1900 MITSUBISHI DIAMANTE engine

t
GENERALINFORMATIONAND MAINTENANCE l-23
gap increases, the plug’s voltage requirement also in-
creases. It requires a greater voltage to jump the the spark plug counterclockwise to loosen and re-
move the spark plug from the bore.
wider gap and about &o to three times as much volt-
age to fire the plug at high speeds than at idle. The
improved air/fuel ratio control of modern fuel injec-
tion combined with the higher voltage output of mod- Be sure not to use a flexible extension on the place. The click may be felt or heard, then gently pull
ern ignition systems will often allow an engine to run socket. Use of a flexible extension may allow back on the boot to assure proper contact.
.___. . _
significantly longer on a set of standard spark plugs, a shear force to be agptf’ ea to me plug.
A 12. On the 3.OL fSOHC and DOHC) and 3.5L en-
LL_ _I___ -u I_ IL-
but keep in mind that efficiency will drop as the gap shear force could break tne pug on III me
tion 3 for the installation procedure.
widens (along with fuel economy and power). cylinder head, leading to costly and frustrat-
13. If equipped, install the center cover.
When you’re removing spark plugs, work on one ing repairs.
at a time. Don’t start by removing the plug wires all at
once, because, unless you number them, they may To install:
INSPECTION & GAPPING
11. Apply a small amount of silicone dielectric
compound to the end of the spark plug lead or inside
the spark plug boot to prevent sticking, then install
the boot to the spark plug and push until it clicks into
gines, install the upper intake manifold. Refer to Sec-
,,Y” ..1111 uy”’ 1 the neaative bat&v cable and if become mixed up. Take a minute before you begin
and number the wrrpc with +sne
1. Disconnect. ~~.~
--..-., -..-.-, -..-
thevehicle has been run recently, allow the engine to
thoroughly cool.
2. If equipped, remove the center cover.
3. On the 3.OL (SOHC and DOHC) and 3.5L en-
gines, the upper intake manifold must be removed to
access the rear spark plugs. Refer to Section 3 for the
removal procedure.
4. Carefully twist the spark plug wire boot to
loosen it, then pull upward and remove the boot from
the plug. Be sure to pull on the boot and not on the
wire, otherwise the connector located inside the boot
may become separated.
5. Using compressed air, blow any water or de-
bris from the spark plug well to assure that no harm-
ful contaminants are allowed to enter the combustion
chamber when the spark plug is removed. If com-
pressed air is not available, use a raa or a brush to must be replaced.
Check the plugs for deposits and wear, If they are 7. Inspect the spark plug boot for tears or dam-
age. If.a damaged boot is found, the spark plug wire
8. Using a wire feelergauge, check and adjust
the spark plug gap. When using a gauge, the proper
size should pass between the electrodes with a slight
drag. The next larger size should not be able to pass
while the next smaller size should pass freely.
9. Carefully thread the plug into the bore by
hand. If resistance is felt before the plug is almost
completely threaded, back the plug out and begin
threading again. In small, hard to reach areas, an old
spark plug wire and boot could be used as a thread-
ing tool. The boot will hold the plug while you twist
the end of the wire and the wire is supple enough to
twist before it would allow the plug to crossthread.
Do not use the spark plug sock?
l -- K-rrA tha nhme Alwmm rarntdlv thw GL I” IlllGa”
the possibility of crossthreading and damag- lad the plug
. ..Y f..“YY. rn”Y,‘““mY*“.‘, .I**” by hand or using an old plug wire to prevent
ing the cylinder head bore.
10. Carefully tighten the spark plug. If the plug
you are installing is equipped with a crush washer,
seat the plug, then tighten about I/, turn to crush the
washer. If you are installing a tapered seat plug,
tighten the plug to specifications provided by the ve-
hicle or plug manufacturer. b See Figures 98, 97, 98, 99, and 100
not going to be replaced, clean the plugs thoroughly.
Remember that any kind of deposit will decrease the
efficiency of the plug. Plugs can be cleaned on a
spark plug cleaning machine, which can sometimes
be found in service stations, or you can do an accept-
able job of cleaning with a stiff brush. If the plugs are’
cleaned, the electrodes must be filed flat. Use an ig-
nition points file, not an emery board or the like,
which will leave deposits. The electrodes must be
filed perfectly flat with sharp edges; rounded edges
reduce the spark plug voltage by as much as 50%.
