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Engine Mechanical - 4.6l (lh2) - Introduction Cadillac XLR I

Mechanical 71 illustrations ~8793 words

Fastener Tightening Specifications

ApplicationSpecification
MetricEnglish
A/C Compressor Bolt50 N.m37 lb ft
A/C Compressor and Power Steering Bracket Bolt50 N.m37 lb ft
A/C Drive Belt Tensioner Bolt25 N.m18 lb ft
Bell Housing Bolt50 N.m37 lb ft
Block Coolant Drain Hole Plug20 N.m15 lb ft
Camshaft Bearing Cap Bolt12 N.m106 lb in
Camshaft Cover Bolt10 N.m89 lb in
Camshaft Cover Ground Strap
Camshaft Cover Bolt10 N.m89 lb in
Cylinder Head Bolt25 N.m18 lb ft
Camshaft Intermediate Drive Shaft
Bolt15 N.m11 lb ft
Sprocket Bolt60 N.m44 lb ft
Camshaft Position Actuator Bolt120 N.m89 lb ft
Camshaft Position Actuator Housing Bolt10 N.m89 lb in
Camshaft Position Actuator Magnet Bolt8 N.m71 lb in
Camshaft Position Sensor Bolt10 N.m89 lb in
Connecting Rod Bolt
First Pass30 N.m22 lb ft
Second PassBack off to zero
Third Pass25 N.m18 lb ft
Final Pass100 degrees
Crankshaft Position Sensor and Knock Sensor Wiring Harness Bracket Bolt10 N.m89 lb in
Crankshaft Position Sensor Bolt10 N.m89 lb in
Crankshaft Balancer Bolt
First Pass50 N.m37 lb ft
Final Pass150 degrees
Cylinder Head Bolt
M11
First Pass - In Sequence30 N.m22 lb ft
Second Pass - In Sequence60 degrees
Third Pass - In Sequence60 degrees
Final Pass - In Sequence60 degrees, 180 degrees total
M612 N.m106 lb in
Cylinder Head Core Hole Threaded Plug80 N.m60 lb ft
Cylinder Head Oil Gallery Threaded Plug60 N.m44 lb ft
Drive Belt
Idler Bolt50 N.m37 lb ft
Idler Nut50 N.m37 lb ft
Tensioner Bolt50 N.m37 lb ft
ECT Sensor20 N.m15 lb ft
Engine Flywheel Bolt
First Pass30 N.m22 lb ft
Final Pass50 degrees
Engine Front Cover Bolt15 N.m11 lb ft
Engine Mount Bracket Bolt58 N.m43 lb ft
Engine Mount Nut58 N.m43 lb ft
Engine Wiring Harness
Front Clip Nut to Left Side Engine Mount Bracket Stud35 N.m26 lb ft
Rear Clip Bolt to Left Side of Block30 N.m22 lb ft
Bolt to Right Side of Block35 N.m26 lb ft
Left Side Ground Bolt12 N.m106 lb in
Right Side Ground to Intake Manifold Nut8 N.m71 lb in
EVAP Emission Canister Purge Valve Bolt10 N.m89 lb in
Exhaust Manifold
Bolt25 N.m18 lb ft
Nut25 N.m18 lb ft
Pipe Hanger Bolt50 N.m37 lb ft
Exhaust Manifold Heat Shield Bolt10 N.m89 lb in
Exhaust Manifold Stud6 N.m53 lb in
Fuel Rail Bolt10 N.m89 lb in
Generator Bolt50 N.m37 lb ft
Generator Coolant Inlet Hose Fitting25 N.m18 lb ft
Generator Coolant Line Bolt27 N.m19 lb ft
Generator Rear Brace Bolt50 N.m37 lb ft
Generator Stud12 N.m106 lb in
Ignition Coil Assembly Bolt10 N.m89 lb in
Intake Manifold
Mounting Bolt10 N.m89 lb in
Brake Booster Hose Fitting2 N.m18 lb in
Knock Sensor Bolt25 N.m18 lb ft
Lower Crankcase
Bearing Bolt
M10 x 1.5 First Pass - In Sequence20 N.m15 lb ft
M10 x 1.5 Final Pass - In Sequence65 degrees
Perimeter Bolt
M8 x 1.25 - In Sequence30 N.m22 lb ft
Oil Filter30 N.m22 lb ft
Oil Filter Adapter
Oil Filter Bypass Hole Plug30 N.m22 lb ft
Oil Filter Fitting29 N.m21 lb ft
Mounting Bolt25 N.m18 lb ft
Oil Level Indicator Tube Bolt50 N.m37 lb ft
Oil Level Sensor20 N.m15 lb ft
Oil Manifold Plate Bolt10 N.m89 lb in
Oil Outlet Tube Bolt10 N.m89 lb in
Oil Pan Bolt
First Pass15 N.m11 lb ft
Final Pass25 N.m18 lb ft
Oil Pan Baffle Bolt12 N.m106 lb in
Oil Pan Drain Plug25 N.m18 lb ft
Oil Pressure Switch20 N.m15 lb ft
Oil Pump
Cover Bolt12 N.m106 lb in
Mounting Bolt
First Pass10 N.m89 lb in
Final Pass35 degrees
Oil Suction Tube
Bolt10 N.m89 lb in
Nut24 N.m18 lb ft
Oxygen Sensor42 N.m31 lb ft
Plenum Duct Clamp2.25 N.m20 lb in
Power Steering Pump Bolt25 N.m18 lb ft
Power Steering Pump Reservoir Bracket Nut10 N.m89 lb in
Primary Camshaft Drive Chain
Guide Bolt25 N.m18 lb ft
Tensioner Bolt25 N.m18 lb ft
Secondary Camshaft Drive Chain
Guide Bolt25 N.m18 lb ft
Shoe Bolt25 N.m18 lb ft
Tensioner Bolt25 N.m18 lb ft
Sight Shield
Bracket Nut10 N.m89 lb in
Retainer7 N.m62 lb in
Spark Plug15 N.m11 lb ft
Starter Motor Bolt30 N.m22 lb ft
Starter Motor Wiring Harness
Generator Nut20 N.m15 lb ft
Starter Nut - Large10 N.m89 lb in
Starter Nut - Small4 N.m35 lb in
Thermostat Housing Bolt10 N.m89 lb in
Throttle Body Bolt10 N.m89 lb in
Water Outlet Housing Bolt25 N.m18 lb ft
Water Pump Bolt10 N.m89 lb in
Water Pump Pulley Bolt10 N.m89 lb in

Fastener Tightening Specifications

Engine Mechanical Specifications

ApplicationSpecification
MetricEnglish
General
Engine TypeV-8
Displacement4.6 Liter279 cu in
RPOLH2
VINA
Bore93 mm3.661 in
Stroke84 mm3.3071 in
Compression Ratio10.5:1
Engine Compression Test965-1172 kPa140-170 psi
Firing Order1-2-7-3-4-5-6-8
Spark Plug Gap1.270 mm0.0500 in
Block
Crankshaft Main Bearing Bore Diameter72.430-72.442 mm2.8516-2.8521 in
Crankshaft Main Bearing Bore Out-of-Round0.010 mm0.0004 in
Crankshaft Main Rear Oil Seal
Bore115.962-116.038 mm4.5654-4.5684 in
Runout0.250 mm0.0098 in
Cylinder Bore Diameter @ 41 mm (1.610 in) Below Deck Face92.992-93.008 mm3.6611-3.6617 in
Cylinder Bore Out-of-Round
Production0.010 mm0.0004 in
Service0.100 mm0.0039 in
Cylinder Bore Taper
Production0.010 mm0.0004 in
Service0.100 mm0.0039 in
Cylinder Head Deck Height224.55 mm8.8406 in
Cylinder Head Deck Surface Flatness0.100 mm0.0039 in
Camshaft
Camshaft End Play0.120-0.220 mm0.0050-0.0087 in
Camshaft Journal Diameter26.948-26.972 mm1.0610-1.0619 in
Camshaft Journal Out-of-Round0.006 mm0.0002 mm
Camshaft Journal to Bore Clearance
Production0.051-0.076 mm0.0020-0.0030 in
Service0.040-0.090 mm0.0016-0.0035 in
Camshaft Lobe Duration @ 0.150 mm (0.006 in) Lift - Exhaust246 degrees
Camshaft Lobe Duration @ 0.150 mm (0.006 in) Lift - Intake251 degrees
Camshaft Lobe Lift - Exhaust5.94 mm0.2339 in
Camshaft Lobe Lift - Intake6.15 mm0.2421 in
Camshaft Lobe Overlap @ 0.150 mm (0.006 in) Lift0.0 degrees
Camshaft Runout0.050 mm0.0020 in
Camshaft Thrust Surface
Runout0.037 mm0.0015 in
Width22.990-23.090 mm0.9051-0.9091 in
Camshaft Timing @ 0.150 mm (0.006 in) Lift
Intake Opens11.0 degrees ATDC
Intake Centerline133.0 degrees ATDC
Intake Closes255.7 degrees ATDC
Exhaust Opens243.2 degrees BTDC
Exhaust Centerline107.0 degrees BTDC
Exhaust Closes11.3 degrees ATDC
Camshaft Position Actuator
Exhaust Authority50 crankshaft degrees/25 camshaft degrees
Intake Authority40 crankshaft degrees/20 camshaft degrees
Cooling System
Thermostat Full Open Temperature85°C185°F
Connecting Rod
Connecting Rod Bearing Clearance
Production and Service0.0250-0.0760 mm0.0010-0.0030 in
Connecting Rod Bore Diameter - Bearing End57.136-57.152 mm2.2495-2.2501 in
Connecting Rod Bore Diameter - Pin End23.002-23.014 mm0.9056-0.9061 in
Connecting Rod Bore Out-of-Round - Bearing End0.006 mm0.0002 in
Connecting Rod Bore Out-of-Round - Pin End0.005 mm0.0002 in
Connecting Rod Length Center to Center151.00 mm5.9449 in
Connecting Rod Side Clearance0.200-0.500 mm0.0079-0.0197 in
Connecting Rod Straightness0.050 mm0.0020 in
Crankshaft
Connecting Rod Journal Diameter53.947-53.963 mm2.1239-2.1245 in
Connecting Rod Journal Out-of-Round0.005 mm0.0002 in
Connecting Rod Journal Taper0.005 mm0.0002 in
Connecting Rod Journal Width43.840-43.960 mm1.7260-1.7307 in
Crankshaft Balancer
Surface Diameter50.730-50.870 mm1.9972-2.0028 in
Hub Inside Diameter34.847-34.864 mm1.3719-1.3726 in
Crankshaft End Play0.050-0.500 mm0.0020-0.0197 in
Crankshaft Main Bearing Clearance
Production0.0150-0.0550 mm0.0006-0.0022 in
Service0.0150-0.0635 mm0.0006-0.0025 in
Crankshaft Main Journal Diameter64.350-64.366 mm2.5335-2.5341 in
Crankshaft Main Journal Out-of-Round0.005 mm0.0002 in
Crankshaft Main Journal Taper0.005 mm0.0002 in
Crankshaft Main Journal Thrust Wall Runout0.040 mm0.0016 in
Crankshaft Main Journal Thrust Wall Square0.010 mm0.0004 in
Crankshaft Main Journal Width, #1, #2, #4, #524.540-24.660 mm0.9661-0.9709 in
Crankshaft Main Journal Width, Thrust #325.150-25.250 mm0.9902-0.9941 in
Crankshaft Nose Diameter
From Front Face 0.00-21.00 mm (0.0000-0.8268 in)34.500-34.750 mm1.3583-1.3681 in
From Front Face 21.00-53.00 mm (0.8268-2.0866 in)34.892-34.912 mm1.3737-1.3745 in
From Front Face 53.00 to Rolled Fillet (2.0866-Rolled Fillet)33.450-33.550 mm1.3169-1.3209 in
From Front Face 89.94-110.54 mm (3.5409-4.3520 in)44.950-45.000 mm1.7697-1.7717 in
Crankshaft Nose Runout
From Front Face 0.00-21.00 mm (0.0000-0.8268 in)0.100 mm0.0039 in
From Front Face 21.00-53.00 mm (0.8268-2.8066 in)0.030 mm0.0012 in
From Front Face 53.00 to Rolled Fillet (2.0866-Rolled Fillet)0.100 mm0.0039 in
From Front Face 89.94-110.54 mm (3.5409-4.3520 in)0.025 mm0.0010 in
Crankshaft Rear Flange
Diameter95.880-95.980 mm3.7748-3.7787 in
Runout0.025 mm0.0010 in
Crankshaft Rear Flange Face to Engine Flywheel Runout0.025 mm0.0010 in
Crankshaft Runout
Main Journals #1, #50.022 mm0.0009 in
Main Journals #2, #4, #60.025 mm0.0010 in
Cylinder Head
Camshaft Bearing Bore Diameter27.013-27.033 mm1.0635-1.0642 in
Camshaft Bearing Bore Out-of-Round0.010 mm0.0004 in
Combustion Chamber Depth - at Measurement Point10.470-10.710 mm0.4122-0.4217 in
Cylinder Head Height - Deck to Camshaft Centerline Bore136.00 mm5.3543 in
Surface Flatness - Block Deck0.050 mm0.0020 in
Surface Flatness - Exhaust Manifold Deck0.220 mm0.0087 in
Surface Flatness - Intake Manifold Deck0.220 mm0.0087 in
Valve Guide Bore - Exhaust5.969-5.989 mm0.2350-0.2359 in
Valve Guide Bore - Intake5.969-5.989 mm0.2350-0.2359 in
Valve Guide Installed Height - Exhaust14.300 mm0.5630 in
Valve Guide Installed Height - Intake14.720 mm0.5795 in
Valve Lifter Bore Diameter12.013-12.037 mm0.4730-0.4739 in
Flywheel
Runout0.300 mm0.0118 in
Intake Manifold
Surface Flatness0.500 mm0.0200 in
Lubrication System
Oil Capacity - with New Dry Oil Filter7.6 Liters8.0 Quarts
Oil Capacity - without Oil Filter Change7.1 Liters7.5 Quarts
Oil Pressure - Minimum @ Idle35 kPa5 psi
Oil Pressure - Minimum @ 2,000 RPM250 kPa35 psi
Piston Rings
Piston Ring End Gap
First Compression Ring0.250-0.400 mm0.0098-0.0157 in
Second Compression Ring0.350-0.050 mm0.0138-0.0020 in
Oil Control Ring0.250-0.760 mm0.0098-0.0299 in
Piston Ring to Groove Clearance
First Compression Ring0.040-0.095 mm0.0016-0.0037 in
Second Compression Ring0.040-0.095 mm0.0016-0.0037 in
Oil Control RingNone - Side Sealing
Piston Ring Thickness
First Compression Ring1.199-1.203 mm0.0472-0.0474 in
Second Compression Ring1.499-1.504 mm0.0590-0.0592 in
Oil Control Ring2.530-2.555 mm0.0996-0.1006 in
Pistons and Pins
Piston
Piston Diameter @ 42 mm (1.6353 in) Below Crown92.957-92.972 mm3.6597-3.6603 in
Piston Pin Bore Diameter23.002-23.007 mm0.9056-0.9058 in
Piston Ring Groove Inside Diameter
First Compression Ring84.750-85.000 mm3.3366-3.3464 in
Second Compression Ring83.400-83.650 mm3.2835-3.2933 in
Oil Control Ring85.670-85.920 mm3.3728-3.3827 in
Piston Ring Groove Width
First Compression Ring1.230-1.255 mm0.0484-0.0494 in
Second Compression Ring1.530-1.555 mm0.0602-0.0612 in
Oil Control Ring2.530-2.555 mm0.0996-0.1006 in
Piston to Bore Clearance0.020-0.051 mm0.0008-0.0020 in
Pin
Piston Pin Clearance to Connecting Rod Bore0.002-0.014 mm0.0001-0.0006 in
Piston Pin Clearance to Piston Pin Bore0.002-0.012 mm0.0001-0.0005 in
Piston Pin Diameter22.995-23.000 mm0.9053-0.9055 in
Piston Pin End Play
Piston Pin Length61.500-62.000 mm2.4213-2.4409 in
Valve System
Valves
Valve Face Angle45 degrees
Valve Face Runout0.038 mm0.0015 in
Valve Face Width
Exhaust1.500 mm0.0591 in
Intake1.000 mm0.0394 in
Valve Head Diameter
Exhaust28.880-29.140 mm1.1370-1.1472 in
Intake36.090-36.350 mm1.4209-1.4311 in
Valve Length
Exhaust91.730-91.990 mm3.6114-3.6217 in
Intake110.600-110.860 mm4.3543-4.3646 in
Valve Seat Angle45.75 degrees
Valve Seat Relief Angle20 degrees
Valve Seat Relief Width
Exhaust0.160-0.360 mm0.0063-0.0142 in
Intake0.110-0.310 mm0.0043-0.0118 in
Valve Seat Runout0.050 mm0.0020 in
Valve Seat Undercut Angle
Exhaust65 degrees
Intake60 degrees
Valve Seat Width
Exhaust1.300-1.700 mm0.0512-0.0669 in
Intake0.420-0.820 mm0.0165-0.0323 in
Valve Stem Diameter5.920-5.940 mm0.2331-0.2339 in
Valve Stem Out-of-Round0.008 mm0.0003 in
Valve Stem Straightness0.013 mm0.0005 in
Valve Stem-to-Guide Clearance
Exhaust
Production0.050-0.100 mm0.0020-0.0039 in
Service0.050-0.120 mm0.0020-0.0047 in
Intake
Production0.028-0.068 mm0.0011-0.0027 in
Service0.028-0.110 mm0.0011-0.0043 in
Valve Lifters
Valve Lifter Diameter11.986-12.000 mm0.4719-0.4724 in
Valve Lifter-to-Bore Clearance0.037-0.041 mm0.0015-0.0016 in
Rocker Arms
Valve Rocker Arm Ratio1.68 to 1
Valve Rocker Arm Roller Diameter17.740-17.800 mm0.6984-0.7008 in
Valve Springs
Valve Spring Coil Thickness4.110 x 3.280 mm0.1618 x 0.1291 in
Valve Spring Diameter
Inside17.750-18.250 mm0.6988-0.7185 in
Outside26.23 mm1.0327 in
Valve Spring Free Length40.790-43.690 mm1.6059-1.7201 in
Valve Spring Height
Closed35.000 mm1.3780 in
Open24.500 mm0.9646 in
Valve Spring Load
Closed211.4-233.4 mm47.5-52.4 lb
Open579.0-631.0 mm130.2-141.9 lb
Valve Spring Total Number of Coils6.90-7.10

