Most Common Car Issues

Selected parameters

Engine Manufacturer
Toyota
Model
Celica

Add more parameters

MOST COMMON PROBLEMS

TOYOTA Celica 1996

The 1996 Toyota Celica Convertible is a stylish and sporty two-door cabriolet. Powered by a 2.2-liter 4-cylinder DOHC engine (5S-FE) producing between 130 to 138 hp, it offers a thrilling driving experience. Manufactured in Toyota's Tahara Plant in Japan, this model combines Japanese engineering with the fun of open-top driving.

Spec:

Engine Brake (hp) From
130
Engine Brake (hp) To
138
Engine Configuration
In-Line
Engine Manufacturer
Toyota
Engine Model
5S-FE
Engine Number of Cylinders
4

Problems:

Oil leaks
Common in older engines, typically from valve cover gaskets, oil pan gaskets, or camshaft seals.
Timing belt wear
The 5S-FE engine uses a timing belt that can wear out or break, leading to engine damage.
Head gasket failure
Can occur due to overheating, leading to coolant and oil mixing or loss of compression.
Idle control valve issues
Can cause erratic idling or stalling problems.
Egr valve clogging
Can lead to poor engine performance and increased emissions.
Spark plug fouling
Due to oil leaks or poor combustion, causing misfires and reduced engine efficiency.
Distributor problems
Can lead to ignition timing issues, resulting in poor engine performance.
Coolant leaks
Often from the water pump or radiator, leading to overheating and potential engine damage.
Fuel injector problems
Can cause poor fuel delivery, leading to rough running or reduced power.
TOYOTA Celica 1997

The 1997 Toyota Celica Convertible is a stylish and sporty two-door cabriolet powered by a 2.2L in-line 4-cylinder engine capable of producing between 130 to 138 horsepower. Manufactured in Tahara, Japan, this vehicle features a Dual Overhead Cam (DOHC) design and offers front airbags for both the driver and passenger. With its lightweight build and manual seat belts, the Celica combines classic Toyota reliability with an exhilarating open-top driving experience.

Spec:

Engine Brake (hp) From
130
Engine Brake (hp) To
138
Engine Configuration
In-Line
Engine Manufacturer
Toyota
Engine Model
5S-FE
Engine Number of Cylinders
4

Problems:

Oil leaks
The Toyota 5S-FE engine is known for developing oil leaks, particularly from the valve cover gasket and oil pan gasket.
Timing belt issues
Over time, the timing belt can wear out, leading to potential engine damage if not replaced at recommended intervals.
Overheating
The cooling system, including the radiator and thermostat, can fail and cause the engine to overheat.
Head gasket failure
This engine may experience head gasket issues, which can lead to coolant leaks and engine overheating.
Idle control problems
Idle air control valves can fail, leading to rough idling or stalling.
Ignition system issues
Problems with the ignition coil, distributor, or spark plugs can cause misfires and poor engine performance.
Egr valve issues
The Exhaust Gas Recirculation (EGR) valve can become clogged or fail, affecting emissions and engine performance.
Sensor failures
Common sensor issues include the oxygen sensor, mass airflow sensor, and coolant temperature sensor, which can cause poor performance and fuel economy.
TOYOTA Celica 1985

The 1985 Toyota Celica GT-S is a classic hatchback featuring a 2.4L 22R inline-four engine with 97-109 hp. Manufactured in Toyota City, Japan, this 3-door hatchback comes with a 4x2 drive type and manual seat belts. Designed with a SOHC valve train, it represents Toyota's commitment to reliable and sporty vehicles.

Spec:

Engine Brake (hp) From
97
Engine Brake (hp) To
109
Engine Configuration
In-Line
Engine Manufacturer
Toyota
Engine Model
22R
Engine Number of Cylinders
4

Problems:

Oil leaks
The 22R engine is known for developing oil leaks over time, particularly from the valve cover gasket, oil pan gasket, and front and rear crankshaft seals.
Timing chain issues
The factory timing chain guides on the 22R engine can wear out or break, leading to potential chain slack and engine damage if not addressed.
Carburetor problems
The carburetor on this engine can become clogged or malfunction, leading to poor fuel delivery, rough idling, and reduced performance.
Cooling system failures
Over time, the radiator, water pump, and hoses can develop leaks or fail, leading to overheating issues.
Valve adjustment
The mechanical lifters in the 22R require periodic valve adjustments to maintain proper engine performance and prevent valve damage.
Head gasket failure
Overheating or wear can lead to head gasket failure, causing coolant leaks, oil contamination, and engine overheating.
Ignition system issues
Problems with the distributor, ignition coil, or spark plugs can lead to misfires, poor fuel economy, and difficulty starting the engine.
Exhaust manifold cracks
The exhaust manifold on the 22R engine can develop cracks over time, leading to exhaust leaks and increased engine noise.
TOYOTA Celica 1985

