wheel size CHEVROLET CAMARO 1967 1.G Chassis Workshop Manual

CORVETTE BODY 1B-32

1.
Panel - Underbody

2.
Panel - Wheel Housing

Closing - Right Hand

3. Shield - Right Hand Splash

4.
Nut

5. Panel - Underbody Closing
Fig.
68—Underbody Construction

6. Shield - Left Hand Splash

7. Nut

8. Reinforcement - Body

Mounting

9. Panel - Wheel Housing Closing

- Left Hand
10.
Plate - Seat Belt Mounting

11.
Bracket - Center Cover

Mounting

12.
Plate - Transmission Control

Boot Retaining

the broken or cracked portion. Side of "V" should

have a shallow pitch for maximum bonding surface.

A belt sander with a vacuum attachment will mini-

mize the dust problem, Figure 75.

4.
If rear of damage is accessible, use a button-type

repair. Clean back of area to permit the use of

laminate (resin-saturated glass-cloth) on both sides

of damaged area.

5. Cut fiberglass cloth to size. Make certain a minimum

of five layers is cut for the average repair.

6. Mix resin and hardener, 1 part hardener to 4 parts

resin. Add Thixatrope to the mix to give the mix

body and reduce the "runniness" of the material.

CAUTION: Cleanliness is most important. Be

certain all containers are dry and clean and

the resin and hardener cans are kept closed

when not in use. Do not use waxed cups for

mixing and do not allow resin to enter hardener

can or vice versa.

7. Saturate layers of fiberglass (fig. 76). Place lami-

nate over damage area. Smooth out wrinkles and

make sure general contour of area is maintained,

Figure 77.
8. Apply heat to repair area. Heat lamps are recom-

mended, used at least 12" away from repair. Allow

.15 to 20 minutes curing time. Trim repair to shape

at gel stage.

9. After the repair is cured, grind, file or sand to

contour. Files other than body files may be more

suitable. A belt sander with a vacuum cleaner at-

tachment will minimize the dust problem. Feather

edge and finish sand.

NOTE:
After Resin Repair, small pits or ir-

• regularities may appear in finished surface.

Imperfections should be repaired using the

Plastic Solder Repair Kit.

SPECIFIC REPAIRS

Scratched Panels, Spot Refinishing

In many instances, a scratched panel will involve only

a paint refinishing job. Figure 78 shows the top of a

fender panel which has been scratched through to the

plastic.

CHEVROLET CHASSIS SERVICE MANUAL

SECTION 2

FRAME

INDEX

Page

General Description 2-1

Chevrolet 2-1

Cheveile '. 2-1

Repair Procedures 2-1
Page

Checking Frame Alignment 2-1

Car Preparation 2-1

Tramming Sequence 2-1

Reference Point Dimensions 2-1

GENERAL DESCRIPTION

CHEVROLET AND CHEVELLE

Frames used on Chevrolet and Cheveile lines are basi-

cally the same, consisting of full length right and left

side members joined laterally by crossmembers. Sev-

eral different frames are used in each line to meet the

various vehicle size and function requirements but the

basic shape for each line remains the same. Differences

between frames in a given line exist only in metal gauge,

part size and numbers of parts necessary to meet the

particular structural requirements of the models

involved.

CORVETTE

The Corvette frame is a rigid perimeter unit, with five
crossmembers. From the rear kick-up forward, trap-

azoidal shaped, closed side members outline and protect

the passenger compartment. At the cowl area, the side

members curve inward in a sweeping "S" shape, to pro-

vide a sturdy foundation for the engine mounts and clear-

ance for front wheel movement. From the kick-up

rearward, box-sectioned side rails provide fore and aft

support for the rear axle and suspension. Lateral sup-

port is provided by five variously shaped welded-in

crossmembers, including the front unit, which formerly

was bolted-in.

CHEVY II AND CAMARO

Underbody alignment checking procedures will be found

in the Body Service Manual.

