GENERAL SPECIFICATIONS
| Item | Specification |
|---|---|
| Lubricants and Sealants | |
| Motorcraft SAE 5W-20 Premium Synthetic Blend Motor Oil XO-5W20-QSP (US); Motorcraft SAE 5W-20 Super Premium Motor Oil CXO-5W20-LSP12 (Canada); or equivalent | WSS-M2C930-A |
| Gasoline Engine Oil Dye 164-R3705 | |
| Threadlock 262 TA-26 | WSK-M2G351-A6 |
GENERAL SPECIFICATIONS
| CAUTION | When repairing engines, all parts must be contamination free. If contamination/foreign material is present when repairing an engine, premature engine failure can occur. |
Note. Specifications show the expected minimum or maximum condition. Refer to the appropriate engine article for the procedure.
Note. If a component fails to meet the specifications, it is necessary to refinish it or install a new component. Wear limits are provided as an aid to determine if the component can be refinished. A new component must be installed when any component fails to meet specifications and cannot be refinished.
Note. This section contains information, steps and procedures that may not be specific to your engine.
This section covers general procedures and diagnosis and testing of the engine system, except for exhaust emission control devices, which are covered in the INTRODUCTION - GASOLINE article .
The engine incorporates the following features: Refer to the appropriate engine article for the procedure.
- Crankcase ventilation or breather system
- Exhaust emission control system
- Evaporative emission control system
Some engines incorporate a fail-safe cooling system. Refer to the appropriate engine article for the procedure.
The engine, fuel system, ignition system, emissions system and exhaust system all affect exhaust emission levels and must be maintained according to the maintenance schedule. Refer to the scheduled Maintenance Guide.
Correct engine identification is required to order parts. Refer to the appropriate engine article for the procedure.
For complete vehicle and engine identification codes, refer to IDENTIFICATION CODES .
Special Tool(s)
SPECIAL TOOL SPECIFICATION Quick Disconnect Compression Tester 134-R0212 or equivalent Dial Indicator Gauge with Holding Fixture 100-002 (TOOL-4201-C) or equivalent Engine Cylinder Leak Detection/Air Pressurization Kit 014-00708 or equivalent Oil Pressure Gauge 303-088 (T73L-6600-A) 12 Volt Master UV Diagnostic Inspection Kit 164-R0756 or equivalent (Leak Detector) Vacuum/Pressure Tester 164-R0253 or equivalent
Scheme 279
Scheme 280
Scheme 281
Scheme 282
Inspection and Verification
- Verify the customer concern by operating the engine to duplicate the condition.
- Visually inspect for obvious signs of mechanical damage. Refer to the following chart. VISUAL INSPECTION CHART Mechanical Engine coolant leaks Engine oil leaks Fuel leaks Damaged or severely worn parts Loose mounting bolts, studs and nuts
- If the inspection reveals obvious concerns that can be readily identified, repair as necessary.
- If the concerns remain after the inspection, determine the symptoms. GO to «SYMPTOM CHART»(/ford/five-hundred/i-2004-2007/remont/mechanical/#engine-system-general-information__symptom-chart) .
Symptom Chart
| Condition | Possible Sources | Action |
|---|---|---|
| Difficult starting | Inoperative or damaged ignition system Air or vacuum leak Inoperative or damaged fuel system Inoperative or damaged starting system | Refer to the appropriate engine article for the procedure. REFER to the INTRODUCTION - GASOLINE article . |
| Damaged charging system/battery | REFER to CHARGING SYSTEM - GENERAL INFORMATION . | |
| Burnt valve | INSTALL a new cylinder head. | |
| Worn piston Worn piston rings Worn cylinder | INSTALL a new short block. | |
| Damaged head gasket | INSTALL a new cylinder head gasket. | |
| Inoperative or damaged cooling system (fail-safe cooling invoked) | Refer to the appropriate engine article for the procedure. REFER to the INTRODUCTION - GASOLINE article . | |
| Poor idling | Vacuum leaks Inoperative or damaged exhaust gas recirculation (EGR) system | Refer to the appropriate engine article for the procedure. REFER to the INTRODUCTION - GASOLINE article . |
| Inoperative or damaged ignition system | Refer to the appropriate engine article for the procedure. | |
| Inoperative or damaged cooling system (fail-safe cooling invoked) Inoperative or damaged fuel system | Refer to the appropriate engine article for the procedure. REFER to the INTRODUCTION - GASOLINE article . | |
| Incorrect valve clearance | ADJUST valve clearance. Refer to the appropriate engine article for the procedure. | |
| Incorrect valve-to-valve seat contact | INSTALL a new cylinder head. | |
| Damaged head gasket | INSTALL a new cylinder head gasket. | |
| Abnormal combustion | Inoperative or damaged fuel system Air or vacuum leaks EGR system fault Inoperative or damaged cooling system (fail-safe cooling invoked) Inoperative or damaged ignition system | Refer to the appropriate engine article for the procedure. REFER to INTRODUCTION - GASOLINE . |
