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slave cylinder pushrod is too short for 1999 saturn sl

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1999 Saturn SL1 L4-1.9L SOHC VIN 8 Engine – Driveability Concerns/ Cooling System DTC’s Set

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1. Disconnect engine coolant temperature sensor electrical connector and inspect sensor and connector terminals for corrosion and/or evidence of engine coolant. ^If terminals are corroded or if there is evidence of engine coolant proceed to step 4. ^If terminals are not corroded and there is no evidence of engine coolant, reconnect the electrical connector and continue to next step. 2. Perform one or both of the following checks to determine whether the engine coolant temperature sensor is providing the correct temperature indication. If engine coolant temperature sensor reading does not pass either of the above tests, continue with next step. ^If engine is at ambient temperature (vehicle has been sitting overnight or not started for several hours), use a Scan tool to compare the inlet air temperature ( IAT ) to the engine coolant temperature ( ECT ). These two readings should be within 2°C (4°F) of each other. ^If engine is at operating temperature, install a thermometer in the coolant recovery reservoir. With the engine running and A/C off, use a Scan tool to compare the engine coolant temperature sensor reading to the thermometer reading. These two readings should be within 8°C (15°F) of each other If engine coolant temperature sensor reading passes both of the tests above, refer to appropriate symptom diagnostic chart in the Engine/Emissions Controls Section of applicable Engine Service Manual. 3. Turn ignition off. 4Remove coolant surge tank cap. 5. Drain at least 1.9 L (2 Qt.) of engine coolant from the cooling system by opening radiator drain valve or removing engine drain plug. Collect engine coolant in a container. 6. Disconnect engine coolant temperature sensor electrical connector. 7. Remove engine coolant temperature sensor from cylinder head. 8. Obtain replacement engine coolant temperature sensor (P/N 21025106). 9. Use appropriate tap to clean sensor mounting hole of any thread sealant residue. 10. Install engine coolant temperature sensor in cylinder head. Torque: Engine Coolant Temperature Sensor: 8 Nm (71 in-lbs) 11. Inspect harness connector terminals for corrosion and/or evidence of engine coolant. If harness connector terminals are corroded or there is evidence of engine coolant, the harness connector must be replaced with new connector (P/N 12117087-includes: connector, terminals, wires, and splice sleeves). 12. Connect engine coolant temperature sensor connector. 13. Transfer engine coolant drained in step 5 into coolant surge tank. If necessary fill coolant surge tank to the FULL COLD range with 50/50 solution of correct type of antifreeze and clean water. 14. Start engine and check for leaks. 15. Run engine until upper radiator hose is hot, then add additional coolant if needed to bring the level to the FULL COLD level (1991-early 1997) or within the Min./Max. cold range (late l997-2001). 16. Install coolant surge tank cap.

1999 Ford Escort/ Tracer Cylinder Head Removal And Installation Manual

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Removal 1. Disconnect the battery ground cable (14301). For additional information, refer to Section 414-01 . 2. WARNING: Fuel supply lines will remain pressurized for long periods of time after engine shut down. This pressure must be relieved before disconnecting any fuel lines or fuel system components. Relieve the fuel system pressure. For additional information, refer to Section 310-00 . 3. Remove the engine air cleaner outlet tube. For additional information, refer to Section 303-03 . 4. Remove the timing belt. For additional information, refer to Timing Drive Components—Timing Belt in this section. 5. Remove the vacuum hoses at the: * positive crankcase ventilation (PCV) valve (6A666). * throttle body (9E926). * intake manifold (9424). * fuel pressure sensor. 6. Disconnect the fuel charging wiring (9D930) electrical connectors at main engine connector. 7. Disconnect the crankshaft position (CKP) sensor electrical connector. 8. Disconnect the fuel line. For additional information, refer to Section 303-04 . 9. Remove the power steering pump (3A674) and bracket as an assembly. For additional information, refer to Section 211-02 . 10. Remove the generator (GEN). For additional information, refer to Section 414-02 . 11. Remove the oil level indicator tube (6754). For additional information, refer to Oil Level Indicator and Tube in this section. 12. Disconnect the heater hoses. For additional information, refer to Section 412-02 . 13. Lower the vehicle. 14. Disconnect the upper radiator hose (8260) from the thermostat housing water hose connection. For additional information, refer to Section 303-03 . 15. Remove the camshafts (6250). For additional information, refer to Camshaft in this section. 16. Remove the ignition coil (12029) and bracket. For additional information, refer to Section 303-07 . 17. Remove the water thermostat housing. For additional information, refer to Section 303-03 . 18. Disconnect the knock sensor electrical connector. 19. Remove the generator bracket-to-cylinder head bolt. 20. Remove the bolts and the cylinder head (6049). 21. Remove the cylinder head gasket and discard. Installation WARNING: Do not smoke or carry lighted tobacco or open flame of any type when working on or near any fuel related components. Highly flammable mixtures are always present and may be ignited, resulting in possible personal injury. 1. CAUTION: Do not use abrasive grinding discs to remove gasket material; use only plastic manual scrapers. Do not scratch or gouge the aluminum sealing surfaces. Clean all gasket material from the mating surfaces on the cylinder head and cylinder block. Clean out the bolt holes in the cylinder block. Inspect the cylinder head for flatness. For additional information, refer to Section 303-00 . 2. Install a new head gasket on the cylinder block. 3. CAUTION: Do not attempt to install the cylinder head assembly without assistance. Installation of the cylinder head assembly requires two people or possible injury may occur. CAUTION: The bolts are torque-to-yield and must be replaced or engine damage may occur. Tighten the bolts in three stages in the sequence shown. * Stage 1: Tighten the bolts to 15-25 Nm (12-18 lb-ft). * Stage 2: Tighten the bolts to 35-45 Nm (26-33 lb-ft). * Stage 3: Tighten the bolts an additional 105 degrees. 4. Install the generator bracket-to-cylinder head bolt. * Tighten to 20 Nm (15 lb-ft). 5. Connect the knock sensor electrical connector. 6. Install the thermostat housing. For additional information, refer to Section 303-03 . 7. Install the ignition coil and bracket. For additional information, refer to Section 303-07 . 8. Install the camshafts. For additional information, refer to Camshaft in this section. 9. Connect the upper radiator hose. For additional information, refer to Section 303-03 . 10. Raise and support the vehicle. For additional information, refer to Section 100-02 . 11. Install the heater hoses. For additional information, refer to Section 412-02 . 12. Install the generator and bracket assembly. For additional information, refer to Section 414-02 . 13. Install the power steering pump and bracket assembly. For additional information, refer to Section 211-02 . 14. Connect the fuel lines. For additional information, refer to Section 310-00 . 15. Connect the crankshaft sensor electrical connector.