The 1985 Toyota Celica GT-S features a 2.4L 4-cylinder 22R engine with water cooling and a displacement of 2366 CC. It delivers between 97 to 109 horsepower and utilizes a Single Overhead Cam (SOHC) valve train design. Manufactured by Toyota Motor Corporation in Toyota City, Japan, this gasoline-powered passenger car exemplifies the classic engineering of its era.

Spec:

Engine Brake (hp) From
97
Engine Brake (hp) To
109
Engine Configuration
In-Line
Engine Manufacturer
Toyota
Engine Model
22R
Engine Number of Cylinders
4

Problems:

Oil leaks
The 22R engine is known for developing oil leaks over time, particularly from the valve cover gasket, oil pan gasket, and front and rear crankshaft seals.
Timing chain issues
The factory timing chain guides on the 22R engine can wear out or break, leading to potential chain slack and engine damage if not addressed.
Carburetor problems
The carburetor on this engine can become clogged or malfunction, leading to poor fuel delivery, rough idling, and reduced performance.
Cooling system failures
Over time, the radiator, water pump, and hoses can develop leaks or fail, leading to overheating issues.
Valve adjustment
The mechanical lifters in the 22R require periodic valve adjustments to maintain proper engine performance and prevent valve damage.
Head gasket failure
Overheating or wear can lead to head gasket failure, causing coolant leaks, oil contamination, and engine overheating.
Ignition system issues
Problems with the distributor, ignition coil, or spark plugs can lead to misfires, poor fuel economy, and difficulty starting the engine.
Exhaust manifold cracks
The exhaust manifold on the 22R engine can develop cracks over time, leading to exhaust leaks and increased engine noise.
TOYOTA Celica 1985

The 1985 Toyota Celica GT-S features a 2.4L In-Line 4 engine with a displacement of 2366 CC, producing between 97 to 109 horsepower. This water-cooled, gasoline-powered engine is the renowned Toyota 22R model, equipped with a Single Overhead Cam (SOHC) valve train design. Manufactured in Toyota City, Japan, this passenger car combines performance and reliability, hallmark traits of the Toyota Motor Corporation.

Spec:

Engine Brake (hp) From
97
Engine Brake (hp) To
109
Engine Configuration
In-Line
Engine Manufacturer
Toyota
Engine Model
22R
Engine Number of Cylinders
4

Problems:

Oil leaks
The 22R engine is known for developing oil leaks over time, particularly from the valve cover gasket, oil pan gasket, and front and rear crankshaft seals.
Timing chain issues
The factory timing chain guides on the 22R engine can wear out or break, leading to potential chain slack and engine damage if not addressed.
Carburetor problems
The carburetor on this engine can become clogged or malfunction, leading to poor fuel delivery, rough idling, and reduced performance.
Cooling system failures
Over time, the radiator, water pump, and hoses can develop leaks or fail, leading to overheating issues.
Valve adjustment
The mechanical lifters in the 22R require periodic valve adjustments to maintain proper engine performance and prevent valve damage.
Head gasket failure
Overheating or wear can lead to head gasket failure, causing coolant leaks, oil contamination, and engine overheating.
Ignition system issues
Problems with the distributor, ignition coil, or spark plugs can lead to misfires, poor fuel economy, and difficulty starting the engine.
Exhaust manifold cracks
The exhaust manifold on the 22R engine can develop cracks over time, leading to exhaust leaks and increased engine noise.
TOYOTA Celica 1997

The 1997 Toyota Celica is a stylish hatchback powered by the reliable 2.2L 5S-FE engine, delivering 133-138 hp. With a 4x2 drive type and dual overhead cam design, this sporty vehicle offers a dynamic driving experience. Manufactured in Tahara, Japan, it features a 3-door configuration and essential safety elements like front airbags for the driver and passenger.