Engine Mechanical Specifications

Sealers, Adhesives, and Lubricants

ApplicationType of MaterialGM Part Number
United StatesCanada
Camshaft Covers at Split LinesSealant1237852188901148
Camshaft Position Actuator MagnetsSealant1237852188901148
Camshaft PrelubeLubricant12345501992704
Crankshaft PrelubeLubricant1052367992869
Crankshaft Rear Oil Seal at Split LinesSealant1237852188901148
Cylinder Head Core Hole Threaded PlugSealant1234538210953489
Cylinder Head Expansion PlugSealant1234538210953489
Cylinder Head Oil Gallery Threaded PlugSealant1234538210953489
Engine Flywheel BoltSealant1234600410953480
Engine Front Cover at Split LinesSealant1237852188901148
Engine Front Cover BoltThreadlock1234538210953489
Fuel Injector BoresLubricant12345610993193
Ignition Coil Spark Plug BootLubricant123455791974984
Intake Air Temperature (IAT) Sensor 2Sealant1234600410953480
Oxygen SensorLubricant12377953N/A
Upper-to-Lower CrankcaseSealant - 6 ML105294210953466
Upper-to-Lower CrankcaseSealant - 50 ML105294310953491
Valve LifterLubricant12345616993182

Sealers, Adhesives, and Lubricants

Scheme 11

Scheme 11: Thread Repair Specifications
Hole LocationThread SizeDrillCounter Bore ToolStop CollarTapDriverInsertDrill Depth (Maximum)Tap Depth (Minimum)
J 42385MM(IN)MM(IN)
1M6 x 1.0608N/AN/A20320420526.01.023622.00.8661
2M6 x 1.0201202N/A203204205THRUTHRU
3M20 x 1.5715716N/A71771871932.01.259821.00.8268
4M6 x 1.0201202N/A20320420522.00.866118.00.7087

Left Cylinder Head Camshaft Cover Face

Scheme 12

Scheme 12
Hole LocationThread SizeDrillCounter Bore ToolStop CollarTapDriverInsertDrill Depth (Maximum)Tap Depth (Minimum)
J 42385MM(IN)MM(IN)
1M8 x 1.25206207N/A20820921027.01.063022.00.8661
2M6 x 1.0201202N/A20320420530.01.181126.01.0236
3M8 x 1.25610N/A61920820962027.01.063022.00.8661
4M6 x 1.0201202N/A20320420522.00.866118.00.7087
5M10 x 1.5211212N/A21321421532.01.259926.01.0236

Left Cylinder Head Front Face

Scheme 13

Scheme 13
Hole LocationThread SizeDrillCounter Bore ToolStop CollarTapDriverInsertDrill Depth (Maximum)Tap Depth (Minimum)
J 42385MM(IN)MM(IN)
1M6 x 1.0201202N/A20320420525.00.984321.250.8366

Left Cylinder Head Intake Face

Scheme 14

Scheme 14
Hole LocationThread SizeDrillCounter Bore ToolStop CollarTapDriverInsertDrill Depth (Maximum)Tap Depth (Minimum)
J 42385MM(IN)MM(IN)
1M10 x 1.5211212N/A21321421532.01.259927.51.0827
2M16 x 1.5861862N/A86386486020.00.787416.00.6299
3M10 x 1.5211212N/A21321421532.01.259926.01.0236
4M6 x 1.0201202N/A20320420522.00.866118.00.7087
5M8 x 1.25206207N/A20820921025.00.984320.00.7874

Left Cylinder Head Exhaust Face

Scheme 15

Scheme 15
Hole LocationThread SizeDrillCounter Bore ToolStop CollarTapDriverInsertDrill Depth (Maximum)Tap Depth (Minimum)
J 42385MM(IN)MM(IN)
1M16 x 1.5861862N/A86386486020.00.787416.00.6299
2M8 x 1.25206207N/A20820921027.01.063022.00.8661

Left Cylinder Head Rear Face

Scheme 16

Scheme 16
Hole LocationThread SizeDrillCounter Bore ToolStop CollarTapDriverInsertDrill Depth (Maximum)Tap Depth (Minimum)
J 42385MM(IN)MM(IN)
1M6 x 1.0608N/AN/A20320420526.01.024022.00.8660
2M6 x 1.0201202N/A20320420522.00.866018.00.7090
3M6 x 1.0201202N/A203204205THRUTHRU
4M20 x 1.5715716N/A71771871932.01.259821.00.8268

Right Cylinder Head Camshaft Cover Face

Scheme 17

Scheme 17
Hole LocationThread SizeDrillCounter Bore ToolStop CollarTapDriverInsertDrill Depth (Maximum)Tap Depth (Minimum)
J 42385MM(IN)MM(IN)
1M6 x 1.0201202N/A20320420530.01.181126.01.0236
2M6 x 1.0201202N/A20320420522.00.866118.00.7087
3M8 x 1.25206207N/A20820921027.01.063022.00.8661
4M8 x 1.25610N/A61920820962027.01.063022.00.8661

Right Cylinder Head Front Face

Scheme 18

Scheme 18
Hole LocationThread SizeDrillCounter Bore ToolStop CollarTapDriverInsertDrill Depth (Maximum)Tap Depth (Minimum)
J 42385MM(IN)MM(IN)
1M6 x 1.0201202N/A20320420525.00.984321.250.8366

Right Cylinder Head Intake Face

Scheme 19

Scheme 19
Hole LocationThread SizeDrillCounter Bore ToolStop CollarTapDriverInsertDrill Depth (Maximum)Tap Depth (Minimum)
J 42385MM(IN)MM(IN)
1M10 x 1.5211212N/A21321421532.01.259927.51.0827
2M16 x 1.5861862N/A86386486020.00.787416.00.6299
3M8 x 1.25206207N/A20820921025.00.984320.00.7874

Right Cylinder Head Exhaust Face

Scheme 20

Scheme 20
Hole LocationThread SizeDrillCounter Bore ToolStop CollarTapDriverInsertDrill Depth (Maximum)Tap Depth (Minimum)
J 42385MM(IN)MM(IN)
1M16 x 1.5861862N/A86386486020.00.787416.00.6299
2M8 x 1.25206207N/A20820921027.01.063022.00.8661
3M10 x 1.5211212N/A21321421532.01.259826.01.0240
43/8 - 18 NPSF2013N/AN/A201420152016THRUTHRU

Right Cylinder Head Rear Face

Scheme 21

Scheme 21
Hole LocationThread SizeDrillCounter Bore ToolStop CollarTapDriverInsertDrill Depth (Maximum)Tap Depth (Minimum)
J 42385MM(IN)MM(IN)
1M6 x 1.0201202N/A20320420519.50.767715.50.6102
2M8 x 1.25206207N/A20820921027.01.063022.00.8661
3M6 x 1.0201202N/A20320420523.00.905519.00.7480
4M6 x 1.0201202N/A203204205THRU17.00.6693
5M6 x 1.0201202N/A20320420524.00.944917.00.6693
6M6 x 1.0201202N/A203204205THRU15.50.6102
7M8 x 1.25206207N/A208209210THRUTHRU
8M10 x 1.5211212N/A21321442030.01.181124.00.9449
9M10 x 1.5211212N/A213214420THRUTHRU
10M6 x 1.0201202N/A203204205THRUTHRU
11M6 x 1.0201202N/A20320420520.250.797216.250.6398
12M6 x 1.0201202N/A20320420523.750.935019.750.7776
13M8 x 1.7520012002N/A20032004200526.751.053221.750.8563

Engine Block Front

Scheme 22

Scheme 22
Hole LocationThread SizeDrillCounter Bore ToolStop CollarTapDriverInsertDrill Depth (Maximum)Tap Depth (Minimum)
J 42385MM(IN)MM(IN)
1M10 x 1.5211212N/A21321442030.01.181124.01.0827
2M6 x 1.0201202N/A20320420525.00.984321.00.8268
3M8 x 1.25610N/AN/A20820962030.01.181125.00.9843
4M8 x 1.25206207N/A20820921020.00.787416.00.6299

Engine Block Left Side

Scheme 23

Scheme 23
Hole LocationThread SizeDrillCounter Bore ToolStop CollarTapDriverInsertDrill Depth (Maximum)Tap Depth (Minimum)
J 42385MM(IN)MM(IN)
1M10 x 1.5211212N/A21321442030.01.181124.01.0827
2M8 x 1.25206207N/A20820921024.50.964615.00.5906

Engine Block Right Side

Scheme 24

Scheme 24
Hole LocationThread SizeDrillCounter Bore ToolStop CollarTapDriverInsertDrill Depth (Maximum)Tap Depth (Minimum)
J 42385MM(IN)MM(IN)
1M10 x 1.5211212N/A213214420THRUTHRU
2M8 x 1.25206207N/A208209210THRUTHRU
3M10 x 1.5211212N/A21321442039.751.565033.751.0827
4M10 x 1.5211212N/A213214420THRUTHRU
5M10 x 1.5211212N/A21321442039.01.535433.01.2992

Engine Block Rear

Scheme 25

Scheme 25
Hole LocationThread SizeDrillCounter Bore ToolStop CollarTapDriverInsertDrill Depth (Maximum)Tap Depth (Minimum)
J 42385MM(IN)MM(IN)
1M6 x 1.0201202N/A20320420520.00.787416.00.6299
2M8 x 1.25206207N/A20820921023.50.925218.50.7283
3M8 x 1.25206207N/A20820921023.00.905519.00.7480
4M6 x 1.0201202N/A20320420523.00.905519.00.7480

Engine Block Top

Scheme 26

Scheme 26
Hole LocationThread SizeDrillCounter Bore ToolStop CollarTapDriverInsertDrill Depth (Maximum)Tap Depth (Minimum)
J 42385MM(IN)MM(IN)
1M6 x 1.0608N/AN/A20320420530.01.181125.00.9843
2M11 x 2.02031N/A20342032203310873.02.874067.02.6378
3M11 x 2.02031N/AN/A2032203310889.53.523683.53.2874

Engine Block Left Deck Face

Scheme 27

Scheme 27
Hole LocationThread SizeDrillCounter Bore ToolStop CollarTapDriverInsertDrill Depth (Maximum)Tap Depth (Minimum)
J 42385MM(IN)MM(IN)
1M11 x 2.02031N/A20342032203310873.02.874067.02.6378
2M6 x 1.0608N/AN/A20320420530.01.181125.00.9843
3M11 x 2.02031N/AN/A2032203310889.53.523683.53.2874

Engine Block Right Deck Face

Scheme 28

Scheme 28
Hole LocationThread SizeDrillCounter Bore ToolStop CollarTapDriverInsertDrill Depth (Maximum)Tap Depth (Minimum)
J 42385MM(IN)MM(IN)
1M10 x 1.5511N/AN/A51251351432.01.259826.51.0433
2M8 x 1.25610N/AN/A208209620THRUTHRU
3M8 x 1.25610N/AN/A20820962037.01.456732.01.2598

Engine Block Lower Face

Scheme 29

Scheme 29
Hole LocationThread SizeDrillCounter Bore ToolStop CollarTapDriverInsertDrill Depth (Maximum)Tap Depth (Minimum)
J 42385MM(IN)MM(IN)
1M8 x 1.25206207N/A20820921025.00.984320.00.7874
2M6 x 1.0201202N/A203204205THRUTHRU
3M6 x 1.0201202N/A20320420522.00.866118.00.7087

Lower Crankcase Pan Face

Scheme 30

Scheme 30
Hole LocationThread SizeDrillCounter Bore ToolStop CollarTapDriverInsertDrill Depth (Maximum)Tap Depth (Minimum)
J 42385MM(IN)MM(IN)
1M6 x 1.0201202N/A20320420522.50.885818.50.7283
2M6 x 1.0201202N/A203204205THRU18.50.7283
3M18 x 1.5N/AN/AN/AN/AN/AN/A11.70.46069.00.3543
4M8 x 1.25206207N/A20820921026.01.023621.50.8465
5M8 x 1.25206207N/A208209210THRU18.50.7283

Engine Front Cover

Scheme 31

Scheme 31
Hole LocationThread SizeDrillCounter Bore ToolStop CollarTapDriverInsertDrill Depth (Maximum)Tap Depth (Minimum)
J 42385MM(IN)MM(IN)
1M6 x 1.0201202N/A203204205THRUTHRU
2M6 x 1.0201202N/A20320420518.00.708714.00.5512
3M10 x 1.5N/AN/AN/AN/AN/AN/ATHRUTHRU

Camshaft Position Actuator Housing

Scheme 32

Scheme 32
Hole LocationThread SizeDrillCounter Bore ToolStop CollarTapDriverInsertDrill Depth (Maximum)Tap Depth (Minimum)
J 42385MM(IN)MM(IN)
1M6 x 1.0201202N/A203204205THRUTHRU
2M6 x 1.0201202N/A20320420523.00.905519.00.7480

Camshaft Covers

#1 Threads are created initially when coil ground strap bolt is installed.