REPAIR PROCEDURES

CHECKING FRAME ALIGNMENT

Vehicles involved in an accident of any nature which

might result in a "swayed" or "sprung" frame should

always be checked for proper frame alingment in addi-

tion to steering geometry and wheel alignment.

CAR PREPARATION

Preparing the car for the frame alignment check in-

volves the following:

1.
Place the car on level surface.

2.
The weight of the car should be supported at the

wheel locations.

3.
A visual damage inspection should be made to elim-

inate needless measuring. Obviously damaged or

misaligned areas can often be located by sight.

TRAMMING SEQUENCE

When checking a frame for alignment in case of dam-

age,
the first step is horizontal "X" checking with a

tram from similar given points on opposite side of the

frame.

Frame alignment checks on all models should be made

with the tram points set at the center of each locating

point indicated and the cross bar level to insure

accuracy.

When "X" checking any section of the frame, the

measurements should agree within 3/16". If they do not,
it means that corrections will have to be made.

If a tram gauge is not available, the "plumb bob"

method of checking may be used. To assure any degree

of accuracy when using this method, the vehicle should

be on a level floor.

By using this method, it is only necessary to have a
#

piece of cord attached to an ordinary surveyor's plumb

bob.
When measuring the distance between two points,

the free end of the cord should be placed on the reference

point allowing the plumb bob to hang on the floor. A check

mark should be made on the floor just under the tip of

the plumb bob. This operation should be repeated at all

reference points. With these points located on the floor,

they may easily be measured with a rule.

The second step is checking the vertical dimensions

from the datum plane to the points to be trammed. With

the proper settings the tram bar will be on a plane

parallel to that of the frame. The exception to this would '

be when one of the reference locations is included in the

misaligned area; then the parallel plane between the

frame and the tram bar may not prevail. After com-

pletion of the repairs, the tram gauge should be set at

the specified dimension to check the accuracy of the re-

pair operation.

ALIGNMENT REFERENCE POINT DIMENSIONS

Dimensions to holes are measured to dead center of

the holes and flush to the adjacent surface metal.

CHEVROLET CHASSIS SERVICE MANUAL

REAR SUSPENSION AND DRIVE LINE 4-7

tioned vertically in the torque arm before ap-

plying pressure to the puller screw.

5.
Remove shim and bearing spacer from spindle

support.

6. Note size of shim used. If dial indicator reading

was more than
.008",
select a shim thinner by the

amount needed to bring end play within limits. If

dial indicator reading was less than
.001",
select a

shim thicker by the amount needed to bring end play

within limits.

NOTE: Shims are available in thicknesses from

.097"
to .148" in increments of
.003".

EXAMPLE: Bearing end play reading obtained

on dial indicator was
.011",
.003" over limit.

Bearing shim removed from spindle measures

.145".
New shim installed measures .139", .006"

smaller. End play is now decreased by .006" and

is
.005",
which is within the .001" to .008" limit.

7.
After determining shim thickness, install bearing

spacer and shim on spindle. Position spindle in

spindle support.

8. Press inner bearing race and roller assembly on

spindle as follows.

a. Position Tool J-4731 over spindle and against

bearing inner race.

b.
Position washer and spindle nut on spindle and

proceed to tighten nut until bearing is forced on

spindle sufficiently to allow spindle drive flange

to be installed (fig. 13). Remove spindle nut,

washer and Tool
J-4731.
Discard nut and use a

new one for final assembly.

9. Position drive flange over spindle, making sure

flange is aligned with spindle splines. Install washer
Fig.
13—Installing Drive Spindle to Support (Corvette)

and nut on spindle then tighten nut to specifications

and install cotter pin. If specified torque does not

permit cotter pin insertion, tighten nut to next flat.

10.
Seat spindle support outer seal in bore by using

screw driver, or other suitable tool, to press against

metal portion of seal.

11.
Install brake disc and caliper. Refer to Section 5

for details of brake disc and caliper installation.

12.
Install axle drive shaft, wheel and tire assembly,

adjust camber cam to original position and torque

all components to specifications.