Chevrolet Aluminum Cylinder Heads INSTALLATION INSTRUCTIONS

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Before final installation of the cylinder heads, several things need to be checked to assure proper engine operation: 1. Piston to valve clearance – Minimum intake valve clearance should be .080″. Minimum exhaust valve clearance should be .100″. The point of minimum intake valve to piston clearance will usually occur somewhere between 5 and 15º ATDC during valve overlap. The point of minimum exhaust valve to piston clearance will usually occur 15º to 5º BTDC during valve overlap. Re-machining of the piston top eyebrows may be required with some pistons. 2. Proper lifter adjustment and rocker geometry – Check Lifter pre-load. Check clearance of push rod to guideplate. Rocker geometry should be checked making sure that the contact point of the roller remains properly on the valve tip and does not roll off the edge. Visual inspection of the rockers, valve springs, retainers, and pushrods should be made to ensure that none of these components come into improper contact with each other. If problems with valve train geometry occur, simple changes such as pushrod length may have to be made. OTHER ASSEMBLY TIPS When installing the sparkplugs and exhaust headers, be sure to use a high temperature anti-seize compound on the threads to reduce the possibility of thread damage in the future. Do not exceed a torque of 25 ft./lbs. on the intake manifold bolts and lubricate the bolt threads prior to assembly. If pushrod to cylinder head contact is a problem, loosen rocker studs and re-position guideplate as needed for clearance. INSTALLATION: Installation is the same as for original equipment cylinder heads. Consult service manual for specific procedures, if necessary. For 350 and smaller engines, use Fel-Pro head gasket #1003. #1003 has a flattened steel O-ring around each bore and will provide an excellent, long lasting seal. However, it will compress the aluminum and you must use #1003 for subsequent gasket changes to get a good seal. For 400 c.i.d. small blocks, use Fel-Pro #1014. YOU MUST DRILL “STEAM HOLES” IN CYLINDER HEADS FOR 400 ENGINES (see Figure 2). Be sure that the surface of the block and the surface of the head are thoroughly cleaned to remove any oily film before installation. Use alcohol or lacquer thinner on a lint-free rag to clean. Apply Loctite PST or suitable thread sealer to head bolt threads. Torque to 65 ft./lbs. in three steps (30-50-65) following the factory tightening sequence (see Figure 1). A re-torque is recommended after initial start-up and cool-down (allow 2-3 hours for adequate cooling)