Check spark plug gap before installation. The
ground electrode (the L-shaped one connected to the
body of the plug) must be parallel to the center elec-
trode and the specified size wire gauge (please refer
to the Tune-Up Specifications chart for details) must
pass between the electrodes with a slight drag:
*,NEVER adjust the gap on a used platinum
. clean the area.
*Remove the spark plugs when the engine
is cold, if possible, to prevent damage to the
threads. If removal of the plugs is difficult,
apply a few drops of penetrating oil or sili-
cone spray to the area around the base of the
plug, and allow it a few minutes to work.
6. Using a spark plug socket that is equipped
with a rubber insert to properly hold the plug, turn type spark plug.
Always check the gap on new plugs as they are
not always set correctly at the factory. Do not use a
flat feeler gauge when measuring the gap on a used
plug, because the reading may be inaccurate. A
round-wire type gapping tool is the best way to check
the gap. The correct gauge should pass through the
electrode gap with a slight drag. If you’re in doubt, try
one size smaller and one laraer. The smaller aauqe

l-24 GENERALINFORMATIONAND MAINTENANCE
b%slZl2 Fig. 97 A variety of tools and gauges are
needed for spark plug service tm2903 Fig. 98 Checking the spark plug @au with a tccs2904 feeler gauge. - Fig. 99 Adjusting the spark plug gap
ig. 100 If the standard plug Is in good con-
ftlon, the electrode may be filed flat- the two ends. Take the length and multiply it by 6,000
to achieve the maximum resistance allowable in each
wire, resistance should not exceed this value. If resis-
tance does exceed this value, replace the wire.
*Whenever the high tension wires are re- ’
moved from the plugs, coil, or distributor,
silicone grease must be applied to the boot
before reconnection. Coat the entire Interior
surface with a suitable silicone grease.
REMOVAL &INSTALLATION
# See Figures 90,103 and 104
1. Remove the air cleaner inlet tube.
2. If eouiooed, remove the center cover from the
WARNING: do not file platinum plugs
valve covei.
3. Label each spark plug wire and make a note of
should go through easily, while the larger one its routing.
I’ shouldn’t go through at all. Wire gapping tools usu-
ally have a bending tool attached. Use that to adjust
the side electrode until the proper distance is ob-
tained. Absolutely never attempt to bend the center
electrode. Also, be careful not to bend the side elec- *Don’t rely on wiring diagrams or sketches
for spark plug wire routing. Improper
arrangement of spark plug wires will induce
voltage between wires, causing misfiring
and surging. Be careful to arrange spark plug
wires properly.
4. Starting with the longest wire, disconnect the
spark plug wire from the spark plug and then from
the coil pack or distributor cap.
To install:
5. If replacing the spark plug wires, match the olc
wire with an appropriately sized wire in the new set.
6. Lubricate the boots and terminals with dielec-
tric grease and install the wire on the coil pack. Make
sure the wire snaps into place.
a 7. Route the wire in the exact path as the original
nd connect the wire to the spark plug.
8. Repeat the process for each remaining wire,
iorking from the longest wire to the shortest.
9. Install the air cleaner inlet tube.
trode too far or too often as it may weaken and break
off within the engine, requiring removal of the cylin-
der head to retrieve it.
TESTING
# See Figures 191 and 102
At every tune-up/inspection, visually check the
spark plug cables for burns cuts, or breaks in the in-
sulation. Check the boots and the nipples on the dis-
tributor cap and/or coil. Replace any damaged wiring.
Every 50,000 miles (80,000 km) or 60 months, the
resistance of the wires should be checked with an
ohmmeter. Wires with excessive resistance will cause
misfiring, and may make the engine difficult to start in
damp weather.
To check resistance, an ohmmeter should be used ’
on each wire to test resistance between the end con-
nectors. Remove and install/replace the wires in or- ’
der, one-by-one.
Resistance on these wires should be 4,000-6,000
ohms per foot. To properly measure this, remove the
wires from the plugs and the coil pack. Do not pierce
any ignition wire for any reason. Measure only from Fig. 103 Remove the spark plug wires from
tcG1009 Fig. 102 Checking individual plug wire re-
sistance with a digital ohmmeter
Fig. 104 Remove the plug wires from the
wire dividers

.
1-26 GENERALINFORMATIONAND MAINTENANCE
TDC of the compression stroke. If this happens, the
piston WIII be at the beginning of the power stroke
just as the compressed and ignited air/fuel mixture
forces the piston down and turns the crankshaft. Be-
cause it takes a fraction of a second for the spark
plug to ignite the mixture in the cylinder, the spark
plug must fire a little before the piston reaches TDC.
