engine oil MITSUBISHI LANCER EVOLUTION VI 1999 Workshop Manual

GENERAL – How to Use This Manual00-4
EXPLANATION OF MANUAL CONTENTS
Indicates procedures to be performed
before the work in that section is started,
and procedures to be performed after
the work in that section is finished.
Indicates (by symbols) where lubrica-
tion is necessary.
Maintenance and Servicing Procedures
The numbers provided within the diagram indi-
cate the sequence for maintenance and servic-
ing procedures.
Removal steps:
The part designation number corresponds
to the number in the illustration to indicate
removal steps.
Disassembly steps:
The part designation number corresponds
to the number in the illustration to indicate
disassembly steps.Installation steps:
Specified in case installation is impossible
in reverse order of removal steps. Omitted
if installation is possible in reverse order of
removal steps.
Reassembly steps:
Specified in case reassembly is impossible
in reverse order of disassembly steps.
Omitted if reassemby is possible in reverse
order of disassembly steps.
Classifications of Major Maintenance/Service Points
When there are major points relative to maintenance and servicing procedures
(such as essential maintenance and service points, maintenance and service stan-
dard values, information regarding the use of special tools, etc.), these are ar-
ranged together as major maintenance and service points and explained in detail.
A: Indicates that there are essential points for removal or disassembly.
A: Indicates that there are essential points for installation or reassembly.
Symbols for Lubrication, Sealants and Adhesives
Information concerning the locations for lubrica-
tion and for application of sealants and adhe-
sives is provided, by using symbols, in the dia-
gram of component parts or on the page follow-
ing the component parts page, and explained.: Grease
(multipurpose grease unless there is a
brand or type specified)
: Sealant or adhesive
: Brake fluid or automatic transmission fluid
: Engine oil, gear oil or air conditioner com-
pressor oil
: Adhesive tape or butyl rubber tape
Component Diagram
A diagram of the component parts is
provided near the front of each section
in order to give a reader a better under-
standing of the installed condition of
component parts.

GENERAL – Precautions Before Service00-16
SERVICING THE ELECTRICAL SYSTEM
Before replacing a component related to the electrical system
and before undertaking any repair procedures involving the
electrical system, be sure to first disconnect the negative
(–) cable from the battery in order to avoid damage caused
by short-circuiting.
Caution
Before connecting or disconnecting the negative (–) cable,
be sure to turn off the ignition switch and the lighting
switch.
(If this is not done, there is the possibility of
semiconductor parts being damaged.)
APPLICATION OF ANTI-CORROSION AGENTS
AND UNDERCOATS
If oil or grease gets onto the oxygen sensor, it will cause
a drop in the performance of the sensor.
Cover the oxygen sensor with a protective cover when applying
anti-corrosion agents and undercoats.
PRE-INSPECTION CONDITION
“Pre-inspection condition” refers to the condition that the
vehicle must be in before proper engine inspection can be
carried out. If you see the words “Set the vehicle to the
pre-inspection condition.” in this manual, it means to set the
vehicle to the following condition.
Engine coolant temperature: 80–90C
Lamps, electric cooling fan and all accessories: OFF
M/T: Neutral
VEHICLE WASHING
If high-pressure car-washing equipment or steam car-washing
equipment is used to wash the vehicle, be sure to note the
following information in order to avoid damage to plastic
components, etc.
Spray nozzle distance: Approx. 40 cm or more
Spray pressure: 3,900 kPa or less
Spray temperature: 82C or less
Time of concentrated spray to one point: within 30 sec.
Approx.
40 cm

11-1
ENGINE
CONTENTS
GENERAL INFORMATION 2. . . . . . . . . . . . . . . .
SPECIFICATIONS 3. . . . . . . . . . . . . . . . . . . . . . . .
Service Specifications 3. . . . . . . . . . . . . . . . . . . . . .
Torque Specifications 5. . . . . . . . . . . . . . . . . . . . . .
New Tightening Method by Use of Bolts
to Be Tightened in Plastic Area 9. . . . . . . . . . . .
Sealants 9. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Form-In-Place Gasket 10. . . . . . . . . . . . . . . . . . . .
SPECIAL TOOLS 11. . . . . . . . . . . . . . . . . . . . . . .
ALTERNATOR AND IGNITION SYSTEM 14.
TIMING BELT 15. . . . . . . . . . . . . . . . . . . . . . . . .
FUEL AND EMISSION CONTROL PARTS 27
SECONDARY AIR SYSTEM AND INTAKE
MANIFOLD 29. . . . . . . . . . . . . . . . . . . . . . . . . . . . EXHAUST MANIFOLD 31. . . . . . . . . . . . . . . . .
WATER PUMP AND WATER HOSE 34. . . . .
ROCKER ARMS AND CAMSHAFT 37. . . . . .
CYLINDER HEAD AND VALVES 43. . . . . . . .
FRONT CASE, COUNTERBALANCE
SHAFT AND OIL PAN 51. . . . . . . . . . . . . . . . .
PISTON AND CONNECTING ROD 59. . . . . .
CRANKSHAFT AND FLYWHEEL 67. . . . . . . .
THROTTLE BODY 73. . . . . . . . . . . . . . . . . . . . .
TURBOCHARGER 75. . . . . . . . . . . . . . . . . . . . .
ALTERNATOR 79. . . . . . . . . . . . . . . . . . . . . . . . .
STARTER MOTOR 83. . . . . . . . . . . . . . . . . . . . .

