SECTION 0

GENERAL LUBRICATION

SECTION INDEX

For the convenience of servicemen when writing up certain business papers such as L.&M.R.'s, D.B.M.R.'s, Product Information Reports, or reporting product failures in any way, we are showing below the location of the various unit numbers. These unit numbers and their prefixes are necessary on these papers for various reasons-such as accounting, follow-up on production, etc.

The prefixes on certain units identify the plant in which the unit was manufactured, and thereby permits proper follow-up of the plant involved to get corrections made when necessary.

Always include the prefix in the serial number.

Fig. A - Vehicle serial number located on left front body hinge pillar.

Fig. B - Six cylinder engine serial number located on pad on eight hand side of cylinder block at rear of distributor.

Fig. C - Eight cylinder engine serial number located on pad at front, right hand side of cylinder block.

Fig. D - Body style, body number, trim, type and point combination located on right hand shoulder of cowl, under the hood.

Fig. E - Rear axle serial number located on front, right side of differential carrier.

Fig. F - Conventional transmission serial number located on rear face of case in the upper right corner. O.D. unit, same identification.

Fig. G - Powerglide transmission serial number located on rear face of case in the lower right corner.

Fig. H - Battery code number located an cell cover, top of battery.

General Lubrication

The selection of the proper lubricant and its correct application at regular intervals does much to increase the life and operation of all moving parts of the vehicle. Consequently, it is important that the correct grade of oil or grease, as noted in the following pages, be used.

ENGINE CRANKCASE OIL

Proper selection of the oil to be used will add much to the performance, reliability, economy and long life of the engine.

LUBRICATION-FIRST 500 MILES

The engine crankcase of all new vehicles is filled with a light body "breaking-in" oil. Use this oil only during the first 500 miles. Check frequently and maintain the proper level. If it is necessary to add oil, use one of the light body oils described under "Oil Viscosity Numbers." At the end of the first 500 miles drain the "breaking-in" oil from the crankcase-when hot-and refill with an oil of the Viscosity Number and Type indicated below.

LUBRICATION-AFTER 500 MILES

After the first 500 miles the crankcase oil should be selected to give the best performance under the climatic and driving conditions in the territory in which the vehicle is driven.

During warm or hot weather, an oil which will provide adequate lubrication under high operating temperatures is required.

During the colder months of the year, an oil which will permit easy starting at the lowest atmospheric temperature likely to be encountered, should be used.

When the crankcase is drained and refilled, the crankcase oil should be selected, not on the basis of the existing temperature at the time of the change, but on the lowest temperature anticipated for the period during which the oil is to be used.

Unless the crankcase oil is selected on the basis of viscosity or fluidity at the anticipated temperature, difficulty in starting will be experienced at each sudden drop in temperature.

Oil Viscosity Numbers

SAE Viscosity Numbers indicate only the viscosity or body of the oil, that is, whether an oil is a light or a heavy body oil, and do not consider or include other properties or quality factors.

The lower SAE Viscosity Numbers, such as SAE 5W and SAE 10W which represent the light body oils, are recommended for use during cold

weather to provide easy starting and instant lubrication. The higher SAE viscosity Numbers such as SAE 20 and SAE 20W, which represents heavier body oils, are recommended for use during warm or hot weather to provide improved oil economy and adequate lubrication under high operating temperatures.

Oils are available which are designed to combine the easy starting characteristics of the lower SAE Viscosity Number with the warm weather operating characteristics of the higher SAE Viscosity Number. These are termed "multi-viscosity oils;" SAE 5W-10W, SAE 5W-20, SAE 10W-20W, and SAE 10W-30.

The following chart will serve as a guide for the selection of the correct SAE Viscosity Number for use under different atmospheric temperature ranges, and suggests the appropriate SAE Viscosity Numbers when multi-viscosity oils are used.