| Burnt or sticking valve | INSTALL a new cylinder head. | |
| Weak or broken valve spring | INSTALL a new valve spring. | |
| Carbon accumulation in combustion chamber | ELIMINATE carbon buildup | |
| Excessive oil consumption | Leaking oil | REPAIR oil leakage. |
| Inoperative PCV system | REPAIR or INSTALL new components as necessary. | |
| Incorrect oil | CHANGE oil to correct specification. | |
| Worn valve stem seal | INSTALL a new valve stem seal. | |
| Worn valve stem or valve guide | INSTALL a new cylinder head. | |
| Sticking piston rings Worn piston ring groove Worn piston or cylinder | INSTALL a new short block. | |
| Engine noise | Leaking exhaust system | REPAIR exhaust leakage. |
| Incorrect drive belt tension | Refer to the appropriate engine article for the procedure. | |
| Worn generator bearing | Refer to GENERATOR AND REGULATOR for the procedure. | |
| Worn or damaged coolant pump bearing Inoperative or damaged cooling system | REFER to ENGINE COOLING . | |
| Inoperative or damaged fuel system Ignition system knock (spark knock) Inoperative or damaged EGR system Air leaks | Refer to the appropriate engine article for the procedure. REFER to the INTRODUCTION - GASOLINE article . | |
| Loose timing chain | INSTALL a new timing chain. | |
| Damaged timing chain tensioner | INSTALL a new timing chain tensioner. | |
| Excessive main bearing clearance Seized or heat damaged crankshaft main bearing Excessive crankshaft end play Excessive connecting rod bearing clearance Heat damaged connecting rod bearing Damaged connecting rod bushing Worn cylinder Worn piston or piston pin Damaged piston rings Bent connecting rod | INSTALL a new short block. | |
| Worn or damaged valve tappet | INSTALL a new valve tappet. | |
| Excessive valve tappet clearance | ADJUST clearance or INSTALL a new valve tappet. | |
| Broken valve spring | INSTALL a new valve spring. | |
| Excessive valve guide clearance | INSTALL a new cylinder head assembly. | |
| Insufficient power | Inoperative or damaged ignition system Air intake system blockage Lubrication system blockage Electronic throttle control (ETC) system concerns | Refer to the appropriate engine article for the procedure. REFER to the INTRODUCTION - GASOLINE article . |
| Inoperative or damaged fuel system | Refer to the appropriate engine article for the procedure. REFER to the INTRODUCTION - GASOLINE article . | |
| Plugged or damaged fuel filter Oil level too high | INSTALL a new fuel filter. REFER to FUEL TANK & LINES . DRAIN oil to correct level. | |
| Incorrect engine oil | INSTALL correct specification engine oil. | |
| Excessive accessory drive belt loading Inoperative or damaged cooling system (fail-safe cooling invoked) | Refer to the appropriate engine article for the procedure. REFER to the INTRODUCTION - GASOLINE article . | |
| Damaged or plugged exhaust system | INSPECT exhaust system. | |
| Incorrect tire size | REFER to SUSPENSION SYSTEM-GENERAL INFORMATION . | |
| Dragging brakes | REFER to BRAKE SYSTEM-GENERAL INFORMATION . | |
| Slipping transmission | Refer to the appropriate transmission article for the procedure. | |
| Incorrect valve clearance | ADJUST valve clearance. Refer to the appropriate engine article for the procedure. | |
| Worn or damaged valve tappet | INSTALL a new valve tappet. | |
| Damaged valve tappet guide Compression leakage at valve seat Seized valve stem | INSTALL a new cylinder head assembly. | |
| Weak or broken valve spring | INSTALL a new valve spring. | |
| Worn or damaged cam | INSTALL a new camshaft. | |
| Damaged head gasket | INSTALL a new head gasket. | |
| Cracked or distorted cylinder head | INSTALL a new cylinder head assembly. | |
| Damaged, worn or sticking piston ring(s) Worn or damaged piston | INSTALL a new short block. |
SYMPTOM
Engine Oil Leaks
Note. When diagnosing engine oil leaks, the source and location of the leak must be positively identified prior to repair.
Prior to carrying out this procedure, clean the cylinder block, cylinder heads, valve covers, oil pan and flywheel with a suitable solvent to remove all traces of oil.
Engine Oil Leaks - Fluorescent Oil Additive Method
Use the 12 Volt Master UV Diagnostic Inspection Kit to carry out the following procedure for oil leak diagnosis.
- Clean the engine with a suitable solvent to remove all traces of oil.
- Add Gasoline Engine Oil Dye 164-R3705 to the engine oil. Use a minimum 14.8 ml (0.5 ounce) to a maximum 40 ml (1.35 ounce) of fluorescent additive to all engines.
- Run the engine for 15 minutes. Stop the engine and inspect all seal and gasket areas for leaks using the 12 Volt Master UV Diagnostic Inspection Kit. A clear bright yellow or orange area will identify the leak. For extremely small leaks, several hours may be necessary for the leak to appear.