ENGINE – General Information11-2
GENERAL INFORMATION
DescriptionsSpecifications
TypeIn-line OHV, SOHC
Number of cylinders4
Combustion chamberPentroof + curved top piston type
Total displacement dm31,997
Cylinder bore mm85.0
Piston stroke mm88.0
Compression ratio8.8
Valve timingIntake valveOpens (BTDC)21°
Closes (ABDC)59°
Exhaust valveOpens (BBDC)58°
Closes (ATDC)18°
Lubrication systemPressure feed, full-flow filtration
Oil pump typeInvolute gear type

ENGINE – Specifications11-4
ItemsLimit Standard value
Intake oversize rework dimensions of valve
guide hole mm
0.3 O.S.35.30 – 35.33–
guide hole mm0.6 O.S.35.60 – 35.63–
Exhaust oversize rework dimensions of
valve guide hole mm
0.3 O.S.33.30 – 33.33–
valve guide hole mm0.6 O.S.33.60 – 33.63–
Front case and oil pan
Oil pump side clearance mmDrive gear0.08 – 0.14–
Driven gear0.06 – 0.12–
Oil pressure at curb idle speed kPa [Oil temperature is 75 to 90°C]78 or more–
Piston and connecting rod
Piston outer diameter mm85.0–
Piston ring side clearance mmNo. 1 ring0.04 – 0.075–
No. 2 ring0.02 – 0.06–
Piston ring end gap mmNo. 1 ring0.25 – 0.350.8
No. 2 ring0.40 – 0.550.8
Oil ring0.10 – 0.401.0
Piston pin outer diameter mm21.0–
Piston pin press-in load N (Room temperature)7,350 – 17,200–
Crankshaft pin oil clearance mm0.02 – 0.050.1
Connecting rod big end side clearance mm0.10 – 0.250.4
Crankshaft and flywheel
Crankshaft end play mm0.05 – 0.250.40
Crankshaft journal outer diameter mm57.0–
Crankshaft pin outer diameter mm44.0–
Crankshaft journal oil clearance mm0.02 – 0.040.1
Bearing cap bolt shank length mm–Maximum 71.1
Piston to cylinder clearance mm0.02 – 0.04–
Cylinder block grinding limit of gasket surface mm
Total resurfacing depth of both cylinder head and cylinder block–0.2
Cylinder block overall height mm284–
Cylinder block inner diameter mm85.0–
Cylinder block cylinder mm0.01–
Turbocharger
Waste gate actuator operation check kPa100113.3

ENGINE – Specifications11-5
ItemsLimit Standard value
Alternator
Rotor coil resistance ΩApprox. 3 – 5–
Protrusion length of brush mm–2
Starter motor
Commutator runout mm0.050.1
Commutator outer diameter mm32.031.4
Commutator undercut mm0.5–
TORQUE SPECIFICATIONS
ItemsNm
Alternator and ignition system
Oil level gauge guide13
Water pump pulley9
Alternator brace (Alternator side)21
Alternator brace (Tightened with water pump)23
Alternator pivot bolt44
Crankshaft pulley25
Center cover3
Spark plug25
Ignition coil10
Timing belt
Timing belt cover (Flange bolt)11
Timing belt cover (Washer bolt)9
Power steering pump bracket49
Tensioner pulley49
Tensioner arm24
Auto tensioner24
Idler pulley48
Crank angle sensor9
Oil pump sprocket54
Camshaft bolt11 8
Tensioner “B”19
Counterbalance shaft sprocket45

ENGINE – Specifications11-7
ItemsNm
OIl return pipe (Turbocharger side)9
Oil return pipe (Oil pan side – Head mark 7)9
Oil return pipe (Oil pan side – Head mark 10)13
Oil pipe11
Oil pipe eye bolt (Cylinder head side)16
Oil pipe eye bolt (Turbocharger side)30
Water pipe11
Water pipe eye bolt41
Exhaust manifold (M8)29
Exhaust manifold (M10)49
Exhaust manifold (Turbocharger side)59
Water pump and water hose
Water temperature sensor29
Water temperature gauge unit11
Water inlet fitting24
Water outlet fitting (M6)10
Water outlet fitting (M8)13
Thermostat housing24
Thermostat housing (Clamp)11
Water inlet pipe (Cylinder block)13
Water inlet pipe (Outlet fitting)10
Water pump14
Knock sensor22
Rocker arms and camshaft
Camshaft position sensor9
Camshaft position sensor cover10
Camshaft position sensing cylinder21
Camshaft position sensing support13
Camshaft bearing cap20
Oil delivery body11
Cylinder head and valves
Cylinder head bolt [Tighten to 78 Nm and then completely before tightening to final torque
specification]20
90° + 90°