1999 Honda Civic EX TORQUE SPECIFICATIONS

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TORQUE SPECIFICATIONS Application Ft. Lbs. (N.m) A/C Compressor Bracket-To-Engine Bolts 33 (45) A/C Compressor-To-Bracket Bolts 18 (24) A/C Idler Pulley Bracket Bolts 8-mm 18 (24) A/C Idler Pulley Center Nut 33 (45) Battery Tray 18 (24) Camshaft Holder Bolts DOHC 8-mm Bolts 20 (27) SOHC 8-mm Bolts 15 (20) Camshaft Pulley Bolt DOHC 41 (56) SOHC 27 (37) Catalytic Converter Flange Nuts 25 (34) Clutch Slave Cylinder Line/Hose Bracket 8-mm Bolts 18 (24) Clutch Slave Cylinder Mounting 8-mm Bolts 18 (24) Connecting Rod Bearing Cap Nuts DOHC 30 (40) SOHC 23 (31) Crankshaft Pulley Bolt DOHC 130 (177) SOHC (1) Cylinder Head Bolts DOHC First Step (Bolts 1-10) 22 (29) Second Step 61 (83) SOHC First Step (Bolts 1-10) 15 (20) Second Step (Bolts 1-10) 36 (49) Thrid Step (Bolts 1-10) 49 (67) Forth Step (Bolts 1 & 2) 49 (67) Distributor Mount Bolt 18 (24) Drive Plate Bolts (A/T Or CVT) 54 (74) EGR Valve Nuts 15 (20) Engine Coolant Drain Plug 58 (79) Engine Mounts (2) Transaxle Mount 10-mm Bolts 12-mm Bolts/Nuts 47 (64) 12-mm Through-Bolt 54 (74) Side Engine Mount 10-mm Nuts/Bolts 40 (54) Engine Upper Mount Bracket 74 (54) Rear Mount Bracket 12-mm Bolts 43 (59) 14-mm Bolts 61 (83) Left Front Mount 10-mm Bolts 33 (44) 12-mm Bolts 43 (59) Right Front Mount 10-mm Bolts 33 (44) 12-mm Bolts 47 (64) Engine Oil Drain Plug 33 (45) Engine Front & Rear Stiffeners 8-mm Bolts 18 (24) 10-mm Bolts 33 (44) 12-mm Bolts 42 (57) Exhaust Manifold Bracket Bolt 8-mm 18 (24) 10-mm 33 (45) Exhaust Manifold Cover 8-mm Bolts 18 (24) Exhaust Manifold-To-Cylinder Head Nuts (3) 23 (31) Exhaust Pipe Bracket 8-mm Nuts (3) 12 (16) Exhaust Pipe Flange 8-mm Bolts (3) 16 (22) Exhaust Pipe-To-Manifold/TWC (3) D16Y5 & D16Y7 Engines 25 (33) D16Y8 & B16A2 Engines 40 (54) Flywheel Bolts (M/T) 87 (118) Fuel Filter Banjo Bolt 25 (34) Generator Adjustment Lock Bolt 18 (24) Generator Bracket-To-Engine Bolts 33 (45) Heated Oxygen Sensor (HO2S) 33 (45) Inspection Hole Sealing Bolt (VTEC) 15 (20) Intake Air Control (IAC) Valve Bolts D16Y5 Engine 16 (22) D16Y8 Engine 18 (24) Idler Pulley Bracket Bolt DOHC

TOYOTA G52, G54, W56 & G58 (AX5) 5 SPEED TRANS. TO CHEVY AND BUICK ENGINES INSTALLATION INSTRUCTIONS:

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This bellhousing is not compatible with transmissions that were previously equipped with diesel engines. The bellhousing design incorporates a special modified clutch release lever and a Toyota Land Cruiser slave cylinder. We have provided slave cylinder mounting on the passenger side of the bellhousing and have incorporated a new push rod location that will provide a quick short travel of the clutch release mechanism. The kit does not include the Toyota Land Cruiser slave cylinder, Part No. 31470-60022. The bellhousing is designed for the 153 tooth flywheel application. If your block is equipped with a 168 tooth flywheel, you will be required to use a high torque starter without a nose cone to fit the bellhousing (P/N 22-0001). The bellhousing is compatible with the Buick flywheel that has 160 teeth. A slight modification may be required in the starter pocket area when using the Buick installation. The inside of the bellhousing uses a high profile Centerforce diaphragm clutch assembly. By using this pressure plate, you can be sure that the slave cylinder travel will be appropriate for obtaining a maximum clutch release. The release bearing, Part No. N1430, is a standard flat faced Chevy release bearing. The bearing must not have continual contact with the fingers of the clutch. Adjust the length of your push rod for clearance between the fingers and the face of bearing. In order to adjust the height of the release bearing, we recommend that you install the new bellhousing over the clutch assembly and onto the engine prior to assembling the transmission to the bellhousing. By doing this procedure, you will be able to install the clutch release lever, slave cylinder, slave cylinder push rod, and release bearing directly to the clutch assembly. The reason this is necessary is that there are variations as to the thickness of the flywheel which either raise or lower the fingers of the clutch as related to the release bearing. The push rod of the slave cylinder can be adjusted, to obtain the necessary clearance between the release bearing and clutch fingers. If the bearing is permitted continual contact on the fingers, then you will have premature release bearing failure. We do not furnish a rubber boot for the area between the bellhousing and clutch arm since it is too restrictive for the clutch arm movement. We believe that the location of the opening is such that any dust or other debris will have a hard time accessing the opening. If you anticipate water hazards, we would recommend a small rubber flapper that could be screwed to the outside of the bellhousing.