Leakage Points - Underhood
Examine the following areas for oil leakage
- Valve cover gaskets
- Cylinder head gaskets
- Oil cooler, if equipped
- Engine front cover
- Oil filter adapter and filter body
- Oil level indicator tube connection
- Oil pressure sensor
Leakage Points - Under Engine, With Vehicle on Hoist
Examine the following areas for oil leakage
- Oil pan gaskets
- Oil pan sealer
- Engine front cover gasket
- Crankshaft front seal
- Crankshaft rear oil seal
- Oil filter adapter and filter body
- Oil cooler, if equipped
Leakage Points - With Transmission and Flywheel Removed
Examine the following areas for oil leakage
- Crankshaft rear oil seal
- Rear main bearing cap parting line
- Flexplate mounting bolt holes (with flexplate installed)
- Pipe plugs at the end of oil passages
Oil leaks at crimped seams in sheet metal parts and cracks in cast or stamped parts can be detected when using the dye method.
Compression Test - Compression Gauge Check
- Make sure the oil in the crankcase is of the correct viscosity and at the correct level and that the battery is correctly charged. Operate the vehicle until the engine is at normal operating temperature. Turn the ignition switch to the OFF position, then remove all the spark plugs.
- Set the throttle plates in the wide-open position.
- Install a compression gauge such as the Compression Tester in the No. 1 cylinder.
- Install an auxiliary starter switch in the starting circuit. With the ignition switch in the OFF position, and using the auxiliary starter switch, crank the engine a minimum of 5 compression strokes and record the highest reading. Note the approximate number of compression strokes necessary to obtain the highest reading.
- Repeat the test on each cylinder, cranking the engine approximately the same number of compression strokes.
Compression Test - Test Results
The indicated compression pressures are considered within specification if the lowest reading cylinder is at least 75 percent of the highest reading. For additional information, refer to the COMPRESSION PRESSURE LIMIT CHART .
Compression Pressure Limit Chart
| Maximum Pressure | Minimum Pressure | Maximum Pressure | Minimum Pressure | Maximum Pressure | Minimum Pressure | Maximum Pressure | Minimum Pressure |
|---|---|---|---|---|---|---|---|
| 924 kPa (134 psi) | 696 kPa (101 psi) | 1,131 kPa (164 psi) | 848 kPa (123 psi) | 1,338 kPa (194 psi) | 1,000 kPa (146 psi) | 1,544 kPa (224 psi) | 1,158 kPa (168 psi) |
| 938 kPa (136 psi) | 703 kPa (102 psi) | 1,145 kPa (166 psi) | 855 kPa (124 psi) | 1,351 kPa (196 psi) | 1,014 kPa (147 psi) | 1,558 kPa (226 psi) | 1,165 kPa (169 psi) |
| 952 kPa (138 psi) | 717 kPa (104 psi) | 1,158 kPa (168 psi) | 869 kPa (126 psi) | 1,365 kPa (198 psi) | 1,020 kPa (148 psi) | 1,572 kPa (228 psi) | 1,179 kPa (171 psi) |
| 965 kPa (140 psi) | 724 kPa (106 psi) | 1,172 kPa (170 psi) | 876 kPa (127 psi) | 1,379 kPa (200 psi) | 1,034 kPa (150 psi) | 1,586 kPa (230 psi) | 1,186 kPa (172 psi) |
| 979 kPa (142 psi) | 738 kPa (107 psi) | 1,186 kPa (172 psi) | 889 kPa (129 psi) | 1,303 kPa (202 psi) | 1,041 kPa (151 psi) | 1,600 kPa (232 psi) | 1,200 kPa (174 psi) |
| 933 kPa (144 psi) | 745 kPa (109 psi) | 1,200 kPa (174 psi) | 903 kPa (131 psi) | 1,407 kPa (204 psi) | 1,055 kPa (153 psi) | 1,055 kPa (153 psi) | 1,207 kPa (175 psi) |
| 1,007 kPa (146 psi) | 758 kPa (110 psi) | 1,214 kPa (176 psi) | 910 kPa (132 psi) | 1,420 kPa (206 psi) | 1,062 kPa (154 psi) | 1,627 kPa (154 psi) | 1,220 kPa (177 psi) |
| 1,020 kPa (148 psi) | 765 kPa (111 psi) | 1,227 kPa (178 psi) | 917 kPa (133 psi) | 1,434 kPa (208 psi) | 1,075 kPa (156 psi) | 1,641 kPa (238 psi) | 1,227 kPa (178 psi) |
| 1,034 kPa (150 psi) | 779 kPa (113 psi) | 1,241 kPa (180 psi) | 931 kPa (135 psi) | 1,448 kPa (210 psi) | 1,083 kPa (157 psi) | 1,655 kPa (240 psi) | 1,241 kPa (180 psi) |
| 1,048 kPa (152 psi) | 786 kPa (114 psi) | 1,255 kPa (182 psi) | 936 kPa (136 psi) | 1,462 kPa (212 psi) | 1,089 kPa (158 psi) | 1,669 kPa (242 psi) | 1,248 kPa (181 psi) |
| 1,062 kPa (154 psi) | 793 kPa (115 psi) | 1,269 kPa (184 psi) | 952 kPa (138 psi) | 1,476 kPa (214 psi) | 1,103 kPa (160 psi) | 1,682 kPa (244 psi) | 1,262 kPa (183 psi) |
| 1,076 kPa (156 psi) | 807 kPa (117 psi) | 1,282 kPa (186 psi) | 965 kPa (140 psi) | 1,489 kPa (216 psi) | 1,117 kPa (162 psi) | 1,696 kPa (246 psi) | 1,269 kPa (184 psi) |
| 1,089 kPa (158 psi) | 814 kPa (118 psi) | 1,296 kPa (188 psi) | 972 kPa (141 psi) | 1,503 kPa (218 psi) | 1,124 kPa (163 psi) | 1,710 kPa (248 psi) | 1,202 kPa (186 psi) |
| 1,103 kPa (160 psi) | 827 kPa (120 psi) | 1,310 kPa (190 psi) | 979 kPa (142 psi) | 1,517 kPa (220 psi) | 1,138 kPa (165 psi) | 1,724 kPa (250 psi) | 1,289 kPa (187 psi) |
| 1,110 kPa (161 psi) | 834 kPa (121 psi) | 1,324 kPa (192 psi) | 993 kPa (144 psi) | 1,631 kPa (222 psi) | 1,145 kPa (166 psi) |
COMPRESSION PRESSURE LIMIT CHART
If one or more cylinders reads low, squirt approximately one tablespoon of engine oil meeting Ford specification on top of the pistons in the low-reading cylinders. Repeat the compression pressure check on these cylinders.