COMPONENT PARTS REPLACEMENT

(Chevrolet, Chevelle, Chevy II and Camaro)

COIL SPRING

Chevrolet

Removal

To remove either or both rear coil springs proceed

as follows.

1.
Raise rear of vehicle and place jack stands under

frame. Support vehicle weight at rear, using either

a jack or post of twin-post hoist under axle.

2.
Remove both rear wheels from vehicle.

3.
With the car supported as in Step 1, so that the rear

springs are compressed by weight of vehicle; per-

form the following:

a. Disconnect both rear shock absorbers from the

anchor pin lower attachment.

b.
Loosen the upper control arm(s) rear pivot bolt

(do not remove the nut).

C. Loosen both the left and the right lower control

arm rear attachment (do not disconnect from axle

brackets).

d. Remove the rear suspension tie rod from the

stud on the axle tube.

4.
At the lower seat of both rear coil springs, slightly

loosen the nut on the bolt that retains the spring and

seat to the control arm. When the nut has been

backed off the maximum permissible, all threads of
the nut should still be engaged on the bolt.

CAUTION: Under ,no condition should the nut,

at this time, be removed from the bolt in the

seat of either spring.

5.
Slowly lower the support (jack or hoist post) that has

been in place under the rear axle, thereby allowing

the axle to swing down, carrying the springs out of

their upper seat and providing access for spring

removal.

6. Remove the lower seat attaching parts from each

spring, then remove the springs from the vehicle

(fig. 14).

Installation

1.
Position the springs in their upper seat so that end

of top coil is 3/8" ± 1/8" from end of stop. Install

the lower seat parts on the control arm, with the nut

finger tight on the spring retainer bolt.

NOTE: Omit the lock washer under the special

high carbon bolt, so that sufficient bolt thread

will be available to start the nut. The lock

washers will be installed later (in Step 4).

2.
By alternately raising the axle slightly and then

re-snugging the nut on each spring lower seat bolt,

move the axle upward until vehicle weight is fully

CHEVROLET CHASSIS SERVICE MANUAL

REAR SUSPENSION AND DRIVE LINE 4-20

Fig.
51—Shock Absorber Installation (Corvette)

6. Tap new spindle inner grease seal into seal bore

and install deflector over support inner end.

Installation

1.
Position support over torque arm bolts with strut

rod fork toward center of vehicle and downward.

Place backing plate over studs and torque nuts to

specifications.

2.
Connect parking brake cable to actuating lever.

3.
Install drive spindle assembly as outlined previously

in this section under "Wheel Bearing Adjustment".

4.
If new spindle support or associated parts are in-

stalled, determine correct shim size as follows.

a. Assemble spindle to support, using a .145" shim.

b.
Check bearing adjustment and correct as neces-

sary, following adjustment procedures previously

outlined.

DIFFERENTIAL CARRIER SUPPORT

BRACKET REPLACEMENT

1.
Place a 1/2" thick block of wood or steel between

nose of differential carrier and floor pan. This will

prevent carrier from twisting upward when support

bracket is disconnected.

2.
Remove carrier support-to-crossmember attaching

bolt.

3.
Remove nut from both of the bracket-to-carrier

through bolts.

4.
Slide bolts to one side until bolt head contacts floor

well. Mark the floor well at this point and drill a

3/4"
diameter hole for each bolt in floor well and

remove bolts.

5. Assemble carrier support bracket by reversing

above procedure. Torque all affected parts to

specifications.

6. Insert plastic plugs from the inside of the floor well

holes to prevent dust and water entry.
STRUT ROD SHAFT STRUT ROD

CAMBER CAM

AND BOLT

Fig.
52—Strut Rods (Corvette)

SHOCK ABSORBER (Fig. 51)

Removal

1.
Disconnect shock absorber upper mounting bolt*

2.
Remove lower mounting nut and lock washer.

3.
Slide shock upper eye out of frame bracket and pull

lower eye and rubber grommets off strut rod mount-

ing shaft.