If the lowest antici-
pated temperature,
during the interval in          The following SAE
which the oil will re-          Viscosity Numbers
main in the crankcase,               are
         is:                      RECOMMENDED:

        32 Deg F               SAE 20W or SAE 20

         0 Deg F               SAE 10W

      Below 0 Deg F            SAE 5W

If the lowest antici-
pated temperature,
during the interval in          If the Multi-Viscosity
which the oil will re-          oils are used, the
main in the crankcase,          following grades are
         is:                       RECOMMENDED:
 

        32 Deg F               SAE 10W-30 or SAE 10W-20

         0 Deg F               SAE 10W-20 or SAE 10W-30

      Below 0 Deg F            SAE 5W-10 or SAE 5W-20

NOTE: For sustained high speed driving when the prevailing daylight temperature is above 90 deg F., S.A.E. 30 may be used.

Types of Oils

In service, crankcase oils may form sludge and varnish and under some conditions, corrosive acids unless protected against oxidation. To minimize the formation of these harmful products and to supply the type of oil best suited for various operating conditions, the oil industry markets several types of crankcase oils. These types have been defined by the American Petroleum Institute as follows:

"Service ML" (Comparable to former Regular Type) -Generally suitable for use in internal combustion engines operating under light and favorable service conditions.

"Service MM" (Comparable to former Premium Type) -Oil having the characteristics necessary to make it generally suitable for use in internal combustion engines operating under moderate to severe service conditions which present problems of sludge, varnish or bearing corrosion control when crankcase oil temperatures are high.

"Service MS" and "Service DG" (Comparable to former Heavy-Duty Types)-Oils having the characteristics to make them generally suitable for use in internal combustion engines operating under unfavorable or severe types of service conditions.

For maximum engine protection under all driving conditions, oils designated "For Service MS" or "For Service DG" are recommended.

Maintaining Oil Level

The oil gauge rod is marked "Full" and "Add Oil." These rotations have broad arrows pointing to the level lines. The oil level should be maintained between the two lines, neither going above the "Full" line nor under the "Add Oil" line.

Check the oil level frequently and add oil when necessary.

NOTE: It is advisable, when taking a long trip, to recheck the oil level after the first 100 miles of the trip. This is a precautionary measure, due to the possibility of crankcase dilution which would give a false oil level reading. The diluents which are usually the result of incomplete engine warm-up (traveling short distances) are driven out of the crankcase with high speed driving or sustained normal engine operating temperatures.

When To Change Crankcase Oil

Oils have been greatly improved, driving conditions have changed and improvements in engines, such as the crankcase ventilating system, have greatly lengthened the life of good lubricating oils. However, to insure continuation of best performance, low maintenance cost and long engine life, it is necessary to change the crankcase oil whenever it becomes contaminated with harmful foreign materials. Under normal driving conditions draining the crankcase and refilling with fresh oil every 2000 to 3000 miles is recommended.

It is always advisable to drain the crankcase only after the engine has become thoroughly warmed up or reached normal operating temperature. The benefit of draining is, to a large extent, lost if the crankcase is drained when the engine is cold, as some of the suspended foreign material will cling to the sides of the oil pan and will not drain out readily with the cold, slower moving oil.

Under the driving conditions described in the following paragraphs, it may become necessary to drain the crankcase oil more frequently.

High Temperature Operation

Frequent long runs at high speed, or continuous driving with heavy load, with the resultant high engine operating temperatures, may oxidize the oil and may result in the formation of sludge and varnish. While no definite drain periods can be recommended under these conditions, they should be more frequent than under normal driving conditions.

Dust Area Operation

Driving over dusty roads or through dust storms introduces abrasive material into the engine. Carburetor air cleaners decrease the amount of dust that may enter the crankcase. The frequency of draining depends on severity of dust conditions and no definite draining periods can be recommended, but should be more frequent than under normal driving conditions. The use of an oil-bath type air cleaner is recommended for use under dusty driving conditions.

Low Temperature Operation

Short runs in cold weather, such as city driving and excessive idling, do not permit thorough warming up of the engine and water, fuel and acid may accumulate in the crankcase. Water in the crankcase may freeze and interfere with proper oil circulation. These factors also promote corrosion and sludge formation and may cause clogging of oil screens and passages. Under normal driving conditions this water is removed in the form of vapor by the crankcase ventilator. However, if crankcase diluents accumulate, they should be removed by draining the crankcase as frequently as may be required.

Crankcase Dilution

Probably the most serious phase of engine oil deterioration is that of crankcase dilution which is the thinning of the oil by fuel vapor leaking by pistons and rings and mixing with the oil and by condensation of water on the cylinder walls and crankcase.