Compression Test - Interpreting Compression Readings
- If compression improves considerably, piston rings are worn or damaged.
- If compression does not improve, valves are sticking or not seating correctly.
- If 2 adjacent cylinders indicate low compression pressures and squirting oil on each piston does not increase compression, the head gasket may be leaking between cylinders. Engine oil or coolant in cylinders could result from this condition. Use the Compression Pressure Limit Chart when checking cylinder compression so that the lowest reading is within 75 percent of the highest reading.
Cylinder Leakage Detection
When a cylinder produces a low reading, use of the Engine Cylinder Leak Detection/Air Pressurization Kit will be helpful in pinpointing the exact cause.
The leakage detector is inserted in the spark plug hole, the piston is brought up to top dead center on the compression stroke, and compressed air is admitted.
Once the combustion chamber is pressurized, a special gauge included in the kit will read the percentage of leakage. Leakage exceeding 20 percent is excessive.
While the air pressure is retained in the cylinder, listen for the hiss of escaping air. A leak at the intake valve will be heard in the throttle body. A leak at the exhaust valve can be heard at the tailpipe. Leakage past the piston rings will be audible at the positive crankcase ventilation (PCV) connection. If air is passing through a blown head gasket to an adjacent cylinder, the noise will be evident at the spark plug hole of the cylinder into which the air is leaking. Cracks in the cylinder block or gasket leakage into the cooling system may be detected by a stream of bubbles in the radiator.
Intake Manifold Vacuum Test
Bring the engine to normal operating temperature. Connect the Vacuum/Pressure Tester to the intake manifold. Run the engine at the specified idle speed.
The vacuum gauge should read between 51-74 kPa (15-22 in-Hg) depending upon the engine condition and the altitude at which the test is conducted. Subtract 4.0193 kPa (1 in-Hg) from the specified reading for every 304.8 m (1,000 feet) of elevation above sea level.
The reading should be steady. If necessary, adjust the gauge damper control (where used) if the needle is fluttering rapidly. Adjust the damper until the needle moves easily without excessive flutter.
Intake Manifold Vacuum Test - Interpreting Vacuum Gauge Readings
A careful study of the vacuum gauge reading while the engine is idling will help pinpoint trouble areas. Always conduct other appropriate tests before arriving at a final diagnostic decision. Vacuum gauge readings, although helpful, must be interpreted carefully.
Most vacuum gauges have a normal band indicated on the gauge face.
The following are potential gauge readings. Some are normal; others should be investigated further.
Scheme 283
- NORMAL READING: Needle between 51-74 kPa (15-22 in-Hg) and holding steady.
- NORMAL READING DURING RAPID ACCELERATION AND DECELERATION: When the engine is rapidly accelerated (dotted needle), the needle will drop to a low reading (not to zero). When the throttle is suddenly released, the needle will snap back up to a higher than normal figure.
- NORMAL FOR HIGH-LIFT CAMSHAFT WITH LARGE OVERLAP: The needle will register as low as 51 kPa (15 in-Hg) but will be relatively steady. Some oscillation is normal.
- WORN RINGS OR DILUTED OIL: When the engine is accelerated (dotted needle), the needle drops to 0 kPa (0 in-Hg). Upon deceleration, the needle runs slightly above 74 kPa (22 in-Hg).
- STICKING VALVES: When the needle (dotted) remains steady at a normal vacuum but occasionally flicks (sharp, fast movement) down and back about 13 kPa (4 in-Hg), one or more valves may be sticking.
- BURNED OR WARPED VALVES: A regular, evenly-spaced, downscale flicking of the needle indicates one or more burned or warped valves. Insufficient valve clearance will also cause this reaction.
- POOR VALVE SEATING: A small but regular downscale flicking can mean one or more valves are not seating.