Otherwise, the mixture will not be completely ignited
as the piston passes TDC and the full power of the
explosion will not be used by the engine.
The timing measurement is given in degrees of
crankshaft rotation before the piston reaches TDC
(BTDC). If the setting for the ignition timing is 10”
BTDC, each spark plug must fire 10 degrees before
each piston reaches TDC. This only holds true, how-
ever, when the engine is at idle speed. The combus-
tion process must be complete by 23”ATDC to main-
tain proper engine performance, fuel mileage, and
low emissions.
As the engine speed increases, the pistons go
faster. The spark plugs have to ignite the fuel even
sooner if it IS to be completely ignited when the pis-
ton reaches TDC. If the ignition is set too far ad-
vanced (BTDC), the ignition and expansion of the fuel
in the cylinder wtll occur too soon and tend to force
the piston down while it is still traveling up. Thus
causes pre ignition or “knockmg and pinging”. If the
ignition spark is set too far retarded, or after TDC
(ATDC), the piston will have already started on its
way down when the fuel is ignited. The piston will be
forced down for only a portion of its travel, resulting
in poor engine performance and lack of power.
Timing marks or scales can be found on the rim of
the crankshaft pulley and the timing cover. The marks
on the pulley correspond to the posrtion of the piston
in the No. 1 cylinder. A stroboscopic (dynamic) tim-
ing light is hooked onto the No. 1 cylinder spark plug
wrre. Every time the spark plug fires, the timing light
flashes. By aiming the light at the timing marks while
the engine is running, the exact position of the piston
within the cylinder can be easily read (the flash of
light makes the mark on the pulley appear to be
standing still). Proper timing is indicated when the
mark and scale are in specified alignment.
When checking timing with the engine run-
ning, take care not to get the timing light
wires tangled in the tan blades and/or drive
belts.
INSPECTION &ADJUSTMENT
1990-96 Models
e See Figures 113 thru 119
1. Set the parking brake, start and run the engine
until normal operating temperature is obtained. Keep
all lights and accessories OFF and the front wheels
straight-ahead. Place the transaxle in
P for automatic
transaxle or Neutral for manual transaxle.
2. If not at specification, set the idle speed to the
correct level.
3. Turn the engine
OFF. Remove the water-
proof cover from the igmtion timing adjusting con-
nector, and connect a jumper wire from this terminal
Fig. 113 Ignition timing adjustment con-
nector-1990-92 Mirage with 1.5L engine
93151QM Fig. 115 Ignition timing adjustment con-
nectar-Galant with 2.OL engines
93151QO1 Fig. 117 Ignition timing adjustment con.
nectar-1994-96 Galant
to a good ground. Refer to the corresponding illustra-
tions for the correct location of the timing adjustment
connector.
4. Connect a conventional power timing light to
the No. 1 cylinder spark plug wire. Start the engine
and run at idle.
5. Aim the timing light at the timing scale lo-
cated near the crankshaft pulley.
6. Loosen the distributor or crank angle sensor
hold-down nut just enough so the housing can be ro-
tated.
7. Turn the housing in the proper direction until
the specified timing is reached. Tighten the hold-
down nut and recheck the timing. Turn the engine
OFF. 8. Remove the jumper wire from the ignition
timing adjusting terminal and install the water-proof
cover.
9. Start the engine and check the actual timing
(the timing without the terminal grounded). This
reading should be approximately 5 degrees more
than the basic timing. Actual timing may increase ac-
cording to altitude. Also, actual timing may fluctuate
because of slight variation accomplished by the ECU.
Fig. 114 Ignition timing adjustment con-
nectar-Miracle with 1.6L enaine
CHECK CONNECTOR 93151QO! Fig. 116 Ignition timing adjustment con.
nectar-1992-96 Oiamante
93151gOB Fig. 116 Ignition timing adjustment con-
nector-1993-96 Mirage with 1.5L engine
Fig. 119 Ignition timing adjustment con-
nector-1993-96 Mirage with 1.6L engine
As long as the basic timing is correct, the engine is
timed correctly.
10. Turn the engine
OFF. 11. Disconnect the timing apparatus and
tachometer.
1997-00 Models
The ignition timing is controlled by the Engine
Control Module (ECM) and is not adjustable. How-
ever it can be inspected using a scan tool.