ENGINE – Specifications11-8
ItemsNm
Front case and oil pan
Drain plug39
Oil pan7
Oil screen19
Buffle plate22
Oil pressure switch10
Oil cooler by-pass valve54
Relief plug44
Plug24
Front case24
Oil pump cover (Screw)10
Oil pump cover (Bolt)16
Piston and connecting rods
Connecting rod nut20 + 90° to 94°
Crankshaft and flywheel
Flywheel bolt132
Rear plate11
Bell housing cover9
Oil seal case11
Beam bearing cap bolt25 + 90°
Check valve32
Throttle body
Throttle position sensor3.5
Idle speed control body assembly3.5
Turbocharger
Waste gate actuator11

ENGINE – Specifications11-9
NEW TIGHTENING METHOD – BY USE OF BOLTS TO BE TIGHTENED IN
PLASTIC AREA
A new type of bolts, to be tightened in plastic area, is currently used some parts of the engine. The
tightening method for the bolts is different from the conventional one. Be sure to observe the method
described in the text when tightening the bolts.
Service limits are provided for the bolts. Make sure that the service limits described in the text are strictly
observed.

Areas where the bolts are in use:
(1) Cylinder head bolts
(2) Main bearing cap bolts
(3) Connecting rod cap bolts

Tightening method
After tightening the bolts to the specified torque, tighten them another 90° or 180° (twice 90°). The
tightening method varies on different areas. Observe the tightening method described in the text.
SEALANTS
ItemSpecified sealantQuantity
Engine support bracket bolt3MTM AAD Part No. 8672 or equivalentAs required
Semi-circular packing3MTM AAD Part No. 8672 or equivalentAs required
Rocker cover3MTM AAD Part No. 8672 or equivalentAs required
Oil return pipe gasket3MTM AAD Part No. 8731 or equivalentAs required
Thermostat housingMitsubishi Genuine Part No. MD970389 or
equivalentAs required
Water outlet fittingMitsubishi Genuine Part No. MD970389 or
equivalentAs required
Engine coolant temperature gauge unit3MTM AAD Part No. 8672 or equivalentAs required
Engine coolant temperature sensor3MTM AAD Part No. 8731 or equivalentAs required
Cam position sensor supportMitsubishi Genuine Part No. MD970389 or
equivalentAs required
Oil pressure switch3MTM AAD Part No. 8672 or equivalentAs required
Oil panMitsubishi Genuine Part No. MD970389 or
equivalentAs required
Oil seal caseMitsubishi Genuine Part No. MD970389 or
equivalentAs required

ENGINE – Specifications11-10
FORM-IN-PLACE GASKET
The engine has several areas where the form-in-place gasket (FIPG) is in use. To ensure that the gasket
fully serves its purpose, it is necessary to observe some precautions when applying the gasket. Bead
size, continuity and location are of paramount importance. Too thin a bead could cause leaks. Too thick
a bead, on the other hand, could be squeezed out of location, causing blocking or narrowing of the
fluid feed line. To eliminate the possibility of leaks from a joint, therefore, it is absolutely necessary to
apply the gasket evenly without a break, while observing the correct bead size.
The FIPG used in the engine is a room temperature vulcanisation (RTV) type and is supplied in a 100-gram
tube (Part No. MD970389). Since the RTV hardens as it reacts with the moisture in the atmospheric
air, it is normally used in the metallic flange areas. The FIPG, Part No. MD970389, can be used for
sealing both engine oil and coolant, while Part No. MD997110 can only be used for engine oil sealing.
Disassembly
The parts assembled with the FIPG can be easily disassembled without use of a special method. In
some cases, however, the sealant between the joined surfaces may have to be broken by lightly striking
with a mallet or similar tool. A flat and thin gasket scraper may be lightly hammered in between the
joined surfaces. In this case, however, care must be taken to prevent damage to the joined surfaces.
For removal of the oil pan, the special tool “Oil Pan Remover” (MD998727) is available. Be sure to use
the special tool to remove the oil pan.
Surface Preparation
Thoroughly remove all substances deposited on the gasket application surfaces, using a gasket scraper
or wire brush. Check to ensure that the surfaces to which the FIPG is to be applied is flat. Make sure
that there are no oils, greases and foreign substances deposited on the application surfaces. Do not
forget to remove the old sealant remained in the bolt holes.
Form-in-Place Gasket Application
When assembling parts with the FIPG, you must observe some precautions, but the procedures is very
simple as in the case of a conventional precut gasket.
Applied FIPG bead should be of the specified size and without breaks. Also be sure to encircle the
bolt hole circumference with a completely continuous bead. The FIPG can be wiped away unless it is
hardened. While the FIPG is still moist (in less than 15 minutes), mount the parts in position. When
the parts are mounted, make sure that the gasket is applied to the required area only. In addition, do
not apply any oil or water to the sealing locations or start the engine until a sufficient amount of time
(about one hour) has passed after installation is completed.
The FIPG application procedure may vary on different areas. Observe the procedure described in the
text when applying the FIPG.