- WORN VALVE GUIDES: When the needle oscillates over about a 13 kPa (4 in-Hg) range at idle speed, the valve guides could be worn. As engine speed increases, the needle will become steady if guides are responsible.
- WEAK VALVE SPRINGS: When the needle oscillation becomes more violent as engine rpm is increased, weak valve springs are indicated. The reading at idle could be relatively steady.
- LATE VALVE TIMING: A steady but low reading could be caused by late valve timing.
- IGNITION TIMING RETARDING: Retarded ignition timing will produce a steady but somewhat low reading.
- INSUFFICIENT SPARK PLUG GAP: When spark plugs are gapped too close, a regular, small pulsation of the needle can occur.
- INTAKE LEAK: A low, steady reading can be caused by an intake manifold or throttle body gasket leak.
- BLOWN HEAD GASKET: A regular drop of fair magnitude can be caused by a blown head gasket or warped cylinder head-to-cylinder block surface.
- RESTRICTED EXHAUST SYSTEM: When the engine is first started and is idled, the reading may be normal, but as the engine rpm is increased, the back pressure caused by a clogged muffler, kinked tailpipe or other concerns will cause the needle to slowly drop to 0 kPa (0 in-Hg). The needle then may slowly rise. Excessive exhaust clogging will cause the needle to drop to a low point even if the engine is only idling.
- When vacuum leaks are indicated, search out and correct the cause. Excess air leaking into the system will upset the fuel mixture and cause concerns such as rough idle, missing on acceleration or burned valves. If the leak exists in an accessory unit such as the power brake booster, the unit will not function correctly. Always fix vacuum leaks.
Excessive Engine Oil Consumption
Nearly all engines consume oil, which is essential for normal lubrication of the cylinder bore walls, pistons and rings. Determining the level of oil consumption may require testing by recording how much oil is being added over a given set of miles.
Customer driving habits greatly influence oil consumption. Mileage accumulated during towing or heavy loading generates extra heat. Frequent short trips, stop-and-go type traffic or extensive idling, prevent the engine from reaching normal operating temperature. This prevents component clearances from reaching specified operating ranges.
The following diagnostic procedure may be utilized to determine internal oil consumption. Make sure that the concern is related to internal oil consumption, and not external leakage, which also consumes oil. Verify there are no leaks before carrying out the test. Once verified, the rate of internal oil consumption can be tested.
A new engine may require extra oil in the early stages of operation. Internal piston-to-bore clearances and sealing characteristics improve as the engine breaks in. Engines are designed for close tolerances and do not require break-in oils or additives. Use the oil specified in the Owner Guide. Ambient temperatures may determine the oil viscosity specification. Verify that the correct oil is being used for the vehicle in the geographic region in which it is driven.
Basic Pre-checks
- For persistent complaints of oil consumption, interview the customer to determine the oil consumption characteristics. If possible, determine the brand and grade of oil currently in the oil pan. Look at the oil filter or oil-change station tags to determine if Ford-recommended maintenance schedules have been followed. Make sure that the oil has been changed at the specified mileage intervals. If vehicle mileage is past the first recommended drain interval, the OEM production filter should have been changed.
- Ask how the most current mileage was accumulated. That is, determine whether the vehicle was driven under the following conditions: Extended idling or curbside engine operation Stop-and-go traffic or taxi operation Towing a trailer or vehicle loaded heavily Frequent short trips (engine not up to temperature) Excessive throttling or high engine-rpm driving
- Verify that there are no external leaks. If necessary, review the diagnostic procedure under Engine Oil Leaks in the Diagnosis and Testing portion of this section.
- Inspect the crankcase ventilation system for: disconnected hoses at the valve cover or throttle body. loose or missing valve cover fill cap. missing or incorrectly seated engine oil level indicator. incorrect or dirty PCV valve. a PCV valve grommet unseated in the valve cover (if so equipped).
- Inspect for signs of sludge. Sludge affects PCV performance and can plug or restrict cylinder head drainback wells. It can also increase oil pressure by restricting passages and reducing the drainback capability of piston oil control rings. Sludge can result from either excessive water ingestion in the crankcase or operation at extremely high crankcase temperatures.
- Inspect the air filter for dirt, sludge or damage. A hole in the filter element will allow unfiltered air to bypass into the air induction system. This can cause premature internal wear (engine dusting), allowing oil to escape past rings, pistons, valves and guides.
- If the engine is hot or was recently shut down, wait at least 5 minutes to allow the oil to drain back. Ask the customer if this requirement has been followed. Adding oil without this wait period can cause an overfill condition, leading to excessive oil consumption and foaming which may cause engine damage.
- Make sure the oil level indicator (dipstick) is correctly and fully seated in the indicator tube. Remove the oil level indicator and record the oil level.
Detailed Pre-checks
- Check the thermostat opening temperature to make sure that the cooling system is operating at the specified temperature. If it is low, internal engine parts are not running at specified internal operating clearances.
- Verify the spark plugs are not oil saturated. Oil leaking past one or more cylinders will appear as an oil soaked condition on the plug. If a plug is saturated, a compression check may be necessary at the conclusion of the oil consumption test.