GENERALINFORMATIONAND MAlNTENANdE I-27
ADJUSTMENT
u See Figures 120 and 121
The only engines that require periodic adjustment
of the valves are the 1.5L engine in the 1990-95 Mi-
rage and the 1.8L in the 1993-95 Mirage.
Incorrect valve clearance will cause noisy
and/or unsteady engine operation, reduced
engine output, and possible engine damage.
Check the valve clearances and adjust as re-
quired while the engine is hot.
1. Warm the engine to operating temperature.
Turn the engine OFF. Disconnect the negative battery
cable.
2. Remove all spark plugs so engine can be eas-
ily turned by hand
3. Remove the valve cover.
4. Turn the crankshaft clockwise until the notch
on the pulley is aligned with the
T mark on the timing
belt lower cover. This brings both No. 1 and 4 cylin-
der pistons to Top Dead Center (TDC).
5. Wiggle the rocker arms on No. 1 and 4 cylin-
ders up and down to determine which cylinder is at
TDC on the compression stroke. Both rocker arms
should move if the piston in that cylinder is at TDC
on the compression stroke.
6. Measure the valve clearance with a feeler
gauge. When the No. 1 piston is at TDC on the com-
pression stroke, check No. 1 intake and
exhaust; No.
2 intake and exhaust. Then turn the crankshaft clock-
wise 1 turn to bring No. 4 to TDC on its compression
stroke. With No. 4 on TDC, compression stroke,
check No. 2 exhaust and intake; and No. 4 intake and
exhaust. Clearance is as follows:
1990-92 1.5L engine:
No.1 No.2
No.3 No.4
when engine is on TDC of cylinder 1 and (B) when engine is on TDC of cylinder 4
No.1 No.2
No.3 No.4
AA AA BB BB
93151g10 Fig. 121 Adjusting the valve clearance
l Exhaust valve: 0.0098 in. (0.25mm) screw. When at specification, tighten the locknut. Be l Intake valve: 0.0059 in. (0.15mm)
1993-95 1.5L engine: sure to hold the screw securely in place when tight-
l Exhaust valve: 0.0098 in. (0.25mm) ening the locknut to prevent it from turning when
* Intake valve: 0.008 in. (0.20mm) tightening the locknut. Tightening torque of the lock-
nut is as follows:
1993-95 1.8L engine:
l Exhaust valve: 0.012 in. (0.30mm) l 1.5L engine: 9-11 ft. Ibs. (12-15 Nm)
l Intake valve: 0.008 in. (0.20mm) l 1.8L engine: 7 ft. Ibs. (9 Nm)
8. Recheck the clearance and readjust.
7. If the valve clearance is out of specification,
9. After adjusting the valves, install the valve
loosen the rocker arm locknut and adjust the clear-
ante using a feeler gauge while turning the adjusting cover and spark plugs, and connect the negative bat-
tery cable.
Engine
ENGINE TUNE-UP SPECIFICATIONS Ignition
Spark Plugs liming
Fuel Idle
Speed Valve
Displacement
Engine
Gap (as.) Pump (rpm)
Clearance

l-28 GENERALINFORMATIONAND MAINTENANCE
may result in skin or eye irritation or frostbite. Al- formed to help maintain the efficiency of the vehicle’s
though low in toxicity (due to chemical stability), in- A/C system. For preventive maintenance, perform the
The idle speed is factory set and usually no ad- halation of concentrated refrigerant fumes is danger- following:
justments are ever necessary. If an adjustment be- ous and can result in death; cases of fatal cardiac
l The easiest and most important preventive
comes necessary, first check that the spark plugs, in- arrhythmia have been reported in people accidentally maintenance for your A/C system is to be sure that it
jectors, idle air control servo and compression subjected to high levels of refrigerant. Some early is used on a regular basis. Running the system for
pressure are all normal. symptoms include loss of concentration and drowsi- five minutes each month (no matter what the season)
Data from various sensors and switches are used ness. + will help ensure that the seals and all internal compo-
by the ECU to determine the proper fuel/air mixture
for optimal engine performance. cGeneraiiy, the limit for exposure is lower nents remain lubricated.
for R-134a than it is for R-12. Exceptional *Some newer vehicles automatically oper-
care must be practiced when handling R- ate the A/C system compressor whenever the
134a. windshield defroster is activated. When run-
Also, refrigerants can decompose at high tempera- ning, the compressor lubricates the A/C sys
tures (near gas heaters or open flame), which may re- tern components; therefore, the A/C system
SYSTEM SERVICE& REPAIR suit in hydrofluoric acid, hydrochloric acid and phos- would not need to be operated each month.