Scheme 33

Scheme 33
Hole LocationThread SizeDrillCounter Bore ToolStop CollarTapDriverInsertDrill Depth (Maximum)Tap Depth (Minimum)
J 42385MM(IN)MM(IN)
1M6 x 1.0201202N/A203204205

Oil Pan - Top

Scheme 34

Scheme 34
Hole LocationThread SizeDrillCounter Bore ToolStop CollarTapDriverInsertDrill Depth (Maximum)Tap Depth (Minimum)
J 42385MM(IN)MM(IN)
1M12 x 1.75856857N/A858859865THRUTHRU

Oil Pan - Left

Scheme 35

Scheme 35
Hole LocationThread SizeDrillCounter Bore ToolStop CollarTapDriverInsertDrill Depth (Maximum)Tap Depth (Minimum)
J 42385MM(IN)MM(IN)
1M20 x 1.5715716N/A717718719THRUTHRU

Oil Pan - Right

Scheme 36

Scheme 36
Hole LocationThread SizeDrillCounter Bore ToolStop CollarTapDriverInsertDrill Depth (Maximum)Tap Depth (Minimum)
J 42385MM(IN)MM(IN)
1M10 x 1.5211212N/A21321421537.01.456731.51.2401

Oil Pan - Rear

Scheme 37

Scheme 37: Disassembled Views
CalloutComponent Name
5Engine Long Block Assembly
6Intake Manifold Assembly
9Left Camshaft Cover Assembly
10Right Camshaft Cover Assembly
11Oil Pump Assembly
12Engine Front Cover Assembly
13Oil Pan Assembly
18Water Outlet Assembly
19Throttle Body Assembly
20Right Camshaft Position Actuator Housing Assembly
21Left Camshaft Position Actuator Housing Assembly
281PCV Fresh Air Tube
283PCV Dirty Air Tube
351Engine Front Cover Gasket
352Engine Front Cover Bolt
382Water Outlet Bolt - Short
388Water Outlet Bolt - Long
390Crankshaft Balancer
391Crankshaft Balancer Bolt
401Oil Pan Gasket
420Oil Pan Bolt - Short
421Oil Pan Bolt - Medium
422Oil Pan Bolt - Long
423Oil Pan Stud
475Oil Pump Bolt
530Intake Manifold Bolt
702Throttle Body Bolt
747EVAP Tube
760Block Heater - 110 Volt

Scheme 38

Scheme 38
CalloutComponent Name
5Engine Long Block Assembly
14Oil Filter Adapter Assembly
16Oil Level Indicator Assembly
405Oil Pump Suction Pipe
406Oil Pump Suction Pipe Gasket
407Oil Pump Suction Pipe Bolt
408Oil Pump Suction Pipe Nut
441Oil Filter Adapter Gasket
442Oil Filter Adapter Bolt
449Oil Filter
480Oil Pump Outlet Tube
481Oil Pump Outlet Tube O-Ring
482Oil Pump Outlet Tube Bolt
600Left Exhaust Manifold and Converter
601Left Exhaust Manifold Gasket
610Left Exhaust Manifold Heat Shield
611Left Exhaust Manifold Heat Shield Bolt
620Right Exhaust Manifold and Converter
621Right Exhaust Manifold Gasket
623Cylinder Head Exhaust Manifold Nut
624Cylinder Head Exhaust Manifold Bolt
630Right Exhaust Manifold Heat Shield
631Right Exhaust Manifold Heat Shield Bolt
720Crankshaft Position Sensor
721Crankshaft Position Sensor O-Ring
722Crankshaft Position Sensor Bolt
723Knock Sensor
723Knock Sensor
724Knock Sensor Bolt
724Knock Sensor Bolt
790Starter Motor
791Starter Motor Bolt
792Starter Motor Solenoid Cable Nut - Larger
793Starter Motor Solenoid Cable Nut - Small
794Battery Positive and Negative Starter Cable
795Bracket Bolt
796Crankshaft Position Sensor and Knock Sensor Wiring Harness
797Bracket

Scheme 39

Scheme 39
CalloutComponent Name
250Left Camshaft Cover
251Left Camshaft Cover Gasket
252Right Camshaft Cover
253Right Camshaft Cover Gasket
254Camshaft Cover Spark Plug Port Seal
255Camshaft Cover Bolt
256Camshaft Cover Bolt Insulator
258Oil Fill Cap
259Oil Fill Cap O-ring
260Left Camshaft Cover PCV Fitting
261Right Camshaft Cover PCV Fitting Orifice
704Ignition Coil
704Ignition Coil
705Ignition Coil Bolt
705Ignition Coil Bolt
706Ignition Coil Seal
706Ignition Coil Seal
707Ignition Coil Assembly Wiring Harness
707Ignition Coil Assembly Wiring Harness
708Ignition Coil Assembly Bolt
708Ignition Coil Assembly Bolt
709Ignition Coil Assembly Ball Stud
710Ignition Coil Assembly Bracket
710Ignition Coil Assembly Bracket
719Spark Plug
770Camshaft Cover to Cylinder Head Ground Strap
770Camshaft Cover to Cylinder Head Ground Strap
771Ground Strap to Camshaft Cover Bolt
771Ground Strap to Camshaft Cover Bolt
772Ground Strap to Cylinder Head Bolt
772Ground Strap to Cylinder Head Bolt

Scheme 40

Scheme 40
CalloutComponent Name
150Crankshaft Sprocket
152Primary Timing Chain Tensioner
153Timing Chain Tensioner Bolt
153Timing Chain Tensioner Bolt
153Timing Chain Tensioner Bolt
155Primary Timing Chain
158Primary Timing Chain Guide
159Timing Chain Guide and Shoe Bolt
159Timing Chain Guide and Shoe Bolt
159Timing Chain Guide and Shoe Bolt
159Timing Chain Guide and Shoe Bolt
159Timing Chain Guide and Shoe Bolt
160Camshaft Intermediate Drive Shaft Sprocket
161Camshaft Intermediate Drive Shaft Sprocket Bolt
162Camshaft Intermediate Drive Shaft
163Camshaft Intermediate Drive Shaft Bolt
170Secondary Timing Chain
170Secondary Timing Chain
171Secondary Timing Chain Guide
171Secondary Timing Chain Guide
173Left Secondary Timing Chain Shoe
175Left Secondary Timing Chain Tensioner
183Right Secondary Timing Chain Shoe
185Right Secondary Timing Chain Tensioner
189Camshaft Position Actuator Oil Control Valve
189Camshaft Position Actuator Oil Control Valve
190Left Exhaust Camshaft Position Actuator
191Left Intake Camshaft Position Actuator
193Right Exhaust Camshaft Position Actuator
194Right Intake Camshaft Position Actuator

Scheme 41

Scheme 41
CalloutComponent Name
17Fuel Rail Assembly
500Intake Manifold
520Intake Manifold Seal
530Intake Manifold Bolt
531Fuel Rail Stud
531Fuel Rail Stud
591Fuel Injector Sight Shield Cover Bracket
592Fuel Injector Sight Shield Cover Bracket Nut
594Fuel Injector Sight Shield Cover Ball Stud
775Engine Wiring Harness Ground Nut

Scheme 42

Scheme 42
CalloutComponent Name
560Fuel Rail
561Fuel Injector
562Fuel Injector Retainer
563Fuel Injector Upper Seal
564Fuel Injector Lower Seal
565Fuel Pressure Service Valve Cap
566Fuel Pressure Service Valve
580Fuel Pulse Dampener
581Fuel Pulse Dampener O-ring

Scheme 43

Scheme 43
CalloutComponent Name
300Left Cylinder Head
301Right Cylinder Head
302Left Cylinder Head Gasket
303Right Cylinder Head Gasket
310Cylinder Head Bolt - M11
311Cylinder Head Front Bolt - M6
312Cylinder Head Coolant Hole Expansion Plug
313Cylinder Head Coolant Hole Plug
314Cylinder Head Coolant Hole Plug Seal Ring
315Cylinder Head Oil Gallery Plug
315Cylinder Head Oil Gallery Plug
316Cylinder Head Oil Gallery Plug Ring
316Cylinder Head Oil Gallery Plug Ring
317Engine Oil Gallery Restrictor
317Engine Oil Gallery Restrictor
320Exhaust Valve
321Intake Valve
322Valve Rocker Arm Assembly
323Hydraulic Valve Lash Adjuster Assembly
324Valve Stem Oil Seal
325Valve Spring
326Valve Spring Cap
327Valve Stem Key
330Left Exhaust Camshaft
331Left Intake Camshaft
332Right Intake Camshaft
333Right Exhaust Camshaft
334Cylinder Head Front Camshaft Cap
335Cylinder Head Front Camshaft Cap
336Cylinder Head Camshaft Cap
337Cylinder Head Camshaft Cap Bolt
337Cylinder Head Camshaft Cap Bolt
337Cylinder Head Camshaft Cap Bolt
338Camshaft Sprocket Locating Pin
340Left Camshaft Position Actuator Housing
341Right Camshaft Position Actuator Housing
342Left Camshaft Position Actuator Housing Gasket
343Right Camshaft Position Actuator Housing Gasket
344Camshaft Position Actuator Housing Pin
345Camshaft Position Actuator Housing Stud - Short
345Camshaft Position Actuator Housing Stud - Short
346Camshaft Position Actuator Housing Stud - Long
346Camshaft Position Actuator Housing Stud - Long
347Camshaft Position Actuator Housing Bolt
625Cylinder Head Exhaust Manifold Stud
711Engine Coolant Temperature Sensor
725Camshaft Position Sensor
726Camshaft Position Sensor O-Ring
727Camshaft Position Sensor Bolt
735Camshaft Position Actuator Magnet
736Camshaft Position Actuator Magnet Bolt
737Camshaft Position Actuator Magnet Plug
738Camshaft Position Actuator Magnet Plug O-Ring

Scheme 44

Scheme 44
CalloutComponent Name
350Engine Front Cover
351Engine Front Cover Gasket
352Engine Front Cover Bolt
353Engine Front Cover Seal
356Engine Front Cover Fitting
360Water Pump Assembly
361Water Pump Bolt
362Water Pump Gasket
363Water Pump Pulley
364Water Pump Pulley Bolt
365Engine Cooling Thermostat
366Engine Cooling Thermostat Gasket
367Engine Cooling Thermostat Housing
368Engine Cooling Thermostat Housing Bolt
380Water Outlet
381Water Outlet Gasket
382Water Outlet Bolt - Short
384Water Bypass Hose
385Water Bypass Hose Clamp
386Engine Coolant Air Bleed Hose Fitting
387Heater Inlet Hose Fitting
388Water Outlet Bolt - Long
390Crankshaft Balancer
391Crankshaft Balancer Bolt
525Intake Manifold Plenum Duct
526Intake Manifold Plenum Duct Clamp
526Intake Manifold Plenum Duct Clamp
701Throttle Body
702Throttle Body Bolt
703Throttle Body Gasket
740MAP Sensor
741MAP Sensor O-Ring
742MAP Sensor Bracket
743MAP Sensor Stud
744EVAP Purge Solenoid
745EVAP Purge Solenoid O-Ring
746EVAP Purge Solenoid Bolt

Scheme 45

Scheme 45
CalloutComponent Name
463Oil Pump Housing
464Oil Pump Cover
465Oil Pump Driven Gear
466Oil Pump Drive Gear
467Oil Pump Driven Gear Spacer
468Oil Pump Cover Bolt
469Oil Pump Cover Locating Pin
470Oil Pump Pressure Relief Valve Bore Plug
471Oil Pump Pressure Relief Valve Spring
472Oil Pressure Relief Valve

Scheme 46

Scheme 46
CalloutComponent Name
15Piston and Connecting Rod Assembly
100Engine Block
101Lower Crankcase
102Engine Oil Distribution Plate
103Right Lower Crankcase Seal
104Left Lower Crankcase Seal
105Lower Crankcase Bolt
106Engine Oil Distribution Plate Bolt
107Oil Pan Locating Pin
108Engine Oil Distribution Plate Outer Seal
109Engine Oil Distribution Plate Inner Seal
112Lower Crankcase Main Bolt
113Lower Crankcase Main Stud
118Lower Crankcase Locating Pin
120Crankshaft
121Crankshaft Sprocket Locating Pin
122Crankshaft Upper Bearing
123Crankshaft Lower Bearing
124Crankshaft Upper Thrust Bearing #3
125Piston, Rings and Connecting Rod Assembly
131Transaxle Locating Pin
132Engine Front Cover Locating Pin
136Engine Block Coolant Drain Plug
137Cylinder Head Locating Pin
138Camshaft Intermediate Drive Shaft Plug
410Oil Pan Baffle Scraper

Scheme 47

Scheme 47
CalloutComponent Name
200Connecting Rod
201Connecting Rod Bolt
202Connecting Rod Bushing
203Connecting Rod Bearing
210Piston
211Piston Pin
212Piston Pin Retainer
212Piston Pin Retainer
213Piston Upper Compression Ring
214Piston Lower Compression Ring
215Piston Oil Control Rail Ring
216Piston Oil Control Ring Spacer
217Lower Oil Control Ring

Scheme 48

Scheme 48
CalloutComponent Name
400Oil Pan
401Oil Pan Gasket
402Oil Pan Gasket Rivet
402Oil Pan Gasket Rivet
403Oil Pan Baffle
404Oil Pan Baffle Bolt
412Oil Pan Drain Plug
413Oil Pan Drain Plug O-ring
420Oil Pan Bolt - Short
421Oil Pan Bolt - Medium
422Oil Pan Bolt - Long
423Oil Pan Stud
712Engine Oil Level Sensor
713Engine Oil Level Sensor O-ring

Scheme 49

Scheme 49
CalloutComponent Name
440Oil Filter Adapter
441Oil Filter Adapter Gasket
442Oil Filter Adapter Bolt
445Oil Filter Fitting
446Oil Filter Bypass Valve
449Oil Filter
457Oil Filter Bypass Valve Hole Plug
728Engine Oil Pressure Sensor
729Engine Oil Pressure Sensor O-ring

Scheme 50

Scheme 50: Engine Identification

The Vehicle Identification Number (VIN) Derivative is located on the right front side of the engine block (1) and is a nine digit number stamped or laser etched onto the engine at the vehicle assembly plant. If reading the identification number the following information can be obtained

  1. The first digit identifies the vehicle division.
  2. The second digit is the model year.
  3. The third digit identifies the assembly plant.
  4. The fourth through ninth digits are the last six digits of the Vehicle Identification Number (VIN).

Engine Verification

The engine verification label is placed in two locations on the right side of the engine.

Scheme 51

Scheme 51: Engine Verification

The engine front cover has an engine verification label (1).

Scheme 52

Scheme 52

The front of the right camshaft cover has a traceability label (1).

Scheme 53

Scheme 53: Camshaft Timing Drive Chain Alignment Diagram
CalloutComponent Name
1Left Secondary Timing Chain Tensioner
2Left Secondary Timing Chain Shoe
3Left Secondary Timing Chain
4Left Intake Camshaft Position Actuator Timing Mark
5Left Exhaust Camshaft Position Actuator Timing Mark
6Left Secondary Timing Chain Guide
7Intermediate Position Actuator Timing Mark
8Primary Timing Chain Guide
9Crankshaft Position Actuator Pin Alignment Slot
10Primary Timing Chain
11Crankshaft Position Actuator Timing Mark
12Primary Timing Chain Tensioner
13Right Secondary Timing Chain Tensioner
14Right Secondary Timing Chain Shoe
15Right Exhaust Camshaft Position Actuator Timing Mark
16Right Intake Camshaft Position Actuator Timing Mark
17Right Secondary Timing Chain
18Right Secondary Timing Chain Guide

Diagnostic Starting Point - Engine Mechanical

Begin the system diagnosis by reviewing the Disassembled Views , Engine Component Description , Drive Belt System Description , Lubrication Description and New Product Information . Reviewing the description and operation information will help you determine the correct symptom diagnostic procedure when a malfunction exists. Reviewing the description and operation information will also help you determine if the condition described by the customer is normal operation. Refer to Symptoms - Engine Mechanical in order to identify the correct procedure for diagnosing the system and where the procedure is located.

Strategy Based Diagnostics

  1. Perform «Diagnostic System Check - Vehicle»(/cadillac/xlr/i-2003-2009/remont/oem-general-information/#vehicle-dtc-information) before using the symptom tables, if applicable.
  2. Review the system operations in order to familiarize yourself with the system functions. Refer to «Disassembled Views»(/cadillac/xlr/i-2003-2009/remont/mechanical/#engine-mechanical-46l-lh2-introduction) , «Engine Component Description»(/cadillac/xlr/i-2003-2009/remont/mechanical/#engine-mechanical-46l-lh2-introduction) , «Drive Belt System Description»(/cadillac/xlr/i-2003-2009/remont/mechanical/#engine-mechanical-46l-lh2-introduction__drive-belt-system-description) , «Lubrication Description»(/cadillac/xlr/i-2003-2009/remont/mechanical/#engine-mechanical-46l-lh2-introduction) and «New Product Information»(/cadillac/xlr/i-2003-2009/remont/mechanical/#engine-mechanical-46l-lh2-introduction__new-product-information) .

All diagnosis on a vehicle should follow a logical process. Strategy based diagnostics is a uniform approach for repairing all systems. The diagnostic flow may always be used in order to resolve a system problem. The diagnostic flow is the place to start when repairs are necessary. For a detailed explanation, refer to Strategy Based Diagnosis .