Oil Consumption Test
Once all of the previous conditions are met, carry out an oil consumption test.
- Drain the engine oil and remove the oil filter. Install a new manufacturer-specified oil filter. Make sure the vehicle is positioned on a level surface. Refill the oil pan to a level one quart (liter) less than the specified fill level, using manufacturer-specified oil.
- Run the engine for 3 minutes (if hot) or 10 minutes (if cold). Allow for a minimum 5-minute drainback period and then record the oil level shown on the oil level indicator. Place a mark on the backside of the oil level indicator noting the oil level location.
- Add the final 1 quart (liter) to complete the normal oil fill. Restart the engine and allow it to idle for 2 minutes. Shut the engine down.
- After a 5-minute drainback period, record the location of the oil level again. Mark the oil level indicator with the new oil level location. (Note: Both marks should be very close to the MIN-MAX upper and lower limits or the upper and lower holes on the oil level indicator. These marks will exactly measure the engine's use of oil, with a one quart differential between the new marks.) Demonstrate to the customer that the factory-calibrated marks on the dipstick are where the oil should fall after an oil change with the specified fill amount. Explain however, that this may vary slightly between MIN-MAX or the upper and lower holes on the oil level indicator.
- Record the vehicle mileage.
- Advise the customer that oil level indicator readings must be taken every 320 km (200 miles) or weekly, using the revised marks as drawn. Remind the customer that the engine needs a minimum 5-minute drainback for an accurate reading and that the oil level indicator must be firmly seated in the tube prior to taking the reading.
- When the subsequent indicator readings demonstrate a full quart (liter) has been used, record the vehicle mileage. The mileage driven between the 2 readings should not be less than 1,500 miles. The drive cycle the vehicle has been operated under must be considered when making this calculation. It may be necessary to have the customer bring the vehicle in for a periodic oil level indicator reading to closely monitor oil usage.
Post Checks, Evaluation and Corrective Action
- If test results indicate excessive oil consumption, carry out a cylinder compression test. The cylinder compression test should be carried out with a fully charged battery and all spark plugs removed. See the Compression Test Chart in this section for pressure range limits.
- Compression should be consistent across all cylinders. For additional information, refer to «Compression Test - Compression Gauge Check»(/ford/five-hundred/i-2004-2007/remont/mechanical/#engine-system-general-information__compression-test-compression-gauge-check) . If compression tested within the specifications found in this section, the excessive oil consumption may be due to wear on the valve guides, valves or valve seals.
- A cylinder leak detection test can be carried out using an Engine Cylinder Leak Detection/Air Pressurization Kit. This can help identify valves, piston rings, or worn valve guides/valve stems, inoperative valve stem seals or other related areas as the source of oil consumption. NOTE: An oil-soaked appearance on the porcelain tips of the spark plugs also indicates excessive oil use. A typical engine with normal oil consumption will exhibit a light tan to brown appearance. See «Spark Plug Inspection»(/ford/five-hundred/i-2004-2007/remont/mechanical/#engine-system-general-information) for details. A single or adjoining, multiple cylinder leak can be traced by viewing the tips.
- If an internal engine part is isolated as the root cause, determine if the repair will exceed cost limits and proceed with a repair strategy as required.
- Once corrective action to the engine is complete and all pre-check items were eliminated in the original diagnosis, repeat the «Oil Consumption Test»(/ford/five-hundred/i-2004-2007/remont/mechanical/#engine-system-general-information__oil-consumption-test) as described above to verify consumption results.
Oil Pressure Test
- Disconnect and remove the oil pressure sensor from the engine.
- Connect the Engine Oil Pressure Gauge to the oil pressure sender oil galley port.
- Run the engine until normal operating temperature is reached.
- Run the engine at the specified rpm and record the gauge reading.
- The oil pressure should be within specifications; for additional information, refer to the «SPECIFICATION»(/ford/five-hundred/i-2004-2007/remont/mechanical/#engine-system-general-information) chart in the appropriate engine section.
- If the pressure is not within specification, check the following possible sources: Insufficient oil Oil leakage Worn or damaged oil pump Oil pump screen cover and tube Excessive main bearing clearance Excessive connecting rod bearing clearance Chain tensioner leak
Valve Train Analysis - Engine Off, Valve Cover Removed
Check for damaged or severely worn parts and correct assembly. Make sure correct parts are used with the static engine analysis as follows.
Valve Train Analysis - Engine Off
- Check for loose mounting bolts on camshaft caps.
- Check valve shim to camshaft gap.
Valve Train Analysis - Engine Off, Camshaft - Engines
- Check for broken or damaged parts.
Valve Train Analysis - Valve Springs
- Check for broken or damaged parts.
Valve Train Analysis - Engine Off, Valve Spring Retainer and Valve Spring Retainer Keys
- Check for correct seating of the valve spring retainer key on the valve stem and in valve spring retainer.
- Check for correct seating on the valve stem.
Valve Train Analysis - Engine Off, Valves and Cylinder Head
- Check for plugged oil drain back holes.
- Check for worn or damaged valve tips.