gene (a fatal nerve gas). * In order to prevent heater core freeze-up during
R-12 refrigerant can damage the environment be- A/C operation, it is necessary to maintain proper an-
cause it is a Chlorofluorocarbon (CFC), which has tifreeze protection. Use a hand-held coolant tester
been proven to add to ozone layer depletion, leading (hydrometer) to periodically check the condition of
to increasing levels of UV radiation. UV radiation has the antifreeze in your engine’s cooling system.
been linked with an increase in skin cancer, suppres-
sion of the human immune system, an increase in *Antifreeze should not be used longer than
cataracts, damage to crops, damage to aquatic organ- the manufacturer specifies.
isms, an increase in ground-level ozone, and in- . For efficient operation of an air conditioned ve-
creased global warming. hicle’s cooling system, the radiator cap should have a
R-134a refrigerant is a greenhouse gas which, if holding pressure which meets manufacturers specifi-
allowed to vent into the atmosphere, will contribute to cations. A cap which fails to hold these pressures
global warming (the Greenhouse Effect). should be replaced.
It is usually more economically feasible to have a
l Any obstruction of or damage to the condenser
certified MVAC automotive technician perform A/C configuration will restrict air flow which is essential
system service on your vehicle. Some possible rea- to its efficient operation. It is, therefore, a good rule
sons for this are as follows: to keep this unit clean and in proper physical shape.
l While it is illegal to service an A/C system
without the proper equipment, the home mechanic ti See Figure 122
*it is recommended that the A/C svstem be
serviced by an EPA Section 609 cehified au-
tomotivetechnicfan utilizing a refrigerant re-
covery/recycling machfne.
The do-it-yourselfer should not service his/her
own vehicle’s A/C system for many reasons, includ-
ing legal concerns, personal injury, environmental
damage and cost. The following are some of the rea-
sons why you may decide not to service your own ve-
hicle’s A/C system.
According to the U.S. Clean Air Act, it is a federal
crime to service or repair (involving the refrigerant) a
Motor Vehicle Air Conditioning (MVAC) system for
money without being EPA certified. It is also illegal to
vent R-12 and R-134a refrigerants into the atmos-
phere. Selling or distributing A/C system refrigerant
(in a container which contains less than 20 pounds oi
refrigerant) to any person who is not EPA 609 certi-
fied is also not allowed by law.
State and/or local laws may be more strict than the
federal regulations, so be sure to check with your
state and/or local authorities for further information.
For further federal information on the legality of ser-
vicing your AK system, call the EPA Stratospheric
Ozone Hotline.
*Federal law dictates that a fine of up to
$25,000 may be levied on people convicted
of venting refrigerant into the atmosphere.
Additionally, the EPA may pay up to $10,000
for information or services leading to a crimf
nai conviction of the violation of these laws.
When servicing an A/C system you run the risk of
handling or coming in contact with refrigerant, which
Fig. 122 A label with information concern-
ing the A/C system is typically located in the
engine compartment
f would haveto purchase an expensive refrigerant re-
covery/recycling machine to service his/her own ve-
hicle.
l Since only a certified person may purchase re-
frigerant-according to the Clean Air Act, there are
specific restrictions on selling or distributing A/C
system refrigerant-it is legally impossible (unless
certified) for the home mechanic to service his/her
own vehicle. Procuring refrigerant in an illegal fash-
ion exposes one to the risk of paying a $25,000 fine
to the EPA.
R-12 Refrigerant Conversion
If your vehicle still uses R-12 refrigerant, one
way to save A/C system costs down the road is to invesh-
gate the possibility of having your system converted
to R-134a. The older R-12 systems can be easily
converted to R-134a refrigerant by a certified auto-
motive technician by installing a few new compo-
nents and changing the system oil.
The cost of R-12 is steadily rising and will con-
tinue to increase, because it is no longer imported or
manufactured in the United States. Therefore, it is of-
ten possible to have an R-12 system converted to R-
134a and recharged for less than it would cost to just
charge the system with R-12.