Visual/Physical Inspection

  1. Inspect for aftermarket devices which could affect the operation of the engine. Refer to «Checking Aftermarket Accessories»(/cadillac/xlr/i-2003-2009/remont/body-electrical/#how-to-diagnosis-repair-the-wiring-systems-testing__checking-aftermarket-accessories) .
  2. Inspect the easily accessible or visible system components for obvious damage or conditions which could cause the symptom.
  3. Check for the correct oil level, proper oil viscosity, and correct filter application.
  4. Verify the exact operating conditions under which the concern exists. Note factors such as engine RPM, ambient temperature, engine temperature, amount of engine warm-up time, and other specifics.
  5. Compare the engine sounds, if applicable, to a known good engine and make sure you are not trying to correct a normal condition.

Intermittent

Test the vehicle under the same conditions that the customer reported in order to verify the system is operating properly.

Symptom List

Refer to a symptom diagnostic procedure from the following list in order to diagnose the symptom

  1. «Base Engine Misfire without Internal Engine Noises»(/cadillac/xlr/i-2003-2009/remont/mechanical/#engine-mechanical-46l-lh2-introduction__base-engine-misfire-without-internal-engine)
  2. «Base Engine Misfire with Abnormal Internal Lower Engine Noises»(/cadillac/xlr/i-2003-2009/remont/mechanical/#engine-mechanical-46l-lh2-introduction__base-engine-misfire-with-abnormal-internal)
  3. «Base Engine Misfire with Abnormal Valve Train Noise»(/cadillac/xlr/i-2003-2009/remont/mechanical/#engine-mechanical-46l-lh2-introduction__base-engine-misfire-with-abnormal-valve)
  4. «Base Engine Misfire with Coolant Consumption»(/cadillac/xlr/i-2003-2009/remont/mechanical/#engine-mechanical-46l-lh2-introduction__base-engine-misfire-with-coolant-consumption)
  5. «Base Engine Misfire with Excessive Oil Consumption»(/cadillac/xlr/i-2003-2009/remont/mechanical/#engine-mechanical-46l-lh2-introduction__base-engine-misfire-with-excessive-oil)
  6. «Engine Noise on Start-Up, but Only Lasting a Few Seconds»(/cadillac/xlr/i-2003-2009/remont/mechanical/#engine-mechanical-46l-lh2-introduction__engine-noise-on-start-up-but-only)
  7. «Upper Engine Noise, Regardless of Engine Speed»(/cadillac/xlr/i-2003-2009/remont/mechanical/#engine-mechanical-46l-lh2-introduction__upper-engine-noise-regardless-of-engine)
  8. «Lower Engine Noise, Regardless of Engine Speed»(/cadillac/xlr/i-2003-2009/remont/mechanical/#engine-mechanical-46l-lh2-introduction__lower-engine-noise-regardless-of-engine)
  9. «Engine Noise Under Load»(/cadillac/xlr/i-2003-2009/remont/mechanical/#engine-mechanical-46l-lh2-introduction__engine-noise-under-load)
  10. «Engine Will Not Crank - Crankshaft Will Not Rotate»(/cadillac/xlr/i-2003-2009/remont/mechanical/#engine-mechanical-46l-lh2-introduction__engine-will-not-crank-crankshaft)
  11. «Engine Compression Test»(/cadillac/xlr/i-2003-2009/remont/mechanical/#engine-mechanical-44l-introduction__engine-compression-test)
  12. «Oil Consumption Diagnosis»(/cadillac/xlr/i-2003-2009/remont/mechanical/#engine-mechanical-46l-lh2-introduction__oil-consumption-diagnosis)
  13. «Oil Pressure Diagnosis and Testing»(/cadillac/xlr/i-2003-2009/remont/mechanical/#engine-mechanical-46l-lh2-introduction__oil-pressure-diagnosis-and-testing)
  14. «Oil Leak Diagnosis»(/cadillac/xlr/i-2003-2009/remont/mechanical/#engine-mechanical-44l-introduction__oil-leak-diagnosis)

Base Engine Misfire without Internal Engine Noises

CauseCorrection
Abnormalities, severe cracking, bumps, or missing areas, in the accessory drive belt Abnormalities in the accessory drive system and/or components may cause engine RPM variations and lead to a misfire DTC. A misfire code may be present without an actual misfire condition.Replace the drive belt. Refer to Drive Belt Replacement .
Worn, damaged, or mis-aligned accessory drive components or excessive pulley runout and may lead to a misfire DTC. A misfire code may be present without an actual misfire condition.Inspect the components, repair or replace as required.
Loose or improperly installed engine flywheel or crankshaft balancer A misfire code may be present without an actual misfire condition.Repair or replace the flywheel and/or balancer as required. Refer to Engine Flywheel Replacement or Crankshaft Balancer Replacement .
Restricted exhaust system A severe restriction in the exhaust flow can cause significant loss of engine performance and may set a DTC. Possible causes of restrictions include collapsed or dented pipes or plugged mufflers and/or catalytic converters.Repair or replace as required.
Improperly installed or damaged vacuum hosesRepair or replace as required.
Improper sealing between the intake manifold and cylinder heads, intake manifold and plenum duct, plenum duct and water outlet housing assembly, water outlet housing assembly and throttle body and/or pressure relief valve and intake manifold.Replace the intake manifold, plenum duct, gaskets, cylinder heads, throttle body and/or water outlet housing assembly as required.
Improperly installed or damaged MAP sensor and/or seal The sealing grommet of the MAP sensor should not be torn or damaged.Repair or replace the MAP sensor as required.
Improperly installed or damaged EVAP purge solenoid and/or O-ring sealRepair or replace the EVAP purge solenoid as required.
Worn or loose followers, valve rocker arms The follower, valve rocker arm, roller bearing should be intact and in the proper positionReplace the followers, valve rocker arms, as required.
Stuck valves Carbon buildup on the valve stem can cause the valve not to close properly.Repair or replace as required.
Excessively worn or mis-aligned timing chains or componentsReplace the primary timing chain, secondary timing chains, intermediate sprocket, camshaft position actuators and/or related timing components as required.
Worn camshaft lobesReplace the camshaft or camshafts and SHLAs, valve lifters.
Excessive oil pressure A lubrication system with excessive oil pressure may lead to excessive valve lifter pump-up and loss of compression.Perform an oil pressure test. Refer to Oil Pressure Diagnosis and Testing . Repair or replace the oil pump as required.
Faulty cylinder head gaskets and/or cracking or other damage to the cylinder heads and engine block cooling system passages. Refer to Diagnostic Starting Point - Engine Cooling . Coolant consumption may or may not cause the engine to overheat.Inspect for spark plugs saturated by coolant. Refer to Spark Plug Inspection . Inspect the cylinder heads, engine block, and/or head gaskets. Repair or replace as required.
Worn Piston Rings Oil consumption may or may not cause the engine to misfire.Inspect the spark plugs for oil deposits. Refer to Spark Plug Inspection . Inspect the cylinders for a loss of compression. Refer to Engine Compression Test . Perform cylinder leak down and compression testing to identify the cause. Repair or replace as required.
A damaged crankshaft reluctor wheel A damaged crankshaft reluctor wheel can result in different symptoms depending on the severity and location of the damage. Systems with SEVERE reluctor ring damage may exhibit periodic loss of crankshaft position, stop delivering a signal, and then re-sync the crankshaft position. Systems with SLIGHT reluctor ring damage may exhibit no loss of crankshaft position and no misfire may occur. However, a P0300 DTC may be set.Replace the crankshaft as required.

Base Engine Misfire without Internal Engine Noises

Base Engine Misfire with Abnormal Internal Lower Engine Noises

CauseCorrection
Abnormalities, severe cracking, bumps or missing areas, in the accessory drive belt Abnormalities in the accessory drive system and/or components may cause engine RPM variations, noises similar to a faulty lower engine and also lead to a misfire condition. A misfire code may be present without an actual misfire condition.Replace the drive belt. Refer to Drive Belt Replacement .
Worn, damaged, or mis-aligned accessory drive components or excessive pulley runout A misfire code may be present without an actual misfire condition.Inspect the components, repair or replace as required.
Loose or improperly installed engine flywheel or crankshaft balancer A misfire code may be present without an actual misfire condition.Repair or replace the engine flywheel and/or crankshaft balancer as required. Refer to Engine Flywheel Replacement or Crankshaft Balancer Replacement .
Worn or Broken Piston Rings Oil consumption may or may not cause the engine to misfire.Inspect the spark plugs for oil deposits. Refer to Spark Plug Inspection . Inspect the cylinders for a loss of compression. Refer to Engine Compression Test . Perform cylinder leak down and compression testing to determine the cause. Repair or replace as required.
Worn Crankshaft Thrust Bearings Severely worn thrust surfaces on the crankshaft and/or thrust bearing may permit fore and aft movement of the crankshaft and create a DTC without an actual misfire condition.Replace the crankshaft and bearings as required.

Base Engine Misfire with Abnormal Internal Lower Engine Noises

Base Engine Misfire with Abnormal Valve Train Noise

CauseCorrection
Worn or loose followers, valve rocker arms The follower, valve rocker arm, roller bearing should be intact and in the proper position.Replace the followers, valve rocker arms, as required.
Stuck valves Carbon buildup on the valve stem can cause the valve not to close properly.Repair or replace as required.
Excessively worn or mis-aligned timing chains or componentsReplace the primary timing chain, secondary timing chains, intermediate sprocket, camshaft position actuators and/or related timing components as required.
Worn camshaft lobesReplace the camshaft or camshafts and SHLAs, valve lifters.
Sticking SHLAs, liftersReplace the SHLAs as required.

Base Engine Misfire with Abnormal Valve Train Noise

Base Engine Misfire with Coolant Consumption

CauseCorrection
Faulty cylinder head gaskets and/or cracking or other damage to the cylinder heads and engine block cooling system passages. Refer to Diagnostic Starting Point - Engine Cooling . Coolant consumption may or may not cause the engine to overheat.Inspect for spark plugs saturated by coolant. Refer to Spark Plug Inspection . Perform a cylinder leak down test. Inspect the cylinder heads and engine block for damage to the coolant passages and/or a faulty head gasket. Repair or replace as required.

Base Engine Misfire with Coolant Consumption

Base Engine Misfire with Excessive Oil Consumption

CauseCorrection
Worn valves, valve guides and/or valve stem oil sealsInspect the spark plugs for oil deposits. Refer to Spark Plug Inspection . Repair or replace as required.
Worn Piston Rings Oil consumption may or may not cause the engine to misfire.Inspect the spark plugs for oil deposits. Refer to Spark Plug Inspection . Inspect the cylinders for a loss of compression. Refer to Engine Compression Test . Perform cylinder leak down and compression testing to determine the cause. Repair or replace as required.

Base Engine Misfire with Excessive Oil Consumption

Engine Noise on Start-Up, but Only Lasting a Few Seconds

CauseCorrection
Incorrect oil filter without anti-drainback featureInstall the correct oil filter.
Incorrect oil viscosityDrain the engine oil and replace with the correct viscosity oil.
High SHLA, valve lifter, leak down rateReplace the SHLAs, valve lifters, as required.
Worn crankshaft thrust bearingInspect the thrust bearing and crankshaft. Repair or replace as required.
Damaged or faulty oil filter by-pass valveInspect the oil filter by-pass valve for proper operation. Repair or replace as required.

Engine Noise on Start-Up, but Only Lasting a Few Seconds

Upper Engine Noise, Regardless of Engine Speed

CauseCorrection
Low oil pressurePerform an oil pressure test. Refer to Oil Pressure Diagnosis and Testing . Repair or replace as required.
Loose and/or worn follower, valve rocker armInspect the follower, valve rocker arm. Repair or replace as required.
Improper lubrication to the followers, valve rocker armsInspect the following components, and repair or replace as required: The follower, valve rocker arm The SHLA, valve lifter The oil filter bypass valve The oil pump and pump screen The cylinder head oil galleries The engine block oil galleries
Broken valve springReplace the valve spring.
Worn or dirty SHLAs, valve liftersReplace the SHLAs, valve lifters.
Stretched or broken timing chain or chains and/or damaged camshaft position actuator sprocket teethReplace the primary timing chain, secondary timing chains, intermediate sprocket, camshaft position actuators and/or related timing components as required.
Worn timing chain tensioner or tensionersReplace the timing chain tensioner or tensioners as required.
Worn timing chain shoe or shoesReplace the timing chain shoe or shoes as required.
Worn timing chain guide or guidesReplace the timing chain guide or guides as required.
Worn engine camshaft lobesInspect the engine camshaft lobes. Replace the camshaft or camshafts and SHLAs, valve lifters, as required.
Worn valve guides or valve stemsInspect the following components, and repair as required: The valves The valve guides
Stuck Valves Carbon on the valve stem or valve seat may cause the valve to stay openInspect the following components, and repair as required: The valves The valve guides

Upper Engine Noise, Regardless of Engine Speed

Lower Engine Noise, Regardless of Engine Speed

CauseCorrection
Low oil pressurePerform an oil pressure test. Refer to Oil Pressure Diagnosis and Testing . Repair or replace damaged components as required.
Worn accessory drive components Abnormalities such as severe cracking, bumps or missing areas in the accessory drive belt and/or misalignment of system components.Inspect the accessory drive system. Repair or replace as required.
Loose or damaged crankshaft balancerInspect the crankshaft balancer. Repair or replace as required.
Detonation or spark knockVerify the correct operation of the ignition system. Refer to Electronic Ignition (EI) System Diagnosis .
Loose torque converter boltsInspect the torque converter bolts and engine flywheel. Repair or replace as required.
Loose or damaged engine flywheelRepair or replace the engine flywheel.
Damaged oil pan, contacting the oil pump screen An oil pan that has been damaged may improperly position the oil pump screen, preventing proper oil flow to the oil pump.Inspect the oil pan. Inspect the oil pump screen. Repair or replace as required.
Oil pump screen loose, damaged or restrictedInspect the oil pump screen. Repair or replace as required.
Excessive piston-to-cylinder bore clearanceInspect the piston and cylinder bore. Repair as required.
Excessive piston pin-to-bore clearanceInspect the piston, piston pin, and the connecting rod. Repair or replace as required.
Excessive connecting rod bearing clearanceInspect the following components, and repair as required: The connecting rod bearings The connecting rods The crankshaft The crankshaft journals
Excessive crankshaft bearing clearanceInspect the following components, and repair as required: The crankshaft bearings The crankshaft journals
Incorrect piston, piston pin and connecting rod installation Pistons must be installed with the mark or dimple on the top of the piston facing the front of the engine. Piston pins must be centered in the connecting rod pin bore.Verify the pistons, piston pins and connecting rods are installed correctly. Repair as required.

Lower Engine Noise, Regardless of Engine Speed

Engine Noise Under Load

CauseCorrection
Low oil pressurePerform an oil pressure test. Refer to Oil Pressure Diagnosis and Testing . Repair or replace as required.
Detonation or spark knockVerify the correct operation of the ignition system. Refer to Electronic Ignition (EI) System Diagnosis .
Loose torque converter boltsInspect the torque converter bolts and engine flywheel. Repair as required.
Cracked engine flywheelInspect the engine flywheel and bolts. Repair as required.
Excessive connecting rod bearing clearanceInspect the following components, and repair as required: The connecting rod bearings The connecting rods The crankshaft
Excessive crankshaft bearing clearanceInspect the following components, and repair as required: The crankshaft bearings The crankshaft journals The cylinder block crankshaft bearing bore

Engine Noise Under Load

Engine Will Not Crank - Crankshaft Will Not Rotate

CauseCorrection
Seized Accessory Drive System ComponentRemove the accessory drive belt or belts. Rotate the crankshaft by hand at the crankshaft balancer or the engine flywheel location. Repair or replace as required.
Hydraulically Locked Cylinder Coolant/Antifreeze in cylinder Oil in cylinder Fuel in cylinderRemove the spark plugs and check for fluid. Inspect for broken head gasket or gaskets. Inspect for cracked engine block or cylinder head. Inspect for a sticking fuel injector. Repair or replace as required.
Seized Automatic Transmission Torque ConverterRemove the torque converter bolts. Rotate the crankshaft by hand at the crankshaft balancer or the engine flywheel location. Repair or replace as required.
Material in Cylinder Broken valve Piston material Foreign materialInspect the cylinder for damaged components and/or foreign materials. Repair or replace as required.
Seized Crankshaft or Connecting Rod BearingsInspect the crankshaft and the connecting rod bearings. Repair as required.
Bent or Broken Connecting RodInspect the connecting rods. Repair as required.
Broken CrankshaftInspect the crankshaft. Repair as required.
Seized or Broken CamshaftInspect the camshaft or camshafts. Inspect the cylinder head camshaft journals for damage. Repair as required.
Seized or Broken Intermediate SprocketInspect the intermediate sprocket. Inspect the intermediate shaft. Inspect the oil feed to the intermediate shaft. Repair as required.
Seized or Broken Camshaft Timing ComponentsInspect the following sprockets: The crankshaft sprocket The intermediate sprocket The exhaust camshaft position actuator sprockets The intake camshaft position actuator sprockets Inspect the following chains: The primary camshaft drive chain The secondary camshaft drive chains Inspect the following guides: The primary camshaft drive chain guide The secondary camshaft drive chain guides Inspect the secondary camshaft drive chain shoes. Inspect the following tensioners: The primary camshaft drive chain tensioner The secondary camshaft drive chain tensioners Repair as required.
Seized or Broken Valve Train ComponentsInspect the followers, rocker arms. Inspect the lifters Inspect the valves Inspect the valve springs Repair as required.