- Check for missing or damaged valve stem seals or guide-mounted valve stem seal.
- Check valve tappet shim gap.
- Check for missing or worn valve spring seats.
- Check for plugged oil metering orifice in cylinder head oil reservoir (if equipped).
Static checks (engine off) are to be made on the engine prior to the dynamic procedure.
Valve Train Analysis - Engine Off, Camshaft Lobe Lift - OHC Engines
Check the lift of each camshaft lobe in consecutive order and make a note of the readings.
Scheme 284
- Remove the valve covers.
- Remove the spark plugs.
- Install the special tool so the rounded tip of indicator is on top of the camshaft lobe and on the same plane as the valve tappet.
- Rotate the crankshaft using a breaker bar and socket attached to the crankshaft pulley retainer bolt. Rotate the crankshaft until the base circle of the camshaft lobe is reached.
- Zero the dial indicator. Continue to rotate the crankshaft until the high-lift point of the camshaft lobe is in the fully-raised position (highest indicator reading).
- To check the accuracy of the original indicator reading, continue to rotate crankshaft until the base circle is reached. The indicator reading should be zero. If zero reading is not obtained, repeat Steps 1 through 6.
- Install the spark plugs.
- Install the valve covers.
Valve Train Analysis - Engine Off, Valve Tappet
Valve tappet noise can be caused by any of the following
- Excessive valve tappet shim gap
- Excessive valve guide wear
Excessive collapsed valve tappet shim gap can be caused by incorrect initial adjustment or wear of valve tappet shim face.
For additional information, refer to the valve train shim and gap inspection procedure in the appropriate engine section.
Scheme 285
- Inspect the timing chain/belt and the sprocket. Install new components as necessary. Refer to the appropriate engine article for the procedure.
Scheme 286
- Measure each camshaft journal diameter in 2 directions. If out of specification, install new components as necessary. Refer to the appropriate engine article for the procedure.
SPECIAL TOOL SPECIFICATION Dial Indicator Gauge with Holding Fixture 100-002 (TOOL-4201-C) or equivalent
Scheme 287
- Use a Dial Indicator Gauge with Holding Fixture to measure camshaft end play.
- Position the camshaft to the rear of the cylinder head.
- Zero the indicator.
- Move the camshaft to the front of the cylinder head. Note and record the camshaft end play. If camshaft end play exceeds specifications, install new camshaft and recheck end play. Refer to the appropriate engine article for the procedure. If camshaft end play exceeds specification after camshaft installation, install a new cylinder head. Refer to the appropriate engine for the procedure.
Scheme 288
- Inspect camshaft lobes for pitting or damage in the contact area. Minor pitting is acceptable outside the contact area. If excessive pitting or damage is present, install new components as necessary. Refer to the appropriate engine article for the procedure.
SPECIAL TOOL SPECIFICATION Dial Indicator Gauge with Holding Fixture 100-002 (TOOL-4201-C) or equivalent
Scheme 289
- Use a Dial Indicator Gauge with Holding Fixture to measure the camshaft runout. Rotate the camshaft and subtract the lowest indicator reading from the highest indicator reading. For additional information, refer to the «SPECIFICATION»(/ford/five-hundred/i-2004-2007/remont/mechanical/#engine-system-general-information) chart in the appropriate engine section. If out of specification, install new components as necessary. Refer to the appropriate engine article for the procedure.
SPECIAL TOOL SPECIFICATION Dial Indicator Gauge with Holding Fixture 100-002 (TOOL-4201-C) or equivalent
Scheme 290
- Measure the crankshaft end play. Use a Dial Indicator Gauge with Holding Fixture to measure crankshaft end play.
- Position the crankshaft to the rear of the cylinder block.
- Zero the indicator.
- Move the crankshaft to the front of the cylinder block. Note and record the crankshaft end play. If crankshaft end play exceeds specifications, install a new crankshaft thrust washer or crankshaft thrust main bearing. Refer to the appropriate engine article for the procedure.
Scheme 291
- Measure the diameter of each intake and exhaust valve stem at the points shown. Verify the diameter is within specification. Refer to the appropriate engine article for the procedure. If out of specification, install new components as necessary. Refer to the appropriate engine article for the procedure.
Scheme 292
- Inspect the following valve areas: The end of the stem for grooves or scoring. The valve face and the edge for pits, grooves or scores. The valve head for signs of burning, erosion, warpage and cracking. The valve margin for wear.
Scheme 293
- Use a ball gauge to determine the inner diameter of the valve guides in 2 directions at the top, middle and bottom of the valve guide.
- Measure the ball gauge with a micrometer. Refer to the appropriate engine article for the specification.
- If the valve guide is not within specifications, ream the valve guide and install a valve with an oversize stem or remove the valve guide and install a new valve guide.
Scheme 294
- Measure the free length of each valve spring. Refer to the appropriate engine article for the procedure. If out of specification, install new components as necessary. Refer to the appropriate engine article for the procedure.
Scheme 295
- Measure the out-of-square on each valve spring. Turn the valve spring and observe the space between the top of the valve spring and the square. Install a new valve spring if out of square. Refer to the appropriate engine article for the procedure.