Leakage of fuel, or fuel vapors, into the oil pan occurs mostly during the "warming up" period when the fuel is not thoroughly vaporized and burned. Water vapor enters the crankcase through normal engine ventilation and through exhaust gas blow-by. When the engine is not completely warmed up, these vapors condense, combine with the condensed fuel and exhaust gases and form acid compounds in the crankcase.

As long as the gases and internal walls of the crankcase are hot enough to keep water vapor from condensing, no harm will result. However, when the engine is run in low temperatures moisture will collect and unite with the gases formed by combustion resulting in an acid formation. The acid thus formed is likely to cause serious etch or pitting which will manifest itself in excessively rapid wear on piston pins, camshaft bearings and other moving parts of the engine, often times causing the owner to blame the car manufacturer or the lubricating oil when in reality the trouble may be traced back to the character of fuel used, or a condition of the engine such as excessive blowby or improper carburetor adjustment.

Automatic Control Devices to Minimize Crankcase Dilution

The Chevrolet engine is equipped with automatic devices which aid greatly in minimizing the danger of crankcase dilution.

The thermostat, mounted in the cylinder head water outlet, restricts the flow of water to the radiator until a predetermined temperature is reached, thus minimizing the length of time required to reach efficient operating temperature, reducing the time that engine temperatures are conducive to vapor condensation.

A water by-pass is included in the cooling system, utilizing a hole in the front of the cylinder block. This allows a limited circulation of coolant, bypassing the thermostat until thermostat opening temperatures are reached. This system provides a uniform coolant temperature throughout the engine, eliminating localized hot-spots, improving exhaust valve life, provides fast warm-up of lubricating oil and fast temperature rise in the coolant which provides fast heater operation in cold weather.

A thermostatic heat control on the exhaust manifold during the warming up period, automatically directs the hot exhaust gases against the center of the intake manifold, greatly aids in proper vaporization of the fuel.

An automatic choke reduces the danger of raw or unvaporized fuel entering the combustion chamber and leaking into the oil reservoir.

An efficient crankcase ventilating system drives off fuel vapors and aids in the evaporation of the raw fuel and water which may find its way into the oil pan.

Oil Filter V-8 Engine

A full flow oil filter, provided as optional equipment, filters all of the oil delivered by the oil pump; for this reason the interval of cartridge change is very important. The oil filter cartridge should be replaced every 6000 miles.

Changing of Oil Filter Cartridge (V-8 Engine)

Unscrew cartridge container center bolt to remove filter cartridge.

Before installing new cartridge clean out cartridge container and place new seal in position in oil filter body casting.

NOTE: Oil filter center bolt should be tightened 20-25 ft. lbs. of torque.

Engine Fuel

Consider the refinery or marketer in choosing the gasoline for Chevrolet engines. Most gasoline will provide satisfactory performance, but under some conditions such as high temperatures or carbon accumulation, use of a premium gasoline will result in less detonation or "spark rap." Normal detonation or "spark rap" is not harmful. With Chevrolet six cylinder engines, regular fuel may be used, while the compression ratio of the Chevrolet V-8 engine is sufficiently high to fully utilize premium fuel.

Engine Compartment Lubrication

Every 1000 miles the oiler on each end of the generator should be filled to the top of the cap with No. 20 engine oil. If the oil in the commutator end bearing becomes completely exhausted through failure to lubricate at regular intervals, it will require more than a single filling to restore the oil reserve in this order. In such cases, fill the oil cup three times consecutively allowing sufficient time between fillings to allow the oil to drain down.

NOTE: The successive refilling of the oiler should only be performed at the rear oiler. Successive fillings should never be made at the front oiler. Over oiling at the front oiler may result in damage to the generator.

STARTER SOLENOID

Coat solenoid linkage with chassis lubricant every 1000 miles. Do not oil or grease solenoid plunger. Plunger coat is neoprene and will not be affected by lubricant on linkage.

6-CYLINDER MODELS

Lubricant cup located on side of housing is filled with chassis lubricant. Turn cup down one turn every 1,000 miles.