Engine Will Not Crank - Crankshaft Will Not Rotate

Coolant in Combustion Chamber

CauseCorrection
DEFINITION: Excessive white smoke and/or coolant type odor coming from the exhaust pipe may indicate coolant in the combustion chamber. Low coolant levels, an inoperative cooling fan, or a faulty thermostat may lead to an "overtemperature" condition which may cause engine component damage. A slower than normal cranking speed may indicate coolant entering the combustion chamber. Refer to Engine Will Not Crank - Crankshaft Will Not Rotate . Remove the spark plugs and inspect for spark plugs saturated by coolant or coolant in the cylinder bore. Inspect by performing a Cylinder Leakage Test . During this test, excessive air bubbles within the coolant may indicate a faulty gasket or damaged component. Inspect by performing a cylinder compression test. Two cylinders "side-by-side" on the engine block, with low compression, may indicate a failed cylinder head gasket. Refer to Engine Compression Test .
Faulty cylinder head gasketReplace the head gasket and components as required. Refer to Powertrain Removal and Installation and Cylinder Head Cleaning and Inspection .
Warped cylinder headMachine the cylinder head to the proper flatness, if applicable and replace the cylinder head gasket. Refer to Cylinder Head Cleaning and Inspection .
Cracked cylinder headReplace the cylinder head and gasket. Refer to Powertrain Removal and Installation .
Cracked cylinder liner or engine blockReplace the engine. Refer to Engine Replacement .
Cylinder head or engine block porosityReplace the cylinder head(s) or engine. Refer to Powertrain Removal and Installation or Engine Replacement .
Water outlet housing crack or porosityInspect the water outlet housing. Refer to Water Outlet Housing Removal , Water Outlet Housing Cleaning and Inspection and Water Outlet Housing Installation . Replace the component as required.

Coolant in Combustion Chamber

Coolant in Engine Oil

CauseCorrection
DEFINITION: Foamy or discolored oil or an engine oil "overfill" condition may indicate coolant entering the engine crankcase. Low coolant levels, an inoperative cooling fan, or a faulty thermostat may lead to an "overtemperature" condition which may cause engine component damage. Contaminated engine oil and oil filter should be changed. Inspect the oil for excessive foaming or an overfill condition. Oil diluted by coolant may not properly lubricate the crankshaft bearings and may lead to component damage. Refer to Lower Engine Noise, Regardless of Engine Speed . Inspect by performing a Cylinder Leakage Test . During this test, excessive air bubbles within the cooling system may indicate a faulty gasket or damaged component. Inspect by performing a cylinder compression test. Two cylinders "side-by-side" on the engine block with low compression may indicate a failed cylinder head gasket. Refer to Engine Compression Test .
Faulty external engine oil coolerReplace the components as required.
Faulty cylinder head gasketReplace the head gasket and components as required. Refer to Cylinder Head Cleaning and Inspection .
Warped cylinder headMachine the cylinder head to proper flatness, if applicable, and replace the cylinder head gasket. Refer to Cylinder Head Cleaning and Inspection .
Cracked cylinder headReplace the cylinder head and gasket.
Cracked cylinder liner or engine blockReplace the components as required.
Cylinder head, block, or manifold porosityReplace the components as required.

Coolant in Engine Oil

Engine Compression Test

Tools Required

J 39313 Spark Plug Port Adapter

A compression pressure test of the engine cylinders determines the condition of the rings, the valves and the head gasket.

  1. Run the engine until it reaches normal operating temperature. The battery must be at or near full charge.
  2. Turn the engine OFF.
  3. Disable the ignition.
  4. Disable the fuel systems.
  5. Remove the spark plugs from all cylinders.
  6. Remove the air duct from the throttle body.
  7. Block the throttle plate in open position.
  8. Measure the engine compression, using the following procedure: Thread the J 39313 into the spark plug hole. Thread the compression gage into the J 39313 . Have an assistant crank the engine through, at least four compression strokes, in the testing cylinder. Check and record the readings on the gage at each stroke. Remove the compression gage from the J 39313 . Remove the J 39313 from the spark plug hole. Repeat the compression test for each cylinder.
  9. Record the compression readings from all of the cylinders. The lowest reading should not be less than 70 percent of the highest reading. No cylinder reading should be less than 965 kPa (140 psi).
  10. The following are examples of measurement problems: When the compression measurement is normal, the compression builds up quickly and evenly to specified compression on each cylinder When low compression is caused by the piston rings, compression is low on the first stroke and tends to build up on the following strokes, but does not reach normal. Compression improves considerably with the addition of oil. Use approximately three squirts of oil from a plunger-type oiler. When low compression is caused by the valves, the measurement is low on the first stroke and does not build up even with the addition of oil. Leaking head gaskets will provide the same results as worn valves but engine coolant may be identified in the crankcase. In addition, a leaking head gasket will give low readings on paired cylinders.
  11. Remove the block from the throttle plate.
  12. Install the air duct to the throttle body.
  13. Install the spark plugs.
  14. Install the Powertrain Control Module (PCM).
  15. Install the ignition fuses to the IP fuse block.

Cylinder Leakage Test

Tools Required

  1. EN 46326 Flywheel Holding Tool
  2. J 35667-A Cylinder Head Leakdown Tester
  3. J 39313 Spark Plug Port Adapter
IMPORTANTA leakage test may be performed in order to measure cylinder/combustion chamber leakage. High cylinder leakage may indicate one or more of the following: Worn or burnt valves Broken valve springs Stuck valve lifters Incorrect valve lash/adjustment Damaged piston Worn piston rings Worn or scored cylinder bore Damaged cylinder head gasket Cracked or damaged cylinder head Cracked or damaged engine block
  1. Disconnect the battery ground negative cable.
  2. Remove the spark plugs. Refer to «Spark Plug Replacement»(/cadillac/xlr/i-2003-2009/remont/testing-diagnostics/#engine-controls-46l-lh2-introduction-2-of-2) .
  3. Rotate the crankshaft to place the piston in the cylinder being tested at top dead center (TDC) of the compression stroke.
  4. Install the J 39313 .
  5. Install the J 35667-A or equivalent.
  6. Apply shop air pressure to the J 35667-A and adjust according to the manufacturers instructions.
  7. Record the cylinder leakage value. Cylinder leakage that exceeds 25 percent is considered excessive and may require component service. In excessive leakage situations, inspect for the following conditions: Air leakage sounds at the throttle body or air inlet hose that may indicate a worn or burnt intake valve or a broken valve spring. Air leakage sounds at the exhaust system tailpipe that may indicate a worn or burnt exhaust valve or a broken valve spring. Air leakage sounds from the crankcase, oil level indicator tube, or oil fill tube that may indicate worn piston rings, a damaged piston, a worn or scored cylinder bore, a damaged engine block or a damaged cylinder head. Air bubbles in the cooling system may indicate a damaged cylinder head or a damaged cylinder head gasket.
  8. Perform the leakage test on the remaining cylinders and record the values.

Oil Consumption Diagnosis

ChecksCauses
DEFINITION: Excessive oil consumption (not due to leaks) is the use of 0.946 liter (1 quart) or more of engine oil within 3 200 km (2,000 mi). The causes of excessive oil consumption may include the following conditions
PreliminaryExternal oil leaks Refer to Oil Leak Diagnosis . Incorrect oil level or improper reading of the oil level indicator With the vehicle on a level surface, run the engine for a few minutes, allow adequate drain down time (2-3 minutes) and check for the correct engine oil level. Improper oil viscosity Refer to the vehicle owners manual and use the recommended SAE grade and viscosity for the prevailing temperatures. Continuous high speed driving and/or severe usage Crankcase ventilation system restrictions or malfunctioning components Worn valve guides and/or valve stems Worn, missing or improperly installed valve stem oil seals Piston rings broken, worn, not seated properly Allow adequate time for the rings to seat. Replace worn piston rings as necessary. Piston and rings improperly installed or miss-fitted to the cylinder bore

Oil Consumption Diagnosis

Oil Pressure Diagnosis and Testing

Tools Required

  1. J 21867 Pressure Gage
  2. J 42907 Oil Pressure Tester. See «Special Tools»(/cadillac/xlr/i-2003-2009/remont/mechanical/#engine-mechanical-46l-lh2-introduction__special-tools) .
  1. With the vehicle on a level surface, run the vehicle for a few minutes, allow adequate drain down time, 2-3 minutes, and measure the oil level.
  2. If required, add the recommended grade engine oil and fill the crankcase until the oil level measures full on the oil level indicator.
  3. Run the engine briefly, 10-15 seconds, and verify low or no oil pressure on the vehicle gage or light.
  4. Listen for a noisy valve train or a knocking noise.
  5. Inspect for the following conditions: Oil diluted by water or glycol antifreeze Foamy oil
  6. Remove the oil filter.
  7. Install the J 42907 onto the oil filter adapter. See «Special Tools»(/cadillac/xlr/i-2003-2009/remont/mechanical/#engine-mechanical-46l-lh2-introduction__special-tools) .
  8. Install the 1/8 NPT fitting from the J 21867 into the port on the J 42907 . See «Special Tools»(/cadillac/xlr/i-2003-2009/remont/mechanical/#engine-mechanical-46l-lh2-introduction__special-tools) .
  9. Install the J 21867 flexible hose to the J 42907 . See «Special Tools»(/cadillac/xlr/i-2003-2009/remont/mechanical/#engine-mechanical-46l-lh2-introduction__special-tools) .
  10. Run the engine and measure the engine oil pressure.
  11. Compare the readings to «Engine Mechanical Specifications»(/cadillac/xlr/i-2003-2009/remont/mechanical/#engine-mechanical-46l-lh2-introduction__engine-mechanical-specifications) .
  12. If the engine oil pressure is below specifications, inspect the engine for 1 or more of the following conditions: Oil pump worn or dirty. Refer to «Oil Pump Replacement»(/cadillac/xlr/i-2003-2009/remont/mechanical/#engine-mechanical-46l-lh2-1-of-5) , «Oil Pump Disassemble»(/cadillac/xlr/i-2003-2009/remont/mechanical/#engine-mechanical-44l-3-of-5__oil-pump-disassemble-off-vehicle) and «Oil Pump Cleaning and Inspection»(/cadillac/xlr/i-2003-2009/remont/mechanical/#engine-mechanical-44l-3-of-5) . Oil pump-to-engine block bolts loose. Refer to «Oil Pump Replacement»(/cadillac/xlr/i-2003-2009/remont/mechanical/#engine-mechanical-46l-lh2-1-of-5) . Oil pump screen loose, plugged, or damaged. Refer to «Oil Pump Suction Pipe and Screen Assembly Replacement»(/cadillac/xlr/i-2003-2009/remont/mechanical/#engine-mechanical-46l-lh2-1-of-5) and «Oil Pump Suction Pipe and Screen Cleaning and Inspection»(/cadillac/xlr/i-2003-2009/remont/mechanical/#engine-mechanical-44l-3-of-5) . Oil pump screen O-ring seal missing or damaged. Refer to «Oil Pump Suction Pipe and Screen Assembly Replacement»(/cadillac/xlr/i-2003-2009/remont/mechanical/#engine-mechanical-46l-lh2-1-of-5) and «Oil Pump Suction Pipe and Screen Cleaning and Inspection»(/cadillac/xlr/i-2003-2009/remont/mechanical/#engine-mechanical-44l-3-of-5) . Oil pump pressure relief valve malfunction. Refer to «Oil Pump Replacement»(/cadillac/xlr/i-2003-2009/remont/mechanical/#engine-mechanical-46l-lh2-1-of-5) . Oil outlet tube bolts loose or missing, O-rings damaged or missing, mounting flange damaged and/or tube broken or damaged. Refer to «Oil Pump Outlet Tube Removal»(/cadillac/xlr/i-2003-2009/remont/mechanical/#engine-mechanical-44l-2-of-5__oil-pump-outlet-tube-removal) , «Oil Pump Outlet Tube Cleaning and Inspection»(/cadillac/xlr/i-2003-2009/remont/mechanical/#engine-mechanical-44l-3-of-5) and «Oil Pump Outlet Tube Installation»(/cadillac/xlr/i-2003-2009/remont/mechanical/#engine-mechanical-44l-4-of-5__oil-pump-outlet-tube-installation) . Engine bearing clearance excessive. Refer to «Crankshaft and Bearing Cleaning and Inspection»(/cadillac/xlr/i-2003-2009/remont/mechanical/#engine-mechanical-46l-lh2-4-of-5) , «Crankshaft and Bearing Installation»(/cadillac/xlr/i-2003-2009/remont/mechanical/#engine-mechanical-46l-lh2-3-of-5) and «Piston, Connecting Rod, and Bearing Installation»(/cadillac/xlr/i-2003-2009/remont/mechanical/#engine-mechanical-46l-lh2-3-of-5__piston-connecting-rod-and-bearing-installation) . Cracked, porous, or restricted oil galleries. Oil gallery plugs missing or incorrectly installed. Refer to «Engine Block Assemble - Upper»(/cadillac/xlr/i-2003-2009/remont/mechanical/#engine-mechanical-46l-lh2-4-of-5__engine-block-assemble-upper) and «Cylinder Head Assemble»(/cadillac/xlr/i-2003-2009/remont/mechanical/#engine-mechanical-44l-3-of-5__cylinder-head-assemble-off-vehicle) . Valve lifters broken. Repair, as necessary. Refer to «Valve Lifter Replacement - Left Side»(/cadillac/xlr/i-2003-2009/remont/mechanical/#engine-mechanical-46l-lh2-2-of-5) and/or «Valve Lifter Replacement - Right Side»(/cadillac/xlr/i-2003-2009/remont/mechanical/#engine-mechanical-46l-lh2-2-of-5) and «Valve Lifters Cleaning and Inspection»(/cadillac/xlr/i-2003-2009/remont/mechanical/#engine-mechanical-44l-3-of-5__valve-lifters-cleaning-and-inspection) . Crankshaft balancer bolt missing, loose or under-torqued.
  13. If the oil pressure reading on the J 21867 , or equivalent, is within specifications, inspect for the following conditions: Plugged or incorrect oil filter and/or malfunctioning oil bypass valve. Refer to «Engine Oil and Oil Filter Replacement»(/cadillac/xlr/i-2003-2009/remont/mechanical/#engine-mechanical-46l-lh2-2-of-5) . Malfunctioning oil pressure gage or sensor. Repair, as necessary. Refer to «Engine Oil Pressure Sensor and/or Switch Replacement»(/cadillac/xlr/i-2003-2009/remont/mechanical/#engine-mechanical-44l-1-of-5) .