4.
Inspect grommets and shock absorber upper eye for

excessive wear.

Installation

1.
Slide upper mounting eye into frame mounting

bracket and install bolt, lock washer and nut.

2.
Place rubber grommet, shock lower eye, inboard

grommet, washers and nut over strut rod shaft.

3.
Torque nuts to specifications.

STRUT ROD AND BRACKET (Fig. 52)

Removal

1.
Raise vehicle enough to provide working clearance.

2.
Disconnect shock absorber lower eye from strut

rod shaft.

3.
Remove strut rod shaft cotter pin and nut. With-

draw shaft by pulling toward front of vehicle (fig. 53).

4.
Mark relative position of camber adjusting cam and

Fig.
53-Removing Strut Rod Shaft (Corvette)

CHEVROLET CHASSIS SERVICE MANUAL

REAR SUSPENSION AND DRIVE LINE 4-25

Fig.
69—Removing Crossmember (Corvette)

4.
Remove bolts securing carrier cover to cross-

member.

5.
Inspect rubber isolation mounts for aging and re-

place where necessary.

Repairs—Isolation Mount

1.
Bend back isolation mount tabs to allow mount re-

moval (fig. 70).

2.
Place crossmember on a suitable support and press

mount out of arm using a piece of suitable size pipe

or tubing on outer shell or inner insert.

3.
Place new mount into position on crossmember,

compress outer sleeve and press mount into place

until it is fully and squarely seated.

4.
After installation, bend over locking tabs.

Installation

1.
Install carrier cover to crossmember and torque

bolts to specifications.

2.
Raise crossmember into position and install mount-

ing bolts. Torque bolts to specifications.

3.
Install differential carrier assembly as outlined

under Differential Carrier
-
Installation in this

section.

4.
Install wheels and tires, remove frame supports and

lower vehicle.

STABILIZER SHAFT REPLACEMENT

1.
Raise rear of vehicle and support at frame side rail

with stand jacks.

2.
Disconnect stabilizer shaft at both torque arms (fig.

71).
Remove stabilizer shaft brackets from the

frame and withdraw assembly from vehicle.
ISOLATION MOUNT

CROSSMEMBER

BEND OVER TABS AFTER INSTALLATION

Fig.
70—Crossmember Mount Cross-Section (Corvette)

3.
Inspect bushings for signs of deterioration, and in-

spect shaft for bends, breaks or other defects - do

not attempt to straighten shaft - replace parts as

deemed necessary.

4.
Position bushings on shaft and loosely install shaft

to torque arms and at frame brackets.

5.
Align shaft to assume proper placement when bolts

are torqued, and torque attaching bolts to

specifications.

Fig.
71—Stabilizer Shaft Installation (Corvette)

CHEVROLET CHASSIS SERVICE MANUAL

BRAKES 5-6

Fig.
9—Brake Pedal Free Movement

one or two points in appropriate direction, replace

retainer, and re-inspect.

6. Place steel tube connector in hose fitting and tighten

securely.

7. Bleed all brakes as outlined in this section.

8. Do not tighten male end (wheel cylinder end) once

the other end is fixed. If necessary to tighten male

1 end, disconnect hose at opposite end, then reconnect

following above procedure.

Hydraulic Brake Tubing

Hydraulic brake tubing is a double layer annealed

steel terne plate tubing which resists corrosion and has

the physical strength to stand up under the high pr.es-
Fig.
11—Hydraulic Brake Tube Double Flaring Tool

sures which are developed when applying the brakes. In

making up hydraulic brake pipes, it is important that

the proper flaring tool be used to flare the ends of the

tubing for the compression couplings. Unless the tubing

is properly flared, the connections will leak and the

brakes will become ineffective.

CAUTION: When necessary to replace brake

tubing, always use special steel tubing which

is designed to withstand high pressure and re-

sist corrosion. Ordinary copper tubing is not

satisfactory and should not be used.

This safety steel tubing must be double-lap flared at

the ends in order to produce a strong leak-proof joint.