Distributor cap should be removed every 5,000 miles. Apply a small amount of Delco-Remy cam and ball bearing lubricant or other suitable high melting point non-bleeding grease on distributor cam surface. Add a few drops of light engine oil to the breaker lever pivot.

8-Cylinder Models

An oil cup on the side of the distributor housing should be filled with light engine oil every 1,000 miles.

Every 5,000 miles, add a trace of Delco-Remy cam and ball bearing lubricant or other suitable high melting point, non-bleeding grease to the breaker cam. Put a few drops of light engine oil on the wick in the camshaft under the rotor and on the breaker lever pivot. Add 3 or 4 drops of light engine oil to the felt wicks between the plates. Wipe off any excess oil appearing on the breaker plate.

BATTERY TERMINAL WASHERS

Battery terminals have felt washers between top of case and cable connections to minimize corrosive action of battery acid. These felt washers should be saturated with engine oil every 1000 miles.

Rear Axle, Conventional Transmission and Overdrive

The passenger car operates under the most severe lubrication conditions at high speed and requires a hypoid lubricant which will meet this condition.

Recommended Lubricants

Rear Axles-S.A.E. 90 "Multi-Purpose" gear lubricant.

Transmissions-S.A.E. 90 Straight Mineral Oil gear lubricant. S.A.E. 90 "Multi-Purpose" gear lubricant.

CAUTION: Straight Mineral Oil gear lubricants must not be used in hypoid rear axles.

The S.A.E. 90 viscosity grade is recommended for year round use. However, when extremely low temperatures are encountered for protracted periods during the winter months, the S.A.E. 80 viscosity grade may be used.

"Multi-Purpose" Gear Lubricants

Gear lubricants that will satisfactorily lubricate hypoid rear axles have been developed and are commonly referred to as "Multi-Purpose" gear lubricants.

These lubricants can also be satisfactorily used in transmissions and steering gears requiring a fluid lubricant.

"Multi-Purpose" gear lubricants must be manufactured under carefully controlled conditions and the lubricant manufacturer must be responsible for the satisfactory performance of his product. His reputation is the best indication of quality.

Lubricant Additions

The lubricant level in the axle and transmission housings should be checked periodically. It is recommended that any additions required to bring up the lubricant level be made using the same type lubricant already in the housing.

When checking lubricant level in transmission or rear axle the unit being checked should be at operating temperature. With unit at operating temperature the lubricant should be level with bottom of the filler plug hole. If the lubricant level is checked with the unit cold the lubricant level should be 1/2 inch below the filler plug hole.

Lubricant Changes

Seasonal changes of the lubricant are not required. When refilling is necessary, refill with lubricants recommended above.

Gearshift Idler Lever Bushings

A few drops of light engine oil should be used on the gearshift idler lever bushing every 1000 miles. Lubrication of this point will facilitate shifting of second and high gear.

Powerglide Transmission

Check oil level with engine idling, parking brake set, transmission warm and control lever in Neutral (N) position. Add only "Automatic Transmission Fluid Type "A," bearing an AQ-ATF number when level reaches "add 1 qt." mark on oil level rod. Do not allow dirt to enter filler tube.

Drain and refill the Powerglide transmission every 25,000 miles. Before draining, warm transmission up to operating temperature. Complete draining is accomplished as follows:

1. Remove transmission case drain plug - this draws oil from transmission case.
2. After transmission is completely drained, install transmission case plug.
3. Remove dip stick and refill transmission with five (5) quarts of Automatic Transmission Fluid "Type A."
4. Start engine, and allow to idle for a few minutes in Neutral position and then check oil level. If necessary add oil to bring up to full mark on dip stick.

The universal joints are lubricated and sealed at the factory. It is recommended that they be disassembled, cleaned and lubricated every 25,000 miles with a high-melting point, wheel bearing type lubricant.

Axle Bearings

A new type rear wheel bearing that is permanently packed upon installation at the factory is used in the 1956 models. Further lubrication of rear wheel bearings is unnecessary. Replacement is outlined in Section 4 of this manual.