Oil Leak Diagnosis

ChecksAction
NOTE: It is important to correctly identify the source of an oil leak. A power steering fluid leak or spillage can travel across the valley area of the engine and run out the weep hole, which is located at the back of the block. Failure to correctly identify the source of an oil leak can lead to the incorrect or unnecessary replacement of components. You can repair most fluid leaks by first visually locating the leak, repairing or replacing the component, or by resealing the gasket surface. Once the leak is identified, determine the cause of the leak. Repair the cause of the leak as well as the leak itself.
Locating and identifying the leakTo determine if the leaking fluid is engine oil, transmission fluid, power steering fluid, brake fluid, or some other fluid, use the visual inspection method.
Visual Inspection MethodBring the vehicle to normal operating temperature. Park the vehicle over a large sheet of paper, or other clean surface. Wait several minutes, then check for drippings. Identify the type of fluid, and the approximate location of the leak. Visually inspect the suspected area. Use a small mirror to assist in looking at hard to see areas. Check for leaks at sealing surfaces, fittings, or from cracked or damaged components. If you cannot locate the leak, do the following: Completely clean the entire engine and surrounding components. Operate the vehicle for several miles at normal operation temperature and at varying speeds. Park the vehicle over a large sheet of paper, or other clean surface. Wait several minutes, then check for drippings. Identify the type of fluid, and the approximate location of the leak. Visually inspect the suspected area. Use a small mirror to assist in looking at hard to see areas. See possible causes for leaks. If you still cannot locate the leak, use the powder method or the black light and dye method.
Powder MethodCompletely clean the entire engine and surrounding components. Apply an aerosol-type powder (baby powder, foot powder, etc.) to the suspected area. Operate the vehicle for several miles at normal operation temperature and at varying speeds. Identify the type of fluid, and the approximate location of the leak, from the discolorations in the powder surface. Visually inspect the suspected area. Use a small mirror to assist in looking at hard to see areas. See possible causes for leaks.
Black Light and Dye MethodA dye and light kit is available for finding leaks. Use the J 28428-E High-Intensity Black Light Kit or equivalent. Refer to the manufacturer's instructions when using the tool. Visually inspect the suspected area. Use a small mirror to assist in looking at hard to see areas. See possible causes for leaks.
Possible Causes for LeaksCheck for the following conditions: Higher than recommended fluid levels Higher than recommended fluid pressures Plugged or malfunctioning fluid filters or pressure bypass valves Plugged or malfunctioning engine ventilation system Improperly tightened or damaged fasteners Cracked or porous components Improper sealants or gaskets where required Improper sealant or gasket installation Damaged or worn gaskets or seals Damaged or worn sealing surfaces
NOTE
It is important to correctly identify the source of an oil leak. A power steering fluid leak or spillage can travel across the valley area of the engine and run out the weep hole, which is located at the back of the block. Failure to correctly identify the source of an oil leak can lead to the incorrect or unnecessary replacement of components.

Oil Leak Diagnosis

Crankcase Ventilation System Inspection/Diagnosis

ConcernAction
External oil leakInspect for any of the following conditions: Plugged positive crankcase ventilation (PCV) orifice tube. Plugged or kinked PCV hoses. Damaged or incorrectly installed PCV hoses. Excessive crankcase pressure.
Rough IdleInspect for any of the following conditions: Plugged PCV orifice tube. Plugged or kinked PCV hoses. Leaking or damaged PCV hoses.
Stalling or slow idle speedInspect for any of the following conditions: Plugged PCV orifice tube. Plugged or kinked PCV hoses. Leaking or damaged PCV hoses.
High idle speedInspect for a leaking or damaged PCV hoses.
Sludge in the engineInspect for any of the following conditions: Plugged PCV orifice tube. Plugged or kinked PCV hoses.

Crankcase Ventilation System Inspection/Diagnosis

Diagnostic Aids

The symptom may be intermittent due to moisture on the drive belt or the pulleys. It may be necessary to spray a small amount of water on the drive belt in order to duplicate the customers concern. If spraying water on the drive belt duplicates the symptom, cleaning the belt pulleys may be the probable solution.

A loose or improper installation of a body component, a suspension component, or other items of the vehicle may cause the chirping noise.

Test Description

The numbers below refer to the step numbers on the diagnostic table.

  1. 2: The noise may not be engine related. This step is to verify that the engine is making the noise. If the engine is not making the noise, DO NOT proceed further with this table.
  2. 3: The noise may be an internal engine noise. Removing the drive belt and operating the engine for a brief period will verify the noise is related to the drive belt. When removing the drive belt, the water pump may not be operating and the engine may overheat. Also, DTCs may set when the engine is operating with the drive belt removed.
  3. 4: Inspect all drive belt pulleys for pilling. Pilling is the small balls, or pills, or it can be strings in the drive belt grooves from the accumulation of rubber dust.
  4. 6: Misalignment of the pulleys may be caused from improper mounting of the accessory drive component, incorrect installation of the accessory drive component pulley, or the pulley bent inward or outward from a previous repair. Test for a misaligned pulley using a straight edge in the pulley grooves across two or three pulleys. If a misaligned pulley is found, refer to that accessory drive component for the proper installation procedure for that pulley.
  5. 10: Inspecting of the fasteners can eliminate the possibility that a wrong bolt, nut, spacer, or washer was installed.
  6. 12: Inspecting the pulleys for being bent should include inspecting for a dent or other damage to the pulleys that would prevent the drive belt from not seating properly in all of the pulley grooves or on the smooth surface of a pulley when the back side of the belt is used to drive the pulley.
  7. 14: Replacing the drive belt when it is not damaged, or when there is no excessive pilling, will only be a temporary repair.
StepActionYesNo
NOTE: Refer to Belt Dressing Notice in Cautions and Notices. DEFINITION: The following items are indications of chirping: A high pitched noise that is heard once per revolution of the drive belt or a pulley. Chirping may occur on cold damp start-ups and will subside once the vehicle reaches normal operating temp.
1Did you review the Drive Belt Symptom operation and perform the necessary inspections?Go to Step 2Go to Symptoms - Engine Mechanical
2Verify that there is a chirping noise. Does the engine make the chirping noise?Go to Step 3Go to Diagnostic Aids
3Remove the drive belt. Operate the engine for no longer than 30 to 40 seconds. Does the chirping noise still exist?Go to Symptoms - Engine MechanicalGo to Step 4
4Inspect for severe pilling exceeding 1/3 of the belt groove depth. Does the belt grooves have pilling?Go to Step 5Go to Step 6
5Clean the drive belt pulleys with a suitable wire brush. Did you complete the repair?Go to Step 15Go to Step 6
6Inspect for misalignment of the pulleys. Are any of the pulleys misaligned?Go to Step 7Go to Step 8
7Replace or repair any misaligned pulleys. Did you complete the repair?Go to Step 15Go to Step 8
8Inspect for bent or cracked brackets. Did you find any bent or cracked brackets?Go to Step 9Go to Step 10
9Replace any bent or cracked brackets. Did you complete the replacement?Go to Step 15Go to Step 10
10Inspect for improper, loose or missing fasteners. Did you find the condition?Go to Step 11Go to Step 12
11Tighten any loose fasteners. Replace any improper or missing fasteners. Refer to Fastener Tightening Specifications . Did you complete the replacement?Go to Step 15Go to Step 12
12Inspect for a bent pulley. Did you find the condition?Go to Step 13Go to Step 14
13Replace the bent pulley. Did you complete the replacement?Go to Step 15Go to Step 14
14Replace the drive belt. Refer to Drive Belt Replacement . Did you complete the replacement?Go to Step 15Go to Diagnostic Aids
15Operate the system in order to verify the repair. Did you correct the condition?System OKGo to Step 3
NOTE
Refer to Belt Dressing Notice in Cautions and Notices.

Drive Belt Chirping Diagnosis

A loose or improper installation of a body component, a suspension component, or other items of the vehicle may cause the squeal noise.

If the noise is intermittent, verify the accessory drive components by varying their loads ensuring they are operated to their maximum capacity. An overcharged A/C system, power steering system with a pinched hose or wrong fluid, or a generator failing are suggested items to inspect.

The numbers below refer to the step numbers on the diagnostic table.

  1. 2: The noise may not be engine related. This step is to verify that the engine is making the noise. If the engine is not making the noise, DO NOT proceed further with this table.
  2. 3: The noise may be an internal engine noise. Removing the drive belt and operating the engine for a brief period will verify the squeal noise is the drive belt, or an accessory drive component. When removing the drive belt, the water pump may not be operating and the engine may overheat. Also, DTCs may set when the engine is operating with the drive belt removed.
  3. 4: This test is to verify that an accessory drive component does not have a seized bearing. With the belt removed, test the bearings in the accessory drive components for turning smoothly. Also, test the accessory drive components with the engine operating by varying the load on the components to verify that the components operate properly.
  4. 5: This test is to verify that the drive belt tensioner operates properly. If the drive belt tensioner is not operating properly, proper belt tension may not be achieved to keep the drive belt from slipping which could cause a squeal noise.
  5. 6: This test is to verify that the drive belt is not too long, which would prevent the drive belt tensioner from working properly. Also, if an incorrect length drive belt was installed, it may not be routed properly and may be turning an accessory drive component in the wrong direction.
  6. 7: Misalignment of the pulleys may be caused from improper mounting of the accessory drive component, incorrect installation of the accessory drive component pulley, or the pulley bent inward or outward from a previous repair. Test for a misaligned pulley using a straight edge in the pulley grooves across two or three pulleys. If a misaligned pulley is found, refer to that accessory drive component for the proper installation procedure for that pulley.
  7. 8: This test is to verify that the pulleys are the correct diameter or width. Using a known good vehicle, compare the pulley sizes.
StepActionYesNo
NOTE: Refer to Belt Dressing Notice in Cautions and Notices. DEFINITION: The following items are indications of drive belt squeal: A loud screeching noise that is caused by a slipping drive belt-This is unusual for a drive belt with multiple ribs. The noise occurs when a heavy load is applied to the drive belt, such as an air conditioning compressor engagement snapping the throttle, or slipping on a seized pulley or a faulty accessory drive component.
1Did you review the Drive Belt Symptom operation and perform the necessary inspections?Go to Step 2Go to Symptoms - Engine Mechanical
2Verify that there is a squeal noise. Does the engine make the squeal noise?Go to Step 3Go to Diagnostic Aids
3Remove the drive belt. Operate the engine for no longer than 30 to 40 seconds. Does the noise still exist?Go to Symptoms - Engine MechanicalGo to Step 4
4Inspect for an accessory drive component seized bearing or a faulty accessory drive component. Did you find and correct the condition?Go to Step 9Go to Step 5
5Test the drive belt tensioner for proper operation. Refer to Drive Belt Tensioner Diagnosis . Did you find and correct the condition?Go to Step 9Go to Step 6
6Inspect for the correct drive belt length. Refer to Drive Belt Replacement . Did you find and correct the condition?Go to Step 9Go to Step 7
7Inspect for misalignment of a pulley. Did you find and correct the condition?Go to Step 9Go to Step 8
8Inspect for the correct pulley size. Did you find and correct the condition?Go to Step 9Go to Diagnostic Aids
9Operate the system in order to verify the repair. Did you correct the condition?System OKGo to Step 3
NOTE
Refer to Belt Dressing Notice in Cautions and Notices.

Drive Belt Squeal Diagnosis

The drive belt will not cause the whine noise.

If the whine noise is intermittent, verify the accessory drive components by varying their loads, ensuring that they are operated to their maximum capacity. Such items, but not limited to, may be an A/C system overcharged, the power steering system restricted or the wrong fluid, or the generator failing.

The numbers below refer to the step numbers on the diagnostic table.

  1. 3: This test is to verify that the noise is being caused by the drive belt or the accessory drive components. When removing the drive belt, the water pump may not be operating and the engine may overheat. Also, DTCs may set when the engine is operating with the drive belt removed.
  2. 4: The inspection should include checking the drive belt tensioner and the drive belt idler pulley bearings. The drive belt may have to be installed and the accessory drive components operated separately by varying their loads. Refer to the suspected accessory drive component for the proper inspection and replacement procedure.
StepActionYesNo
NOTE: Refer to Belt Dressing Notice in Cautions and Notices. DEFINITION: A high pitched continuous noise that may be caused by an accessory drive component failed bearing.
1Did you review the Drive Belt Symptom operation and perform the necessary inspections?Go to Step 2Go to Symptoms - Engine Mechanical
2Verify that there is a whine noise. Does the engine make the whine noise?Go to Step 3Go to Diagnostic Aids
3Remove the drive belt. Operate the engine for no longer than 30 to 40 seconds. Does the whine noise still exist?Go to Symptoms - Engine MechanicalGo to Step 4
4Inspect for a failed accessory drive component bearing. Did you find and repair the condition?Go to Step 5Go to Diagnostic Aids
5Operate the system in order to verify the repair. Did you correct the condition?System OK
NOTE
Refer to Belt Dressing Notice in Cautions and Notices.

Drive Belt Whine Diagnosis

  1. Vibration from the engine operating may cause a body component or another part of the vehicle to make rumbling noise.
  2. The drive belt may have a condition that can not be seen or felt. Sometimes replacing the drive belt may be the only repair for the symptom.
  3. If replacing the drive belt, completing the diagnostic table, and the noise is only heard when the drive belt is installed, there might be an accessory drive component with a failure. Varying the load on the different accessory drive components may aid in identifying which component is causing the rumbling noise.

The numbers below refer to the step numbers on the diagnostic table.

  1. 2: This test is to verify that the symptom is present during diagnosing. Other vehicle components may cause a similar symptom.
  2. 3: This test is to verify that the drive belt is causing the rumbling noise. Rumbling noise may be confused with an internal engine noise due to the similarity in the description. Remove only one drive belt at a time if the vehicle has multiple drive belts. When removing the drive belt the water pump may not be operating and the engine may overheat. Also DTCs may set when the engine is operating with the drive belt removed.
  3. 4: Inspecting the drive belt is to ensure that it is not causing a the noise. Small cracks across the ribs of the drive belt will not cause the noise. Belt separation is identified by the plys of the belt separating and may be seen at the edge of the belt our felt as a lump in the belt.
  4. 5: Small amounts of pilling is normal condition and acceptable. When the pilling is severe the drive belt does not have a smooth surface for proper operation.
StepActionYesNo
NOTE: Refer to Belt Dressing Notice in Cautions and Notices. DEFINITION: A low pitch tapping, knocking, or thumping noise heard at or just above idle. Heard once per revolution of the drive belt or a pulley. Rumbling may be caused from one of the following conditions: Pilling, the accumulation of rubber dust that forms small balls, pills or strings in the drive belt pulley groove The separation of the drive belt A damaged drive belt
1Did you review the Drive Belt Symptom operation and perform the necessary inspections?Go to Step 2Go to Symptoms - Engine Mechanical
2Verify that there is a rumbling noise. Does the engine make the rumbling noise?Go to Step 3Go to Diagnostic Aids
3Remove the drive belt. Operate the engine for no longer than 30 to 40 seconds. Does the rumbling noise still exist?Go to Symptoms - Engine MechanicalGo to Step 4
4Inspect the drive belt for damage, separation, or sections of missing ribs. Did you find any of these conditions?Go to Step 7Go to Step 5
5Inspect for severe pilling of more than 1/3 of the drive belt pulley grooves. Did you find severe pilling?Go to Step 6Go to Step 7
6Clean the drive belt pulleys using a suitable wire brush. Reinstall the drive belt. Refer to Drive Belt Replacement . Did you complete the repair?Go to Step 8Go to Step 7
7Install a new drive belt. Refer to Drive Belt Replacement . Did you complete the replacement?Go to Step 8
8Operate the system in order to verify the repair. Did you correct the condition?System OKGo to Diagnostic Aids
NOTE
Refer to Belt Dressing Notice in Cautions and Notices.

Drive Belt Rumbling Diagnosis

The accessory drive components can have an affect on engine vibration. Such as but not limited to the A/C system over charged, the power steering system restricted or the incorrect fluid, or an extra load on the generator. To help identify an intermittent or an improper condition, vary the loads on the accessory drive components.

The numbers below refer to the step numbers on the diagnostic table.

  1. 2: This test is to verify that the symptom is present during diagnosing. Other vehicle components may cause a similar symptom such as the exhaust system, or the drivetrain.
  2. 3: This test is to verify that the drive belt or accessory drive components may be causing the vibration. When removing the drive belt the water pump may not be operating and the engine may overheat. Also DTCs may set when the engine is operating with the drive belt removed.
  3. 4: The drive belt may cause a vibration. While the drive belt is removed this is the best time to inspect the condition of the belt.
  4. 6: Inspecting of the fasteners can eliminate the possibility that a wrong bolt, nut, spacer, or washer was installed.
  5. 8: Accessory drive component brackets that are bent, cracked, or loose may put extra strain on that accessory component causing it to vibrate.
StepActionYesNo
NOTE: Refer to Belt Dressing Notice in Cautions and Notices. DEFINITION: The following items are indications of drive belt vibration: The vibration is engine-speed related. The vibration may be sensitive to accessory load.
1Did you review the Drive Belt Symptom operation and perform the necessary inspections?Go to Step 2Go to Symptoms - Engine Mechanical
2Verify that the vibration is engine related. Does the engine make the vibration?Go to Step 3Go to Diagnostic Aids
3Remove the drive belt. Operate the engine for no longer than 30 to 40 seconds. Does the engine still make the vibration?Go to Vibration Analysis - Engine in Vibration Diagnosis and CorrectionGo to Step 4
4Inspect the drive belt for wear, damage, debris build-up and missing drive belt ribs. Did you find any of these conditions?Go to Step 5Go to Step 6
5Install a new drive belt. Refer to Drive Belt Replacement . Did you complete the replacement?Go to Step 9
6Inspect for improper, loose or missing fasteners. Did you find any of these conditions?Go to Step 7Go to Step 8
7Tighten any loose fasteners. Replace improper or missing fasteners. Refer to Fastener Tightening Specifications . Did you complete the repair?Go to Step 9
8Inspect for bent or cracked brackets. Did you find and correct the condition?Go to Step 9Go to Diagnostic Aids
9Operate the system in order to verify the repair. Did you correct the condition?System OKGo to Step 3
NOTE
Refer to Belt Dressing Notice in Cautions and Notices.