Spec:

Engine Brake (hp) From
133
Engine Brake (hp) To
138
Engine Configuration
In-Line
Engine Manufacturer
Toyota
Engine Model
5S-FE
Engine Number of Cylinders
4

Problems:

Oil leaks
Commonly found around the valve cover gaskets and oil pan due to worn gaskets or seals.
Overheating
Can be caused by a faulty thermostat, water pump failure, or a clogged radiator.
Misfiring
Often due to worn spark plugs, faulty ignition coils, or problematic fuel injectors.
Timing belt failure
The timing belt can wear out and break if not replaced periodically, leading to engine damage.
Idle issues
Rough idling can be caused by dirty fuel injectors, a vacuum leak, or a faulty idle air control valve.
Excessive oil consumption
May be due to worn piston rings or valve seals, leading to oil burning in the combustion chamber.
Egr valve problems
The exhaust gas recirculation (EGR) valve can become clogged, affecting engine performance and increasing emissions.
Knocking noise
Often related to issues with the rod bearings or piston slap due to wear and tear over time.
TOYOTA Celica 1984

The 1984 Toyota Celica GT-S is a sleek coupe powered by a 2.4L inline-4 engine, producing between 97 and 109 horsepower. Manufactured in Toyota City, Japan, this model features a manual seat belt type and single overhead cam valve train design. Ideal for enthusiasts, it combines classic styling with reliable performance.

Spec:

Engine Brake (hp) From
97
Engine Brake (hp) To
109
Engine Configuration
In-Line
Engine Manufacturer
Toyota
Engine Model
22R
Engine Number of Cylinders
4

Problems:

Oil leaks
The Toyota 22R engine is known for developing oil leaks, particularly around the valve cover gasket and the timing chain cover.
Timing chain wear
Over time, the timing chain on the 22R engine can stretch and wear out, leading to poor engine performance and potential engine damage if not replaced.
Carburetor issues
The 1984 Toyota Celica with a 22R engine may experience problems with the carburetor, such as clogging or improper fuel mixture, leading to rough idling and poor acceleration.
Head gasket failure
This engine can suffer from head gasket issues, which may cause coolant leaks, overheating, and white smoke from the exhaust.
Vacuum leaks
Vacuum hoses and lines can become brittle and crack over time, causing vacuum leaks that lead to rough engine performance and increased emissions.
Ignition system problems
Issues with the distributor, spark plugs, or ignition wires can result in misfires, poor fuel economy, and difficulty starting the engine.
Cooling system failures
The cooling system, including the radiator, water pump, and hoses, can experience leaks or failures, leading to engine overheating.
Exhaust manifold cracks
The exhaust manifold on the 22R engine is prone to cracking, which can cause exhaust leaks and increased engine noise.
Fuel pump failure
The mechanical fuel pump can fail over time, leading to fuel delivery problems and engine stalling.
TOYOTA Celica 1985

The 1985 Toyota Celica GT-S is a classic hatchback powered by a 2.4L inline-4 engine, with outputs ranging from 97 to 109 horsepower. This rear-wheel-drive vehicle features a Single Overhead Cam (SOHC) design and is manufactured by the renowned Toyota Motor Corporation in Japan. With its sporty design and manual seat belts, this Celica represents an era of reliable, performance-oriented passenger cars.

Spec:

Engine Brake (hp) From
97
Engine Brake (hp) To
109
Engine Configuration
In-Line
Engine Manufacturer
Toyota
Engine Model
22R
Engine Number of Cylinders
4

Problems:

Oil leaks
The 22R engine is known for developing oil leaks over time, particularly from the valve cover gasket, oil pan gasket, and front and rear crankshaft seals.
Timing chain issues
The factory timing chain guides on the 22R engine can wear out or break, leading to potential chain slack and engine damage if not addressed.
Carburetor problems
The carburetor on this engine can become clogged or malfunction, leading to poor fuel delivery, rough idling, and reduced performance.
Cooling system failures
Over time, the radiator, water pump, and hoses can develop leaks or fail, leading to overheating issues.
Valve adjustment
The mechanical lifters in the 22R require periodic valve adjustments to maintain proper engine performance and prevent valve damage.
Head gasket failure
Overheating or wear can lead to head gasket failure, causing coolant leaks, oil contamination, and engine overheating.
Ignition system issues
Problems with the distributor, ignition coil, or spark plugs can lead to misfires, poor fuel economy, and difficulty starting the engine.
Exhaust manifold cracks
The exhaust manifold on the 22R engine can develop cracks over time, leading to exhaust leaks and increased engine noise.
TOYOTA Celica 1990

The 1990 Toyota Celica GT Coupe is powered by a 2.2L inline-4 engine (5S-FE) producing between 130-138 hp. It features electronic fuel injection and a dual overhead cam (DOHC) valve train. This 2-door, 4x2 drive vehicle was manufactured in Toyota's Tahara Plant in Japan. A classic choice for enthusiasts of sporty, reliable coupes.