The brake tube flaring. Tool J-8051 (fig. 11) is used to

form the double-lap flare.

Figure 12 shows two pieces of tubing, one with single-

lap flare "A" and the other with double-lap flare "B".

It will be noted that the single-lap flare in "A" split

the tubing while the one shown in "B" is well-formed and

unbroken due to the reinforcement of the double wall.

The following procedure should be followed in making

up hydraulic brake pipes.

Double Lap Flaring

1.
Clamp the tubing in the proper size die blocks with

the flat ends of the blocks toward the end of the

tubing to be cut off. Cut the end of the tubing flush

and square. Using a mill file, dress tubing and

square ends.

Fig.
10-Brake Line Support Bracket

Fig.
12—Single and Double Lap Flaring

CHEVROLET CHASSIS SERVICE MANUAL

BRAKES 5-7

LATCH PLATE

DIE BLOCK

TUBE
UPSET FLARE PUNCH

RAM GUIDE

STOP PLATE

Fig.
13—Flaring Operation--Position ing Tubing

2.
Remove the tubing from the die block and deburr

the inside and outside edges.

3.
Install compression couplings on tubing and dip end

of tubing to be flared in hydraulic fluid. This lubri-

cation results in better formation of the flare.

4.
Place on-half of the die blocks in the tool body with

the counterbored ends toward the ram guide. Now

lay the tubing in the block with approximately 1/2"

protruding beyond the end.

Fit the other half of the block into the tool body,

close the latch plate and tighten the nuts "finger

tight".

5. Select the correct size upset flare punch. One end

of this punch is counterbored or hollowed out to

gauge the amount of tubing necessary to form a

double lap flare. Slip the punch into the tool body

with the gauge end toward the die blocks. Install the

ram; then tap lightly until the punch meets the die

, blocks and they are forced securely against the

stop plate (fig. 13).

6. Using the supplied wrench, draw the latch plate

nut down tight to prevent the tube from slipping.

Tightening the nuts alternately (beginning with the

nut at the closed hole in the plate) will prevent

distortion of the plate. Remove the punch and the

ram. Now reverse the punch and put it back into the

tool body. Install the ram and tap it lightly until

the face of the upset flare punch contacts the face

of the die blocks (fig. 14). This completes the

first operation. Remove the ram and the punch.

7. To complete the flare, insert the pointed finish

flare punch and the ram into the tool body. Tap

the ram until a good seat is formed (fig. 15).

NOTE:
The seat should be inspected at inter-

vals during the finishing operation to avoid

over-seating.

LATCH

DIE BLOCK

TUBE
UPSET FLARE PUNCH
RAM GUIDE

RAM
1ST OPERATION

UPSET FLARE

PUNCH
2ND OPERATION

FINISH FLARE

PUNCH

Fig.
15—Flaring Operation—First and Second Flare

BRAKE ADJUSTMENT

Service Brake

Although the brakes are self-adjusting, a preliminary

or initial adjustment may be necessary after the brakes

have been relined or replaced, or whenever the length

of the adjusting screw has been changed. The final

adjustment is made by using the self-adjusting feature.

1.
With brake drum off, disengage the actuator from

the star wheel and rotate the star wheel by spinning

or turning with a small screw driver.

2.
Recommended

a. Use special Tool J-21177; Drum-to-Brake Shoe

Clearance Gauge, to check the diameter of the

brake drum inner surface (fig. 16).

Fig.
14—Flaring Operation—First Flare
Fig.
16—Using Drum-to-Brake Shoe Clearance

Gauge Tool J-21177

CHEVROLET CHASSIS SERVICE MANUAL

BRAKES 5-22

2.
Replace ail push rods and pull back springs.

3.
Connect hose or line to wheel cylinder.

NOTE:
If replacing front wheel cylinder, con-

nect hose and inspect installation as outlined in

"Hydraulic Brake Hose Replacement".