Drive Belt Vibration Diagnosis

  1. If the drive belt repeatedly falls off the drive belt pulleys, this is because of pulley misalignment.
  2. An extra load that is quickly applied on released by an accessory drive component may cause the drive belt to fall off the pulleys. Verify the accessory drive components operate properly.
  3. If the drive belt is the incorrect length, the drive belt tensioner may not keep the proper tension on the drive belt.

The numbers below refer to the step numbers on the diagnostic table.

  1. 2: This inspection is to verify the condition of the drive belt. Damage may of occurred to the drive belt when the drive belt fell off. The drive belt may of been damaged, which caused the drive belt to fall off. Inspect the belt for cuts, tears, sections of ribs missing, or damaged belt plys.
  2. 4: Misalignment of the pulleys may be caused from improper mounting of the accessory drive component, incorrect installation of the accessory drive component pulley, or the pulley bent inward or outward from a previous repair. Test for a misaligned pulley using a straight edge in the pulley grooves across two or three pulleys. If a misaligned pulley is found refer to that accessory drive component for the proper installation procedure of that pulley.
  3. 5: Inspecting the pulleys for being bent should include inspecting for a dent or other damage to the pulleys that would prevent the drive belt from not seating properly in all of the pulley grooves or on the smooth surface of a pulley when the back side of the belt is used to drive the pulley.
  4. 6: Accessory drive component brackets that are bent or cracked will let the drive belt fall off.
  5. 7: Inspecting of the fasteners can eliminate the possibility that a wrong bolt, nut, spacer, or washer was installed. Missing. loose, or the wrong fasteners may cause pulley misalignment from the bracket moving under load. Over tightening of the fasteners may cause misalignment of the accessory component bracket.
StepActionYesNo
NOTE: Refer to Belt Dressing Notice in Cautions and Notices. DEFINITION: The drive belt falls off the pulleys or may not ride correctly on the pulleys.
1Did you review the Drive Belt Symptom operation and perform the necessary inspections?Go to Step 2Go to Symptoms - Engine Mechanical
2Inspect for a damaged drive belt. Did you find the condition?Go to Step 3Go to Step 4
3Install a new drive belt. Refer to Drive Belt Replacement . Does the drive belt continue to fall off?Go to Step 4System OK
4Inspect for misalignment of the pulleys. Did you find and repair the condition?Go to Step 12Go to Step 5
5Inspect for a bent or dented pulley. Did you find and repair the condition?Go to Step 12Go to Step 6
6Inspect for a bent or a cracked bracket. Did you find and repair the condition?Go to Step 12Go to Step 7
7Inspect for improper, loose or missing fasteners. Did you find loose or missing fasteners?Go to Step 8Go to Step 9
8Tighten any loose fasteners. Replace improper or missing fasteners. Refer to Fastener Tightening Specifications . Does the drive belt continue to fall off?Go to Step 9System OK
9Test the drive belt tensioner for operating correctly. Refer to Drive Belt Tensioner Diagnosis . Does the drive belt tensioner operate correctly?Go to Step 11Go to Step 10
10Replace the drive belt tensioner. Refer to Drive Belt Tensioner Replacement . Does the drive belt continue to fall off?Go to Step 11System OK
11Inspect for failed drive belt idler and drive belt tensioner pulley bearings. Did you find and repair the condition?Go to Step 12Go to Diagnostic Aids
12Operate the system in order to verify the repair. Did you correct the condition?System OKGo to Step 2
NOTE
Refer to Belt Dressing Notice in Cautions and Notices.

Drive Belt Falls Off Diagnosis

  1. Excessive wear on a drive belt is usually caused by an incorrect installation or the wrong drive belt for the application.
  2. Minor misalignment of the drive belt pulleys will not cause excessive wear, but will probably cause the drive belt to make a noise or to fall off.
  3. Excessive misalignment of the drive belt pulleys will cause excessive wear but may also make the drive belt fall off.

The numbers below refer to the step numbers on the diagnostic table.

  1. 2: The inspection is to verify the drive belt is correctly installed on all of the drive belt pulleys. Wear on the drive belt may be caused by mis-positioning the drive belt by one groove on a pulley.
  2. 3: The installation of a drive belt that is two wide or two narrow will cause wear on the drive belt. The drive belt ribs should match all of the grooves on all of the pulleys.
  3. 4: This inspection is to verify the drive belt is not contacting any parts of the engine or body while the engine is operating. There should be sufficient clearance when the drive belt accessory drive components load varies. The drive belt should not come in contact with an engine or a body component when snapping the throttle.
StepActionYesNo
NOTE: Refer to Belt Dressing Notice in Cautions and Notices. DEFINITION: Wear at the outside ribs of the drive belt due to an incorrectly installed drive belt.
1Did you review the Drive Belt Symptom operation and perform the necessary inspections?Go to Step 2Go to Symptoms - Engine Mechanical
2Inspect the drive belt for the proper installation. Refer to Drive Belt Replacement . Did you find this condition?Go to Step 5Go to Step 3
3Inspect for the proper drive belt. Did you find this condition?Go to Step 5Go to Step 4
4Inspect for the drive belt rubbing against a bracket, hose, or wiring harness. Did you find and repair the condition?Go to Step 6Go to Diagnostic Aids
5Replace the drive belt. Refer to Drive Belt Replacement . Did you complete the replacement?Go to Step 6
6Operate the system in order to verify the repair. Did you correct the condition?System OK
NOTE
Refer to Belt Dressing Notice in Cautions and Notices.

Drive Belt Excessive Wear Diagnosis

Drive Belt Tensioner Diagnosis

StepActionYesNo
1Remove the drive belt. Inspect the drive belt tensioner pulley. Is the drive belt tensioner pulley loose or misaligned?Go to Step 4Go to Step 2
2Rotate the drive belt tensioner. Does the tensioner rotate without any unusual resistance or binding?Go to Step 3Go to Step 4
3Use a torque wrench in order to measure the torque required to move the tensioner off of the stop. Use a torque wrench on a known good tensioner in order to measure the torque required to move the tensioner off of the stop. Is the first torque reading within 10% of the second torque reading?System OKGo to Step 4
4Replace the drive belt tensioner Refer to Drive Belt Tensioner Replacement . Is the repair complete?System OK

Drive Belt Tensioner Diagnosis

Scheme 54

Scheme 54: Crankcase Ventilation System Description

A "closed type" positive crankcase ventilation system is used to consume crankcase vapors created during the combustion process instead of venting them to the atmosphere.

Filtered fresh air is supplied to the crankcase through a PCV fresh air tube connecting from the air duct to the LH camshaft cover PCV fitting. In the crankcase, the fresh air mixes with blow-by gases and then is passed through a positive crankcase ventilation (PCV) orifice fitting located in the RH camshaft cover. The air/blow-by mixture is passed into the intake manifold through a foul air PCV tube.

The PCV orifice fitting restricts the flow rate of the blow-by gases using two small orifice holes located at the end of the PCV fitting. If abnormal operating conditions arise, the system is designed to allow excessive amounts of blow-by gases to back-flow through the PCV system fresh air tube back into the air duct in order to be consumed by normal combustion. The PCV orifice fitting is not serviceable. If the orifice fitting can not be unplugged, the camshaft cover must be replaced.

Drive Belt System Description

The drive belt system consists of the following components

  1. The drive belt
  2. The drive belt tensioner
  3. The drive belt idler pulley
  4. The crankshaft balancer pulley
  5. The accessory drive component mounting brackets
  6. The accessory drive components The power steering pump, if belt driven The generator The A/C compressor, if equipped The engine cooling fan, if belt driven The water pump, if belt driven The vacuum pump, if equipped The air compressor, if equipped

The drive belt system may use 1 belt or 2 belts. The drive belt is thin so that it can bend backwards and has several ribs to match the grooves in the pulleys. There also may be a V-belt style belt used to drive certain accessory drive components. The drive belts are made of different types of rubbers - chloroprene or EPDM - and have different layers or plys containing either fiber cloth or cords for reinforcement.

Both sides of the drive belt may be used to drive the different accessory drive components. When the back side of the drive belt is used to drive a pulley, the pulley is smooth.

The drive belt is pulled by the crankshaft balancer pulley across the accessory drive component pulleys. The spring loaded drive belt tensioner keeps constant tension on the drive belt to prevent the drive belt from slipping. The drive belt tensioner arm will move when loads are applied to the drive belt by the accessory drive components and the crankshaft.

The drive belt system may have an idler pulley, which is used to add wrap to the adjacent pulleys. Some systems use an idler pulley in place of an accessory drive component when the vehicle is not equipped with the accessory.

Scheme 55

Scheme 55: Engine Component Description

The Northstar V8 VIN Code A is a 4.6L (279 cu in) engine incorporating two intake and two exhaust valves per cylinder with individual cylinder head mounted camshafts with camshaft position actuators for intake and exhaust functions (DOHC). The cylinder bore diameter is 93 mm (3.43 in) and the piston stroke is 84 mm (3.31 in). The cylinders are arranged in two banks of four with a 90 degree included angle. The left, front, bank of cylinders are number 2-4-6-8 and the right, rear, bank cylinders are 1-3-5-7. Engine firing order is 1-2-7-3-4-5-6-8.

Crankcase

The cylinder block is constructed of aluminum alloy by the die casting method and is constructed of two sections, an upper and a lower crankcase, split at the crankshaft center line. The grey cast iron cylinder liners are cast with the upper crankcase. The upper and lower crankcase sections are held in alignment by four dowel pins. Once machined, the sections must be kept together as a set. Sealing between the crankcase halves consists of a silicone rubber seal and a bead of anaerobic sealant along each side. Since the lower crankcase contains the lower main bearings, this casting adds to the structural rigidity of the engine assembly. Both upper and lower crankcases incorporate oil drain back passages isolated from the crankcase. These passages provide a direct path from the cylinder heads to the oil pan in order to prevent the needless aeration of the oil through contact with the rotating components.

Crankshaft

The crankshaft is a forged steel design with five main bearings. Crankshaft thrust is taken by the number three main bearing. The position sensor, also known as the reluctor wheel, is integral with the crankshaft. The crankshaft is internally balanced and incorporates a one piece rear seal. A rolled fillet radius is incorporated on all bearing journals to improve fatigue strength.

Connecting Rods and Pistons

The connecting rods are forged steel and have full floating piston pins. These pins are slip fit in the bronze bushed rods and are retained in the piston by round wire retainers. The cast aluminum pistons use two low tension compression rings and one multi-piece oil ring. The top compression ring is nitrided steel. The second compression ring is coated cast iron. The oil ring is a three piece side seal type ring which incorporates a steel expander and two chrome plated steel rails. To provide a non-scuffing surface when the engine is new, the pistons are tin plated. The piston skirts are coated with a coating to provide reduced friction.

Camshaft Drive System

The four overhead camshafts are driven by three separate fine pitch chains. The primary drive chain connects the crankshaft with the intermediate shaft and sprocket located directly above the crankshaft behind the engine front cover. Each camshaft drive chain connects the intermediate sprocket with the camshaft position actuators on each intake and exhaust camshafts on the cylinder heads. Two camshaft drive chains are used; one for each cylinder head. Each of the chains incorporates a hydraulic tensioner to minimize chain noise and provide accurate valve action by keeping slack out of the chain and continuously adjusting for chain wear. This is accomplished by providing engine oil pressure to each tensioner forcing a nylon pad into mesh with the slack side of the chain. As the chain stretches from wear, a ratchet mechanism inside the tensioner prevents the nylon pad from retracting when the engine is turned off and engine oil pressure ceases.

Camshaft Position Actuator System

The camshaft position actuator system is an electronically controlled and hydraulically actuated system. The camshaft position actuator system enables the engine control module (ECM) to change camshaft timing of all four camshafts hydraulically while the engine is operating.

Two camshaft position actuator magnets, one for each camshaft position actuator oil control valve, are mounted to a camshaft position actuator housing on the front of each cylinder head. The ECM energizes the camshaft position actuator magnet in order to create a magnetic field. The magnetic field created by the camshaft position actuator magnet pulls, from the home position, the spring loaded spool valve in the center of the camshaft position actuator oil control valve. The camshaft position actuator oil control valve is incorporated into the fastener that bolts the camshaft position actuator to the camshaft. Alignment between the camshaft position actuator magnet and the camshaft position actuator oil control valve is crucial. An air gap must be maintained between both components.

Oil under pressure is supplied to the front camshaft bearing cap and flows through passages into the camshaft front journal. The camshaft front journal passages supply oil to the camshaft position actuator oil control valve. The camshaft position actuator oil control valve supplies oil to the camshaft position actuator. The camshaft position actuator oil control valve incorporates a return spring in order to return the internal spool valve to the home position.

The camshaft position actuator contains an inner rotor with vanes bolted to the camshaft and an outer housing incorporating the timing drive chain sprocket and camshaft position sensor trigger wheel. Internally the camshaft position actuator contains a spring loaded locking pin that prevents movement between the inner rotor and outer housing and keeps the camshaft position actuator in the home position. The locking pin releases when proper oil pressure reaches the camshaft position actuator. The exhaust camshaft position actuators also incorporates return springs in order to return the exhaust camshaft position actuators to the home position when the engine is turned off. Due to rotation direction of the intake camshaft position actuators return springs are not necessary.

Oil directed by the camshaft position actuator oil control valve's position is used to vary the advance or return of the camshaft position actuator's vanes from the home position.

Cylinder Heads

The cylinder heads are semi permanent mold cast aluminum with powdered metal valve seat inserts and valve guides. Two 36.2 mm (1.425 in) intake valves and two 29 mm (1.142 in) exhaust valves are actuated by roller finger followers pivoting on a stationary hydraulic lash adjuster (SHLA). Separate intake and exhaust camshafts are supported by five bearings machined into the cylinder head with camshaft thrust taken by the first bearing. The combustion chamber is roughly in the shape of a clover leaf with a nominal volume of 48.6 cc (2.965 cubic inch) and a centrally located spark plug.

Engine Cooling System

The coolant pump assembly is located on the engine front cover. The water outlet housing distributes coolant to the cylinder block and collects it from the cylinder head for delivery to the radiator.

Induction System

The induction manifold is a plastic, lost core casting with a removable plastic sight shield cover.

Right and Left Bank Designation

Right hand (RH) and Left hand (LH) designations through the engine mechanical On-Vehicle Service section are viewed from the rear of the engine.

New Product Information

The purpose of New Product Information is to highlight or indicate important changes from the previous model year.

Changes may include one or more of the following items

  1. Torque values and/or fastener tightening strategies
  2. Changed engine specifications
  3. New sealants and/or adhesives
  4. Disassembly and assembly procedure revisions
  5. Engine mechanical diagnostic procedure revisions
  6. New special tools required
  7. A component comparison from the previous year

Torque Values and/or Fastener Tightening Strategies

The engine mechanical fastener tightening specifications have changed for 2006.

  1. The engine flywheel bolts diameter and torque have increased.
  2. The oil pan bolt tightening procedure has been revised to a two pass sequence.
  3. The crankshaft balancer bolt tightening procedure has had the torque angle increased.
  4. Refer to «Fastener Tightening Specifications»(/cadillac/xlr/i-2003-2009/remont/mechanical/#engine-mechanical-46l-lh2-introduction__fastener-tightening-specifications) .

Changed Engine Specifications

There are no changes to the engine specifications for 2006.

New Sealants and/or Adhesives

There are no sealant and adhesive changes for 2006.

Disassembly and Assembly Procedure Revisions

  1. There are no disassembly procedure changes for 2006.
  2. The tightening of the oil pan bolts has been revised to a two pass sequence.

