for the use of
Plastigage:(1) Remove oil film from surface to be checked.
Plastigage is soluble in oil.
(2) Place a piece of Plastigage across the entire
width of the bearing shell in the cap approximately
6.35 mm (1/4 in.) off center and away from the oil
holes (Fig. 3). (In addition, suspected areas can be
checked by placing the Plastigage in the suspected
area). Torque the bearing cap bolts of the bearing
being checked to the proper specifications.
(3) Remove the bearing cap and compare the
width of the flattened Plastigage with the metric
scale provided on the package. Locate the band clos-
est to the same width. This band shows the amount
of clearance in thousandths of a millimeter. Differ-
ences in readings between the ends indicate the
amount of taper present. Record all readings taken.
Compare clearance measurements to specs found in
engine specifications (Refer to 9 - ENGINE - SPECI-
FICATIONS).Plastigage generally is accompa-
nied by two scales. One scale is in inches, the
other is a metric scale.
NOTE: Plastigage is available in a variety of clear-
ance ranges. Use the most appropriate range for
the specifications you are checking.
(4) Install the proper crankshaft bearings to
achieve the specified bearing clearances. (Refer to 9 -
ENGINE/ENGINE BLOCK/CRANKSHAFT MAIN
BEARINGS - STANDARD PROCEDURE) (Refer to 9
- ENGINE/ENGINE BLOCK/CONNECTING ROD
BEARINGS - STANDARD PROCEDURE)
STANDARD PROCEDURE - FORM-IN-PLACE
GASKETS AND SEALERS
There are numerous places where form-in-place
gaskets are used on the engine. Care must be taken
Fig. 3 Plastigage Placed in Lower ShellÐTypical
1 - PLASTIC GAUGE
RSENGINE 3.3/3.8L9-79
ENGINE 3.3/3.8L (Continued)

when applying form-in-place gaskets to assure
obtaining the desired results.Do not use form-in-
place gasket material unless specified.Bead size,
continuity, and location are of great importance. Too
thin a bead can result in leakage while too much can
result in spill-over which can break off and obstruct
fluid feed lines. A continuous bead of the proper
width is essential to obtain a leak-free gasket.
There are numerous types of form-in-place gasket
materials that are used in the engine area. Mopart
Engine RTV GEN II, MopartATF-RTV, and Mopart
Gasket Maker gasket materials, each have different
properties and can not be used in place of the other.
MOPARtENGINE RTV GEN IIis used to seal
components exposed to engine oil. This material is a
specially designed black silicone rubber RTV that
retains adhesion and sealing properties when
exposed to engine oil. Moisture in the air causes the
material to cure. This material is available in three
ounce tubes and has a shelf life of one year. After one
year this material will not properly cure. Always
inspect the package for the expiration date before
use.
MOPARtATF RTVis a specifically designed
black silicone rubber RTV that retains adhesion and
sealing properties to seal components exposed to
automatic transmission fluid, engine coolants, and
moisture. This material is available in three ounce
tubes and has a shelf life of one year. After one year
this material will not properly cure. Always inspect
the package for the expiration date before use.
MOPARtGASKET MAKERis an anaerobic type
gasket material. The material cures in the absence of
air when squeezed between two metallic surfaces. It
will not cure if left in the uncovered tube. The
anaerobic material is for use between two machined
surfaces. Do not use on flexible metal flanges.
MOPARtBED PLATE SEALANTis a unique
(green-in-color) anaerobic type gasket material that
is specially made to seal the area between the bed-
plate and cylinder block without disturbing the bear-
ing clearance or alignment of these components. The
material cures slowly in the absence of air when
torqued between two metallic surfaces, and will rap-
idly cure when heat is applied.
MOPARtGASKET SEALANTis a slow drying,
permanently soft sealer. This material is recom-
mended for sealing threaded fittings and gaskets
against leakage of oil and coolant. Can be used on
threaded and machined parts under all tempera-
tures. This material is used on engines with multi-
layer steel (MLS) cylinder head gaskets. This
material also will prevent corrosion. MopartGasket
Sealant is available in a 13 oz. aerosol can or 4oz./16
oz. can w/applicator.SEALER APPLICATION
MopartGasket Maker material should be applied
sparingly 1 mm (0.040 in.) diameter or less of sealant
to one gasket surface. Be certain the material sur-
rounds each mounting hole. Excess material can eas-
ily be wiped off. Components should be torqued in
place within 15 minutes. The use of a locating dowel
is recommended during assembly to prevent smear-
ing material off the location.
MopartEngine RTV GEN II or ATF RTV gasket
material should be applied in a continuous bead
approximately 3 mm (0.120 in.) in diameter. All
mounting holes must be circled. For corner sealing, a
3.17 or 6.35 mm (1/8 or 1/4 in.) drop is placed in the
center of the gasket contact area. Uncured sealant
may be removed with a shop towel. Components
should be torqued in place while the sealant is still
wet to the touch (within 10 minutes). The usage of a
locating dowel is recommended during assembly to
prevent smearing material off the location.
MopartGasket Sealant in an aerosol can should be
applied using a thin, even coat sprayed completely
over both surfaces to be joined, and both sides of a
gasket. Then proceed with assembly. Material in a
can w/applicator can be brushed on evenly over the
sealing surfaces. Material in an aerosol can should be
used on engines with multi-layer steel gaskets.
STANDARD PROCEDURES - ENGINE GASKET
SURFACE PREPARATION
To ensure engine gasket sealing, proper surface
preparation must be performed, especially with the
use of aluminum engine components and multi-layer
steel cylinder head gaskets.
Neveruse the following to clean gasket surfaces:
²Metal scraper
²Abrasive pad or paper to clean cylinder block
and head
²High speed power tool with an abrasive pad or a
wire brush (Fig. 4)
NOTE: Multi-Layer Steel (MLS) head gaskets require
a scratch free sealing surface.
Only use the following for cleaning gasket surfaces:
²Solvent or a commercially available gasket
remover
²Plastic or wood scraper (Fig. 4)
²Drill motor with 3M RolocyBristle Disc (white
or yellow) (Fig. 4)
9 - 80 ENGINE 3.3/3.8LRS
ENGINE 3.3/3.8L (Continued)