If you are interested in having your system con-
verted, contact local automotive service stations for
more details and information.
u See Figures 123 and 124
Although the A/C system should not be serviced
by the do-it-yourselfer, preventive maintenance can
be practiced and A/C system inspections can be per- Fig. 123 A coolant tester can be used to de-
1 termine the freezing and boiling levels of
the coolant in your vehicle
Fig. 124 To ensure efficient cooling system
operation, inspect the radiator cap gasket
and seal

GENERALINFORMATIONAND MAlNTENANdE 1-29
i
*Bug screens which are mounted in front of
the condenser (unless they are original
equipment) are regarded as obstructtons.
l The condensation drain tube expels any water
which accumulates on the bottom of the evaporator
housing into the engine compartment. If this tube is
obstructed, the air conditioning performance can be
restricted and condensation buildup can spill over
onto the vehicle’s floor.
l Make sure the air passage selection lever is
operating correctly. Start the engine and warm it to
normal operating temperature, then make sure the
temperature selection lever is operating correctly.
-w
~1 ELEMENT(REFILL)CARE& REPLACEMENT
SYSTEM INSPECTION
b See Figure 125 b See Figures 126 thru 135
For maximum effectiveness and longest element
Although the A/C system should not be serviced
by the do-it-yourselfer, preventive maintenance can
be practiced and A/C system inspections can be per-
formed to help maintain the efficiency of the vehicle’s
A/C system. For A/C system inspection, perform the
following:
The easiest and often most important check for the
air conditioning system consists of a visual inspec-
tion of the system components. Visually inspect the
air conditioning system for refrigerant leaks, dam-
aged compressor clutch, abnormal compressor drive
belt tension and/or condition, plugged evaporator
drain tube, blocked condenser fins, disconnected or
broken wires, blown fuses, corroded connections and
poor insulation.
A refrigerant leak will usually appear as an oily
residue at the leakage point in the system. The oily
residue soon picks up dust or dirt particles from the
surrounding air and appears greasy. Through time,
this will build up and appear to be a heavy dirt im-
pregnated grease.
For a thorough visual and operational inspection,
check the following: * Check the surface of the radiator and con-
denser for dirt, leaves or other material which might
block air flow.
l Check for kinks in hoses and lines. Check the
system for leaks.
l Make sure the drive belt is properly tensioned.
When the air conditioning is operating, make sure the
drive belt is free of noise or slippage.
l Make sure the blower motor operates at all ap-
propriate positions, then check for distribution of the
air from all outlets with the blower on HIGH or MAX.
*Keep in mind that under conditions of high
humidity, air discharged from the A/C vents
may not feel as cold as expected, even if the
system is working properly. This is because
vaporized moisture in humid air retains heat
more effectively than dry air, thereby making
humid air more difficult to cool.
lifp thp winrkhi&i nnri winor hlarlP~ shmM hP kmt . ..“. .I.” . . * ““I.. “.” I..” ...r”* “.“““” “, ,““,” “” ,~“r~ clean. Dirt, tree sap, road tar and so on will cause
streaking, smearing and blade deterioration if left on
the glass. It is advisable to wash the windshield care-
fully with a commercial glass cleaner at least once a
month. Wipe off the rubber blades with the wet rag
afterwards. Do not attempt to move wipers across the
windshield by hand; damage to the motor and drive
mechanism will result.
To inspect and/or replace the wiper blade ele-
ments, place the wiper switch in the LOW speed po-
sition and the ignition switch in the ACC position.
When the wiper blades are approximately vertical on
the windshield, turn the ignition switch to OFF.
Examine the wiper blade elements. If they are
found to be cracked, broken or torn, they should be
replaced immediately. Replacement intervals will vary
with usage, although ozone deterioration usually lim-
its element life to about one year. If the wiper pattern
is smeared or streaked, or if the blade chatters across
the glass, the elements should be replaced. It is easi-
est and most sensible to replace the elements in
pairs.
If your vehicle is equipped with aftermarket blades,
there are several different types of refills and your vehi-
tcca-23 Fig. 126 Bosch@ wiper blade and fft kit
Fig. 129 T&o* wioer blade and fit kit tCS1224
lW1Z?5 Fig. 127 LexoP wiper blade and fit kit
Fig. 128 Pylon@ wiper blade and adapter
Fig. 131 To remove and install a LexoP
Fig, 130 Tripledge@ wiper blade and fit kit wiper blade refill, slip out the old insert and
slide in a new one

GENERALINFORMATIONAND MAINTENANC-E 1133
Used fluids such as engine oil, transaxle fluid, an-
tifreeze and brake fluid are hazardous wastes and
must be disposed of properly. Before draining any
fluids, consult with your local authorities; in many ar-
eas, waste oil, antifreeze, etc. is being accepted as a
part of recycling programs. A number of service sta-
tions and auto parts stores are also accepting waste
fluids for recycling.
Be sure of the recycling center’s policies before
draining any fluids, as many will not accept different
fluids that have been mixed together.