4.
Install drum and wheel.

5. Bleed brakes as outlined in this section.

ANCHOR PIN

Front Wheel

1.
Raise front of vehicle and place on jack stands.

2.
Remove wheel and drum as outlined in this section.

3.
Remove brake shoe pull back springs, link and guide

plate.

4.
Disengage anchor pin lock and remove anchor pin by

turning counterclockwise.

5. Place new lock plate on anchor pin and pass pin

through the hole in flange plate and screw into tapped

hole in spindle support.

6. Torque pin to 130 lb. ft. and lock by peening over

washer tabs.

7. Install brake shoe guide plate, link and pull back

springs.

8. Adjust brakes, install drum and wheel as outlined

in this section. Test brake operation.

Rear Wheel

Two type anchor pins are used in production for the

rear wheels. The riveted type is not serviced and if

failure or damage should occur to either the anchor

pin or flange plate, both parts will have to be replaced

and the threaded type anchor pin used.

Threaded Type

1.
Raise rear of vehicle and place on jack stands,

2.
Remove wheel and drum as outlined in this section.

3.
Remove brake shoe pull back springs, link and guide

plate.

4.
Remove anchor pin retaining nut and washer and

remove pin from flange plate.

5. Position anchor pin to flange plate, install lock

washer and nut, and torque pin to 80 lb. ft.

6. Install brake shoe guide plate, link and pull back

springs.

7. Adjust brakes and install drum and wheel as outlined

in this section.

8. Test brake operation.

BRAKE DRUMS

Front brake drums are the demountable type; that is,

they can be removed without removing the hub. Rear

brake drums are demountable and may be removed

wihtout removing the axle shaft.

A lanced "knock out" area (fig. 34) is provided in

the web of the brake drum for servicing purposes in

the event retracting of the brake shoes is required in

order to remove the drum.

A small screw driver or hooked wire may be inserted

to disengage the automatic adjuster actuating lever so

the star wheel may be turned.

Removal

1.
Raise vehicle and place on jack stand.
2.
Remove wheel and tire assembly, back off brake

adjustment and remove drum.

Inspection and Reconditioning

Whenever brake drums are removed they should be

thoroughly cleaned and inspected for cracks, scores,

deep grooves, and out-of-round. Any of these conditions

must be corrected since they can impair the efficiency

of brake operation and also can cause premature failure

of other parts.

Smooth up any slight scores by polishing with fine

emery cloth. Heavy or extensive scoring will cause

excessive brake lining wear and it will probably be

necessary to rebore in order to true up the braking

surface.

An out-of-round drum makes accurate brake shoe

adjustment impossible and is likely to cause excessive

wear of other parts of brake mechanism due to its

eccentric action.

A drum that is more than .008" out-of-round on the

diameter is unfit for service and should be rebored.

Out-of^round, as well as taper and wear can be ac-

curately measured with an inside micrometer fitted

with proper extension rods.

If drum is to be rebored for use with standard size

brake facings which are worn very little, only enough

metal should be removed to obtain a true smooth braking

surface.

If drum has to be rebored more than .020" over the

standard diameter, it should be rebored to .060" diameter

oversize and the brake facing should be replaced with

.030"
oversize facings.

A brake drum must not be rebored more than .060"

over the maximum standard diameter, since removal

of more metal will effect, dissipation of heat and may

cause distortion of drum. Chevrolet brake facing is

not furnished larger than .030" oversize and this will

not work efficiently in drums bored more than .060"

oversize.

Brake drums may be refinished either by turning or

grinding. Best brake performance is obtained by turning

drums with a very fine feed. To insure maximum lining

life,
the refinished braking surface must be smooth and

free from chatter or tool marks, and run-out must not

exceed .005" total indicator reading.

Cleaning

New brake drums in parts stock are given a light.

coating of rust proofing oil to prevent the formation of

rust on the critical braking surfaces during the time

that the drums are in storage.

This rust proofing oil must be carefully removed

before the drum is placed in service to prevent any

of this oil from getting on the brake shoe facings, which

might cause an extreme brake grab condition.