Engine Mechanical Diagnostic Procedure Revisions

There are no revisions to the engine mechanical diagnostic procedures for 2006.

New Special Tools Required

There are new special tools required for 2006.

  1. The crankshaft rear seal removal tool J 42841-A has been revised to fit both small or large engine flywheel bolt holes in the crankshaft.
  2. The crankshaft rear seal installation tool J 45930-A has been revised to fit both small or large engine flywheel bolt holes in the crankshaft.
  3. The valve retainer removing and installation tool J 43059 has been replaced by J-43059-A .
  4. The piston pin clip remover and installation tool J 43654 has been replaced by EN-46745 .

A Component Comparison from the Previous Year

There are component changes for 2006.

  1. The PCV hose now incorporates EVAP style connectors.
  2. The ignition coils are revised.
  3. The increase in engine flywheel bolt diameter affects the following components: Engine flywheel bolts Engine flywheel Crankshaft

Scheme 56

Scheme 56: Lubrication Description

The cast aluminum oil pan is used as a structural member of the powertrain by connecting the oil pan and the engine to the flywheel housing. The oil pan incorporates an oil baffle plate and seals to the lower crankcase with a gasket. The oil pan also provides mounting for an oil level sensor.

The oil sump pickup is fastened to the lower crankcase and oil manifold by a bolt and nut to one stud-headed main bearing bolt. A gasket seals this joint on the suction side of the oil system. The engine oil pump is a gerotor design mounted to the lower crankcase behind the engine front cover by 3 mounting bolts. Drive for the gerotor elements is provided by the clamp load of the harmonic dampener and bolt. As the pump rotates, oil is drawn from the sump through the sump pickup to a channel cast into the lower crankcase. The oil is then directed to the pump inlet cavity (12) on the lower crankcase front face. Oil compressed by the pump re-enters the lower crankcase distribution channel through the pump outlet cavity (11) opposite the inlet. A portion of the pump output is diverted via an internal passage to the oil pump inlet to provide a pressure seal at the crankcase interface.

The oil pump outlet channel in the lower crankcase routes the oil to the oil outlet tube for the camshaft position actuator system and the oil filter circuit connections on the, front/left, side of the lower crankcase.

The cast aluminum oil filter adapter is fastened to the crankcase with 3 bolts. The inlet and return (10) passages are sealed with a gasket. The adapter contains the oil pressure switch and a non-serviceable bypass valve. The oil filter bypass valve routes oil directly from the filter inlet to the filter outlet if the filter becomes plugged.

Filtered oil re-enters the crankcase distribution channels and is first directed to the main bearings (6-9). Cross drilled passages in the crankshaft in turn provide oil for the connecting rod bearings and provide splash oiling for the cylinder walls. The lower crankcase distribution channel also connects with passages in the upper crankcase to provide oil to the overhead camshafts and valve lifters. This passage (9), beside the number one bearing, also provides oil for the 3 hydraulic chain tensioners as well as lubrication for the camshaft drive intermediate shaft ultimately lubricating the camshaft chains via oil splash.

Designed into the upper crankcase behind the camshaft drive intermediate shaft is a chamber that feeds 2 passages in the upper crankcase. Each passage directs oil flow up to the cylinder block deck through the cylinder head gasket and into each cylinder head. The oil passage in each cylinder head that feeds the valve train system has a pressed-in restrictor. The orifice within the restrictor is 3 mm (0.1181 in). The restrictor ensures proper oil flow to the valve train and thereby ensures suitable oil flow from the oil pump to the camshaft position actuator system. After passing through the restrictor the oil enters a cross drilled passage that feeds the 2 valve train oil passages that rub the length of the cylinder head. Each valve train passages delivers oil to each set of exhaust and intake camshaft bearings along with the corresponding stationary hydraulic lifters (SHLAs).

Oil returns to the sump either through the camshaft chain area or by way of cast oil drain back passages on the outside walls of the cylinder heads, upper and lower crankcases and oil pan. The lubrication system also includes a baffle, attached by the main bearing bolts, and channels oil thrown from the crankshaft back into the oil sump.

Oil to operate the camshaft position actuator system is supplied by the oil outlet tube located under the timing chain drive system. The oil outlet tube is sealed to the front of the engine block next to the oil pump with an O-ring. Oil travels up through the tube and is filtered by an integral screen. Oil is distributed by the oil outlet tube to both sides of the engine block just below the engine block deck (5, 13). A chamber within the block directs oil up 2 passages through the engine block deck and into 2 passages in each cylinder head. Oil supplied to the front camshaft bearing cap groove (1-4) supplies oil to passages drilled into the front camshaft journal. Oil passes through the center of the camshaft and into the camshaft position actuator oil control valve. The spool valve within the camshaft position actuator oil control valve directs the oil in and out of the camshaft position actuator. The spool valve is actuated by a magnetic field created by the camshaft position actuator magnet. The camshaft position actuator magnet is mounted to the camshaft position actuator housing bolted onto the front of each cylinder head. Oil pressure applied to either side of the internal vanes of the camshaft position actuator allows the ECM to vary the valve timing between the exhaust and intake camshafts.

Cleanliness and Care

An automobile engine is a combination of many of the following surfaces

  1. Machined
  2. Honed
  3. Polished
  4. Lapped

The tolerances of these surfaces are measured in the ten-thousandths of an inch. When you service any internal engine part, cleanliness and care are important. Apply a liberal coating of engine oil to the friction areas during assembly in order to protect and lubricate the surfaces on initial operation. Throughout this section, practice proper cleaning and protection procedures to the machined surfaces and to the friction areas.

Note. Engine damage may result if an abrasive paper, pad, or motorized wire brush is used to clean any engine gasket surfaces.

Whenever you remove the valve train components, keep the components in order. Follow this procedure in order to install the components in the same locations and with the same mating surfaces as when removed.

CAUTIONRefer to Battery Disconnect Caution.

Disconnect the negative battery cables before you perform any major work on the engine.

Separating Parts

In addition to the room temperature vulcanizing (RTV) sealant's sealing capabilities, the RTV sealants may form an adhesive bond between the components. This may make the components difficult to remove or to separate. If possible, bump the components sideways rather than using prying tools in order to remove the components. This technique prevents damage when the bonding strength of the RTV sealant is stronger than the component itself. Perform bumping at the bends or at the reinforced areas in order to prevent part distortion.

Gasket Reuse and Applying Sealant

  1. Do not reuse any gasket unless specified.
  2. Gaskets that can be reused will be identified in the service procedure.
  3. Do not apply sealant to any gasket or sealing surface unless specified in the service procedure.

Separating Components

  1. Use a rubber mallet in order to separate the components.
  2. Bump the part sideways in order to loosen the components.
  3. Bumping of the component should be done at bends or reinforced areas of the component to prevent distortion of the components.

Cleaning Gasket Surfaces

  1. Use care to avoid gouging or scraping the sealing surfaces.
  2. Use a plastic or wood scraper in order to remove all the sealant from the components. Do not use any other method or technique to remove the sealant or the gasket material from a part.
  3. Do not use abrasive pads, sand paper, or power tools to clean the gasket surfaces. These methods of cleaning can cause damage to the component sealing surfaces. Abrasive pads also produce a fine grit that the oil filter cannot remove from the engine oil. This fine grit is an abrasive and can cause internal engine damage.

Assembling Components

  1. Assemble components using only the sealant (or equivalent) that is specified in the service procedure.
  2. Sealing surfaces must be clean and free of debris or oil.
  3. Specific components such as crankshaft oil seals or valve stem oil seals may require lubrication during assembly.
  4. Components requiring lubrication will be identified in the service procedure.
  5. Apply only the amount of sealant specified in the service procedure to a component.
  6. Do not allow the sealant to enter into any blind threaded holes, as the sealant may prevent the fastener from clamping properly or cause component damage when tightened.
  7. Tighten the fasteners to the proper specifications.

Sealant Types

IMPORTANTThe correct sealant and amount of sealant must be used in the proper location to prevent oil leaks, coolant leaks, or the loosening of the fasteners. DO NOT interchange the sealants. Use only the sealant, or equivalent, as specified in the service procedure.

The following 2 major types of sealant are commonly used in engines

  1. Anaerobic sealant room temperature vulcanizing (RTV)
  2. Anaerobic sealant, which include the following: Gasket eliminator Pipe Threadlock

Anaerobic Type Room Temperature Vulcanizing (RTV) Sealant

Anaerobic type room temperature vulcanizing (RTV) sealant cures in the absence of air. This type of sealant is used where 2 components, such as the intake manifold and the engine block, are assembled together.

Use the following information when using RTV sealant

  1. Do not use RTV sealant in areas where extreme temperatures are expected. These areas include: The exhaust manifold The head gasket Any other surfaces where a different type of sealant is specified in the service procedure
  2. Always follow all the safety recommendations and the directions that are on the RTV sealant container.
  3. Use a plastic or wood scraper in order to remove all the RTV sealant from the components.
  4. The surfaces to be sealed must be clean and dry.
  5. Use a RTV sealant bead size as specified in the service procedure.
  6. Apply the RTV sealant bead to the inside of any bolt holes areas.
  7. Assemble the components while the RTV sealant is still wet to the touch, within 3 minutes.
  8. Tighten the fasteners in sequence, if specified, and to the proper torque specifications.

Anaerobic Type Gasket Eliminator Sealant

Anaerobic type gasket eliminator sealant cures in the absence of air. This type of sealant is used where 2 rigid parts, such as castings, are assembled together. When 2 rigid parts are disassembled and no sealant or gasket is readily noticeable, then the 2 parts were probably assembled using an anaerobic type gasket eliminator sealant.

Use the following information when using gasket eliminator sealant

  1. Always follow all the safety recommendations and directions that are on the gasket eliminator sealant container.
  2. Apply a continuous bead of gasket eliminator sealant to one flange. The surfaces to be sealed must be clean and dry.

Note. Do not allow the sealant to enter a blind hole. The sealant may prevent the fastener from achieving proper clamp load, cause component damage when the fastener is tightened, or lead to component failure.

IMPORTANTGasket eliminator sealed joint fasteners that are partially torqued and the gasket eliminator sealant allowed to cure more than 5 minutes, may result in incorrect shimming and sealing of the joint. Do not overtighten the fasteners. Apply the gasket eliminator sealant evenly to get a uniform thickness of the gasket eliminator sealant on the sealing surface. Tighten the fasteners in sequence, if specified, and to the proper torque specifications. After properly tightening the fasteners, remove the excess gasket eliminator sealant from the outside of the joint.

Anaerobic Type Threadlock Sealant

Anaerobic type threadlock sealant cures in the absence of air. This type of sealant is used for threadlocking and sealing of bolts, fittings, nuts, and studs. This type of sealant cures only when confined between 2 close fitting metal surfaces.

Use the following information when using threadlock sealant

  1. Always follow all safety recommendations and directions that are on the threadlock sealant container.
  2. The threaded surfaces to be sealed must be clean and dry.
  3. Apply the threadlock sealant as specified on the threadlock sealant container.
  4. Tighten the fasteners in sequence, if specified, and to the proper torque specifications.

Anaerobic Type Pipe Sealant

Anaerobic type pipe sealant cures in the absence of air and remains pliable when cured. This type of sealant is used where 2 parts are assembled together and require a leak proof joint.

Use the following information when using pipe sealant

  1. Do not use pipe sealant in areas where extreme temperatures are expected. These areas include: The exhaust manifold The head gasket Surfaces where a different sealant is specified
  2. Always follow all the safety recommendations and the directions that are on the pipe sealant container.
  3. The surfaces to be sealed must be clean and dry.
  4. Use a pipe sealant bead of the size or quantity as specified in the service procedure.
  5. Apply the pipe sealant bead to the inside of any bolt hole areas.
  6. Apply a continuous bead of pipe sealant to one sealing surface.
  7. Tighten the fasteners in sequence, if specified, and to the proper torque specifications.

Tools and Equipment

  1. Special tools are listed and illustrated throughout this section, with a complete listing at the end of the section. These tools, or their equivalents, are designed to quickly and safely accomplish the operations for which they are intended. The use of these special tools also minimize possible damage to engine components. Some precision measuring tools are required for inspection of certain critical components. Torque wrenches and a torque angle meter are necessary for the proper tightening of various fasteners.
  2. To properly service the engine assembly, the following items should be readily available: Approved eye protection and safety gloves A clean, well-lit, work area A suitable component cleaning tank A compressed air supply Trays or storage containers to keep components and fasteners organized An adequate set of hand tools Approved engine repair stand An approved engine lifting device that adequately supports the weight of the components

Special Tools

Special Tools Illustration Tool Number/Description EN 46109 Guide Pin Set EN 46121 Connecting Rod Guide Pin Set EN 46326 Flywheel Holding Tool EN 46327 Timing Chain Retention Tool EN 46328 Camshaft Holding Tool EN 46745 Piston Pin Clip Remover/Installer EN 48072 Sealant Applicator J 7872 Magnetic Base Dial Indicator J 8001 Dial Indicator Set J 8037 Ring Compressor J 8062 Valve Spring Compressor - Head Off J 8087 Cylinder Bore Gage J 8358 Carbon Removal Brush J 21867 Pressure Gage J 22738-B Valve Spring Tester J 25033-C Pulley Installer J 25034-C Pulley Remover J 28410 Gasket Remover J 28428-E High Intensity Black Light Kit J 28467-B Universal Engine Support Fixture J 28467-81 Engine Support Fixture Kit J 28467-86 Engine Lift Bracket J 28467-87 Engine Lift Bracket J 35667-A Cylinder Head Leakdown Tester J 38185 Hose Clamp Pliers J 38416-2 Crankshaft Button J 38820 Valve Stem Seal Installer J 38821 Valve Spring Compressor Adapter J 39313 Spark Plug Port Adapter J 39946 Crankshaft Socket - 4.0L and 4.6L J 41816 Crankshaft Balancer Remover J 41998-B Crankshaft Balancer Installer J 42385-2000 Thread Insert Kit J 42385-2030 M11 x 2.0 Cylinder Head Bolt - Northstar/Premium V8 Thread Repair Kit J 42841-A Rear Oil Seal Remover J 42907 Oil Pressure Tester J 43059-A Valve Retainer Remover/Installer J 43690 Rod Bearing Clearance Checking Tool J 43690-100 Rod Bearing Clearance Checking Tool - Adapter Kit J 43965 Thread Repair Extension Kit J 44211 On-Vehicle Valve Spring Compressor J 45059 Angle Meter J 45299 Engine Preluber J 45930-A Crankshaft Rear Oil Seal Installer

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Scheme 57: Special Tools

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See also:
Diagnostic System Check - Vehicle
Strategy Based Diagnosis
Checking Aftermarket Accessories
Engine Compression Test
Oil Leak Diagnosis
Drive Belt Replacement
Engine Flywheel Replacement
Crankshaft Balancer Replacement
Diagnostic Starting Point - Engine Cooling
Spark Plug Inspection
Electronic Ignition (EI) System Diagnosis
Cylinder Leakage Test
Powertrain Removal and Installation
Cylinder Head Cleaning and Inspection
Engine Replacement
Water Outlet Housing Removal
Water Outlet Housing Cleaning and Inspection
Water Outlet Housing Installation
Spark Plug Replacement
Oil Pump Disassemble
Oil Pump Cleaning and Inspection
Oil Pump Outlet Tube Removal
Oil Pump Outlet Tube Installation
Crankshaft and Bearing Cleaning and Inspection
Piston, Connecting Rod, and Bearing Installation
Engine Block Assemble - Upper
Cylinder Head Assemble
Valve Lifters Cleaning and Inspection
Engine Oil Pressure Sensor and/or Switch Replacement
Belt Dressing Notice
Vibration Analysis - Engine
Disassembled Views
Drive Belt System Description
New Product Information
Base Engine Misfire without Internal Engine Noises
Base Engine Misfire with Abnormal Internal Lower Engine Noises
Base Engine Misfire with Abnormal Valve Train Noise
Base Engine Misfire with Coolant Consumption
Base Engine Misfire with Excessive Oil Consumption
Engine Noise on Start-Up, but Only Lasting a Few Seconds
Upper Engine Noise, Regardless of Engine Speed
Lower Engine Noise, Regardless of Engine Speed
Engine Noise Under Load
Engine Will Not Crank - Crankshaft Will Not Rotate
Oil Consumption Diagnosis
Oil Pressure Diagnosis and Testing
Special Tools
Engine Mechanical Specifications
Fastener Tightening Specifications
Drive Belt Tensioner Diagnosis