ENGINE OIL
6 See Figure 148
WMitsubishi recommends that SAE 5W-30
viscosity engine oil should be used for all clia
mate conditions, however, SAE low-30 is ac
ceptable for vehicles operated in moderate-
to-hot climates. the SAE number, the lighter the oil; the lower the vis-
cosity, the easier it is to crank the engine in cold
weather but the less the oil will lubricate and protect
the engine in high temperatures. This number is
marked on every oil container.
Oil viscosity’s should be chosen from those oils
recommended for the lowest anticipated temperatures
during the oil change interval. Due to the need for an
oil that embodies both good lubrication at high tem-
peratures and easy cranking in cold weather, multi-
grade oils have been developed. Basically, a multi-
grade oil is thinner at low temperatures and thicker at
high temperatures. For example, a low-40 oil (the W
stands for winter) exhibits the characteristics of a 10
weight (SAE 10) oil when the car is first started and
the oil is cold. Its lighter weight allows it to travel to
the lubricating surfaces quicker and offer less resis-
tance to starter motor cranking than, say, a straight
30 weight (SAE 30) oil. But atier the ensine reaches
operating temperature, the low-40 oil begins acting
like straight 40 weight (SAE 40) oil, its heavier weight
providing greater lubrication with less chance of
foaming than a straight 30 weight oil. Synthetic oil is not for every car and every type of
driving, so you should consider your engine’s condi-
tion and your type of driving. Also, check your car’s
warranty conditions regarding the use of synthetic oils.
FUEL
All models equipped with a SOHC (Single Over-
head Camshaft) engine are designed to operate using
regular unleaded fuel with a minimum of 87 octane.
All models equipped with a DOHC (Dual Overhead
Camshaft) engine are designed to operate using reg-
ular unleaded fuel with a minimum of 91 octane. Mit-
subishi warns that using gasoline with a lower octane
rating can cause persistent and heavy knocking, and
may cause internal engine damage.
If your vehicle is having problems with rough idle
or hesitation when the enoine is cold, it mav be
caused by low volatility fuel. If this occurs, iry a dif-
ferent grade or brand of fuel.
'OPERATION 1~ FOREIGN COUNTRIES
lccS1235 Fig. 148 look for the API oil identification
Non-detergent motor oils or straight mineral
label when choosing your enaine oil oils should not be used in your engine.
When adding oil to the crankcase or changing the
0 Nil or filter, it is important that oil of an equal quality
I original equipment be used in your car. The use of
. tc mtenor 011s may void the warranty, damage your en-
gine, or both. __
The SAE (Society of Automotive Engineers) grade
number of oil indicates the viscosity of the oil (its
ability to lubricate at a given temperature). The lower
Fig. 149 Grasp the oil level dipstick and pull
upward to remove it from the dipstick
tube
The API (American Petroleum Institute) designa-
tions, also found on the oil container, indicates the
classification of engine oil used under certain given
operating conditions. Only oils designated for use
Service SJ heavy duty detergent should be used in
your car. Oils of the SJ type perform may functions If you plan to drive your car outside the United
States or Canada, there is a possibility that fuels will
be too low in anti-knock quality and could produce
engine damage. It is wise to consult with local au-
thorities upon arrival in a foreign country to deter-
mine the best fuels available.
inside the engine besides their basic lubrication.
Through a balanced system of metallic detergents
and polymeric dispersants, the oil prevents high and
low temperature deposits and also keeps sludge and
dirt particles in suspension. Acids, particularly sulfu-
OILLEVELCHECK ric acid, as well as other by-products of engine com-
bustion are neutralized by the oil. If these acids are
# See Figures 149, 150, and 151
allowed to concentrate, thev can cause corrosion and
rapid wear of the internal engine parts.
Synthetic Oil
There are many excellent synthetic and fuel-effi-
cient oils currently available that can provide better
gas mileage, longer service life and, in some cases,
better engine protection. These benefits do not come
without a few hitches, however; the main one being
the price of synthetic oil, which is significantly more
expensive than conventional oil.
.
The EPA warns that urolonoed contact with used engine oil ma; cause-a number of skin
disorders, including cancer! You should
make every effort to minimize your exposure
to
used engine oil. Protective gloves should
be worn when changing the oil. Wash your
hands and any other exposed skin areas as
soon as possible after exposure to used en-
gine oil. Soap and water, or waterless hand
cleaner should be used.