It is recommended that a suitable volatile, non-toxic,

greaseless type solvent be used to clean the oil from the

braking surface of the new brake drums before they are

•placed in service to insure the cleanest possible surface.

Gasoline or kerosene should not be used as there is

danger that a portion of the diluated oil substance may

be left on the braking surface that may later cause

difficulty.

Installation

1.
Make brake adjustment as outlined in this section.

CHEVROLET CHASSIS SERVICE MANUAL

SECTION 10

WHEELS AND TIRES

INDEX

Page

General Description
10-1

Maintenance
and
Adjustments
.............. 10—1

Tires
10-1

Pressures . 10-1

Inspection 10-1

Wear 10-1

Rotation 10-4

Noise 10-4

Cleaning 10-4

Change (W/Wheels) 10-4

Wheels 10-5

Static Balancing (w/Tire) 10-5
Page

Dynamic Balancing (w/Tire) . 10-5

Run Out (w/o Tire) 10-5

Cleaning 10-5

Service Operations 10-5

Tires 10-5

Removal 10-5

Installation 10-5

Repair 10^6

Wheels . 10-6

Valve Assembly 10-6

Repair (Rim) 10-7

GENERAL DESCRIPTION

WHEELS

Chevrolet, Chevelle, Camaro, Chevy n, and Corvette

are base equipped with welded steel wheels. Five studs

with nuts fasten each wheel to the front hub or rear axle

flange. Disc brake equipped vehicles (except Chevrolet

and Corvette) require special 14 inch diameter wheels

with a revised design for clearance, Chevrolet disc brake

equipped vehicles have 15 in. diameter wheels as do all

Corvettes.

Chevrolet station wagons, Chevelle Super Sport 396,

Corvette and Camaro Super Sport 350 are base equipped

with 6 in. width wheels. All other vehicles have 5 in.

width wheels, except Chevy n 100, 300 and 500 Series

Sedans, which have 4 in. width wheels.

Do not install 6 inch width wheels or snow chains on

Chevrolets equipped with rear fender skirts.

TIRES

The factory installed tires on Chevrolet passenger

cars are selected to provide the best all around tire

performance for all normal operation. They are de-

signed to operate satisfactorily with loads up to and in-

cluding the specified full rated load capacity of the
automobile when inflated as recommended in the Vehicle

Capacity Rating and Recommended Tire Inflation Pres-

sures Table (see Specifications).

Optional Oversize and 8-Ply Rating Tires

{Chevrolet and Chevelle Only)

Oversize or 8-ply rating tires are not necessary on

passenger cars for normal requirements. However, an

extra margin of tire service is available when these

options are used at loads up to and including full rated

load.

Optional oversize 4-ply rating and/or 8-ply rating

tires are available on models as indicated in the Tire

Usage Chart (see Specifications). On some models (ex-

ample—Station Wagon), space limitations do not permit

the use of a larger size tire; hence, the 8-ply rating

tire is an available option.

In either case, these tires are applicable to extended

operation at or near full rated load or for trailer towing

when an extra margin of tire service is desired. How-

ever, use of a larger tire or an 8-ply rating tire should

not be construed as permitting an increase in the full

rated vehicle load (see Specifications).

MAINTENANCE AND ADJUSTMENTS

TIRES

Inflation Pressures

To ensure the proper tire inflation pressure for the

owners particular requirements follow the recommenda-

tions in the Vehicle Capacity Rating and Recommended

Tire Inflation Pressures Table (seeSpecifications). Keep

tires properly inflated, and check inflation pressures

periodically. This will ensure the best tire life and riding

comfort, over the full range of driving conditions.
Inspection

Every few thousand miles and at each lubrication, tires

should be checked for sharp objects or stones in the

tread. H tire is punctured, it should be repaired using

one of several repair kits available through tire manu-

facturers1 outlets.

Wear

Misalignment

This is wear due to excessive toe-in or toe-out. In

CHEVROLET CHASSIS SERVICE MANUAL