SPECIAL TOOL SPECIFICATION Pressure Gauge, Valve/Clutch Spring 303-006 (TOOL-6513-DD) or equivalent
Scheme 296
Scheme 297
- Use a Valve/Clutch Spring Pressure Gauge to check the valve spring for correct strength at the specified valve spring length. Refer to the appropriate engine article for the procedure. If out of specification, install new components as necessary. Refer to the appropriate engine article for the procedure.
Valve and Seat Refacing Measurements
| CAUTION | After grinding valves or valve seats, check valve clearance. |
Scheme 298
- Check the valve head and seat. Check valve angles. Check margin width. Refer to the appropriate engine article for the procedure. Be sure margin width is within specification.
- Inspect for abnormalities on the valve face and seat. Install a new cylinder head assembly if abnormalities are found.
SPECIAL TOOL SPECIFICATION Feeler Gauge Set 303-D027 (D81L-4201-A) or equivalent Straight Edge 303-D039 (D83L-4201-a) or equivalent
Scheme 299
Scheme 300
- Using a straight edge and a feeler gauge, inspect the cylinder head for flatness in the sequence shown. If the cylinder head is distorted, install a new cylinder head.
SPECIAL TOOL SPECIFICATION Feeler Gauge Set 303-D027 (D81L-4201-A) or equivalent Straight Edge 303-D039 (D83L-4201-A) or equivalent
Scheme 301
- Use a straight edge and a feeler gauge to inspect the cylinder block for flatness. If the cylinder block is distorted, install a new short block assembly.
SPECIAL TOOL SPECIFICATION Straight Edge 303-D039 (D83L-4201-A) or equivalent
- Clean the exhaust manifold using a suitable solvent. Use a plastic scraping tool to clean the gasket sealing surfaces.
- Using the special tool (or a precision straight edge) and a feeler gauge, check the exhaust manifold sealing surface for warpage. If the warpage is greater than 0.76 mm (0.0299 in), install a new exhaust manifold.
SPECIAL TOOL SPECIFICATION Slide Hammer 100-001 (T50T-100-A)
Material
| Item | Specification |
|---|---|
| Threadlock 262 TA-26 | WSK-M2G351-A6 |
MATERIAL
Scheme 302
- Use a slide hammer or tools suitable to remove the cylinder block core plug.
- Inspect the cylinder block plug bore for any damage that would interfere with the correct sealing of the plug. If the cylinder block plug bore is damaged, bore for the next oversize plug.
- Coat the cylinder block core plug and bore lightly with Threadlock 262 and install the cylinder block core plug.
Cup-Type
- Use a tool suitable to seat the cup-type cylinder block core plug.
Expansion-Type
- Use tool suitable to seat the expansion-type cylinder block core plug.
Scheme 303
Scheme 304
Scheme 305
Scheme 306
Scheme 307
Scheme 308
Scheme 309
- Inspect the spark plug for a bridged gap. Check for deposit build-up closing the gap between the electrodes. Deposits are caused by oil or carbon fouling. Clean the spark plug.
- Check for oil fouling. Check for wet, black deposits on the insulator shell bore electrodes, caused by excessive oil entering the combustion chamber through worn rings and pistons, excessive valve-to-guide clearance or worn or loose bearings. Correct the oil leak concern. Install a new spark plug.
- Inspect for carbon fouling. Look for black, dry, fluffy carbon deposits on the insulator tips, exposed shell surfaces and electrodes, caused by a spark plug with an incorrect heat range, dirty air cleaner, too rich a fuel mixture or excessive idling. Install new spark plugs.
- Inspect for normal burning. Check for light tan or gray deposits on the firing tip.
- Inspect for pre-ignition, identified by melted electrodes and a possibly damaged insulator. Metallic deposits on the insulator indicate engine damage. This may be caused by incorrect ignition timing, wrong type of fuel or the unauthorized installation of a heli-coil insert in place of the spark plug threads. Install a new spark plug.
- Inspect for fused deposits, identified by melted or spotty deposits resembling bubbles or blisters. These are caused by sudden acceleration. Install new spark plugs.
- Inspect for overheating, identified by white or light gray spots and with a bluish-burnt appearance of electrodes. This is caused by engine overheating, wrong type of fuel, loose spark plugs, spark plugs with an incorrect heat range, low fuel pump pressure or incorrect ignition timing. Install a new spark plug.
Scheme 310
Scheme 311
- Inspect the roller follower for flat spots or scoring. If any damage is found, inspect the camshaft lobes and hydraulic lash adjuster for damage.
See also:
• INTRODUCTION - GASOLINE
• IDENTIFICATION CODES
• CHARGING SYSTEM - GENERAL INFORMATION
• GENERATOR AND REGULATOR
• ENGINE COOLING
• FUEL TANK & LINES
• SUSPENSION SYSTEM-GENERAL INFORMATION
• BRAKE SYSTEM-GENERAL INFORMATION
• SYMPTOM CHART
• COMPRESSION PRESSURE LIMIT CHART
• Compression Test - Compression Gauge Check
• Spark Plug Inspection
• Oil Consumption Test