Fig. 150 Wipe the dipstick clean and rein-
sert it into the dipstick
tube to get the cor-
rect oil level The engine oil dipstick is typically located in the
Fig. 151 The oil level should be between the
marks/notches on the dipstick

.
l-34 GENERALINFORMATIONAND MAINTENANCE
Engine oil level should be checked every time you
put fuel in the vehicle or are under the hood perform- miles of highway driving. Fluid which is warmed to
normal operating temperature will flow faster, drain
ing other maintenance.
1. Park the vehicle on a level surface.
2. The enaine mav be either hot or cold when
, if it is hot, wait a few min- checking oil level. The EPA warns that prolonged contact with
used engine oil may cause a num’ * * *
dianrAnrr inrldinn ranrnrl V#lll more completely and remove more contaminants
frnm tho clnnine
utes after the engine has been turned OFF to allow the
oil to drain back into the crankcase. If the engine is
cold, do not start it before checking the oil level. point on the oil pan. If not, you may have to raise the
vehicle slightly higher on one jackstand (side) than
3. Open the hood and locate the engine oil dip-
stick. Pull the dipstick from its tube, wipe it clean,
and reinsert it. Make sure the diDstick is fullv in-
serted.
4. Pull the dipstick from its tube again. Holding it to used engin
be worn whet
handsandan
so*m ..#a . . . . .
IDer 01 SKlll u,yu,u=,+, ,,,u,uu,,,u uu,,u=, i , vu should
uff art to minimize your exposure
le oil. Protective gloves should
1 changing the oil. Wash your
y other exposed skin areas as
111 aJ vv4ble after exposure to used en-
m nil St-mn mwl w&or nr umtarlncr hand gin Y “II. ““up “ll” .,U.“I, “rn W.Y.“. .““I .I....” cleaner should be used.
horizontally, read the oil level. The oilshould be be-
tween the MIN and MAX marks or the notches on the
dipstick. If the oil is below the MIN mark or lower
notch, add oil of the proper viscosity through the
capped opening of the valve cover. *The engine oil and oil filter should be
changed at the recommended intervals on
the Maintenance Chart. Though some manu-
facturers have at times recommended chang-
ing the filter only at every other oil change, ’
Chilton recommends that you always change
ll”,,, Cl>” ““y”‘“. 1. Raise and support the vehicle safely on jack-
stands. Make sure the oil drain olua is at the lowest
the other.
2. Before you crawl under the vehicle, take a look
at where you will be working and gather all the nec-
essary tools, such as a few wrenches or a ratchet and
strip of sockets, the drain pan, some clean rags and,
if the oil filter is more accessible from underneath the
vehicle, you will also want to grab a bottle of oil, the
new filter and a filter wrench at this time.
5. Reolace the diostick. and check the level aaain
. The benefit of fresh oil
p See Figures 152 thru 153
The oil and filter should be changed every 7,500
miles (12,000 km) under normal service and every
3,000 miles (5,000 km) under severe service.
93151p-55 Fig. 152 loosen the drain plug on the en-
a wrench. The drain plug’s 3. Position the drain pan beneath the oil pan
drain plug. Keep in mind that the fast flowing oil,
which will spill out as you pull the plug from the pan,
will flow with enough force that it could miss the pan.
Position the drain pan accordingly and be ready to
move the pan more directly beneath the plug as the
oil flow lessens to a trickle.
4. Loosen the drain ~lua with a wrench (or socket
and driver), then carefuliy unscrew the plug with your
fingers. Use a rag to shield your fingers from the
heat. Push in on the plug as you unscrew it so you
draining the oil, make sure that the engine is at oper- can feel when all of the screw threads are out of the
ating temperature. Hot oil will hold more impurities hole (and so you will keep the oil from seeping past
in suspension and will flow better, allowing the re- the threads until you are ready to remove the plug).
moval of more oil and dirt. You can then remove the plug quickly to avoid hav-
It is a good idea to warm the engine oil first so it ing hot oil run down your arm. This will also help as-
will flow better. This can be accomolished bv 15-20 sure that have the plug in your hand, not in the bot-
tom of a pan of hot oil.
Fig. 153 When loosened sufficiently, slowly
turn the drain plug by hand, keeping con- Fig. 154 When you are ready, carefully pull
Fig. 156 Also inspect the drain plug th
before installing it back into the oil
Fig. 155 Clean and inspect the threads on
the oil pan Make sure the gasket on the drain plug is
in place and does not require replacement Fig. 157 A plier-type filter wrench Is used
here to loosen the filter