Steering Gear

The steering gear is filled at the factory with a special all-season gear lubricant. Seasonal change of this lubricant is unnecessary and the housing should not be drained. Whenever required, additions should be made using a lubricant which, at low temperatures, is fluid and will not "channel" or cause "hard steering" and which will provide satisfactory lubrication under extreme summer conditions. Steering gear lubricants are marketed by many oil companies and either "Multi-Purpose" or "Universal" gear lubricants are satisfactory to use.

The pipe plug is installed in its particular location in the steering gear housing to prevent over lubrication, generally occasioned by the use of a pressure gun. Over-lubrication of this unit might result in forcing lubricant up the steering gear tube to the horn button and steering wheel.

On models equipped with power steering gear, check fluid in pump reservoir. Add Automatic Transmission Fluid bearing an AQ-ATF number to bring level to full mark on reservoir tank.

Chassis Lubrication

For chassis lubrication, consult the lubrication chart Figure 1. It shows the points to be lubricated and how often the lubricant should be applied.

The term "chassis lubricant" as used in this manual, describes a semi-fluid lubricant designed for application by commercial pressure gun equipment. It is composed of mineral oil (300 to 500 seconds Saybolt Universal viscosity at 100°F) combined with approximately 8% soap, or soaps which are insoluble in water.

BODY LUBRICATION

Many of the annoying squeaks and noises that occur in closed bodies are due to neglecting a very important maintenance service which all bodies should receive regularly.

The movable mechanical parts of the body are lubricated at the factory for easy operation and to eliminate squeaks caused by frictional contact. This lubrication should be maintained and replenished at periodic intervals.

Most body lubrication points do not carry heavy loads like the chassis, and for this reason many of the points do not require as heavy nor as frequent lubrication as the chassis points.

For body lubrication, a specific kind of lubricant, the one best suited for individual points, should be used. Knowing what to use and where to use it, together with a little care and cleanliness, will bring many returns in the satisfaction and pleasure of driving a car properly serviced.

The following parts should be lubricated twice a year.

Application

Instrument Compartment Door Hinge
Lubricant....Dripless

Front Door Hold Open Clips
Lubricant....Lubriplate or Equivalent

Door Jamb Light Switch
Lubricant....Lubriplate or Equivalent

Door Lock Bolt Housing
Lubricant....Stick Type Lubricant

Door Lock Striker Teeth.
Lubricant....Stick Type Lubricant

Rear Door Hinge and Hold Open.
Lubricant....Lubriplate

Deck Lid Hinge and Torque Rod Ends.
Lubricant....Lubriplate or its Equivalent

Deck Lid Lock Bolt.
Lubricant....Lubriplate or its Equivalent

Gas Filler Door Hinge.
Lubricant....Dripless Oil

Folding Top Linkage Bearing Points.
Lubricant....No. 10 Engine Oil

Side Roof Rail Mechanical Sealing Strip Gasket.
Lubricant....Silicone Emulsion

Weather Strips.
Lubricant....Rubber Lubricant

Parts to be lubricated when access to parts can be obtained.

Windshield Wiper Motor and Transmission Spools
Lubricant....Lubriplate

Door Lock Parts
Lubricant....Lubriplate

Window Regulator Rack and Cam Channels
Lubricant....Lubriplate

Seat Adjusters and Seat Track
Lubricant....Lubriplate

Wipe off all lubrication points before applying new lubricant. Remove all excess lubricant to prevent staining of trim parts where necessary.

Overlubrication

Excessive lubrication of body parts usually causes more complaints than lack of lubrication. If a soft, dark grease is applied to a door lock bolt or a dovetail wedgeplate on the exposed face of the door, a slight brush across this soft grease may ruin a gown and spoil the entire evening for the owner and others. Too much lubrication applied to exposed parts serves no good purpose. It is not only a waste of material but is a contribution to serious complaints.

Lubricate only where squeaks develop, or where conditions indicate that the addition of lubricant is desirable for easier operation of individual units or points.

POINTS OF LUBRICATION (See fig. 1)

1. Front Suspension Spherical Joints
2. Steering Linkage
3. Generator
4. Distributor
5. Steering Gear
6. Starter Solenoid Linkage
7. Rear Axle
8. Transmission
9. Crankcase Breather Cap
10. Air Cleaner
11. Front Wheel Bearings
12. Propeller Shaft Universal Joints

Further information on these points is given previously in this Section.