Spec:

Engine Brake (hp) From
130
Engine Brake (hp) To
138
Engine Configuration
In-Line
Engine Manufacturer
Toyota
Engine Model
5S-FE
Engine Number of Cylinders
4
Other Engine Info
Electronic Fuel Injection

Problems:

Oil leaks
Common in older engines like the 5S-FE, especially around the valve cover gasket, oil pan, and main seals.
Timing belt wear
The 5S-FE engine relies on a timing belt, which can wear out and may lead to engine failure if not replaced at recommended intervals.
Head gasket failure
Known issue in some Toyota engines of this era, leading to coolant and oil mixing, overheating, and potential engine damage.
Valve cover gasket failure
Can lead to oil leakage and engine misfires.
Excessive oil consumption
Older engines, including the 5S-FE, can consume more oil than newer models, often due to worn piston rings or valve seals.
Idle air control valve issues
Can lead to erratic idling and stalling problems.
Sensor failures
Older electronic fuel injection systems can suffer from sensor failures, including the oxygen sensor and mass air flow sensor.
Distributor failure
Can cause ignition problems and engine misfires.
Coolant leaks
Common around the radiator, hoses, and water pump, potentially leading to overheating.
Exhaust manifold cracks
Can develop over time, leading to exhaust leaks and increased engine noise.
TOYOTA Celica 1981

The 1981 Toyota Celica GT is a classic hatchback powered by the robust 2.4L 22R inline-4 engine, producing between 97 to 109 horsepower. This sporty 2-door model, manufactured in Japan, features a single overhead cam design and water cooling. As a lightweight vehicle in Class 1, it's perfect for enthusiasts of vintage Toyota performance.

Spec:

Engine Brake (hp) From
97
Engine Brake (hp) To
109
Engine Configuration
In-Line
Engine Manufacturer
Toyota
Engine Model
22R
Engine Number of Cylinders
4

Problems:

Oil leaks
The 22R engine is known to develop oil leaks over time, particularly around the valve cover gasket and oil pan.
Timing chain wear
The timing chain on the 22R can wear out, causing a rattling noise and potential engine performance issues.
Carburetor issues
The carburetor may become clogged or out of adjustment, leading to poor fuel economy and performance.
Head gasket failure
This engine may suffer from head gasket problems, which can result in overheating and loss of engine power.
Ignition system problems
Issues with the distributor, ignition coil, or spark plugs can cause misfires and rough idling.
Vacuum leaks
Vacuum hoses may become brittle and crack, leading to rough idling and poor acceleration.
Cooling system problems
Radiators and water pumps can fail, leading to overheating issues.
Fuel pump failure
The mechanical fuel pump may wear out, resulting in fuel delivery issues and engine stalling.
TOYOTA Celica 1988

The 1988 Toyota Celica ST is a sleek coupe powered by a 2.0L in-line 4-cylinder engine (3S-FE) with electronic fuel injection. This rear-wheel-drive model, manufactured in Tahara, Japan, offers a sporty driving experience with its dual overhead cam (DOHC) design. With a gross vehicle weight rating of under 6,000 lbs, it's a nimble and efficient gasoline-powered passenger car.

Spec:

Engine Configuration
In-Line
Engine Manufacturer
Toyota
Engine Model
3S-FE
Engine Number of Cylinders
4
Engine Stroke Cycles
4
Other Engine Info
ELECTRONIC FUEL INJECTION TRANSVERSE MOUNTED ENGINE

Problems:

Oil leaks
Common issue due to aging gaskets and seals, especially around the valve cover gasket and oil pan.
Timing belt wear
The 3S-FE engine uses a timing belt that needs regular replacement to avoid engine damage.
Overheating
Often caused by a faulty thermostat, clogged radiator, or failing water pump.
Idle fluctuations
Can be due to a dirty or faulty idle air control valve or vacuum leaks.
Fuel injector problems
Electronic fuel injection systems can suffer from clogged or malfunctioning injectors, affecting performance and fuel economy.
Head gasket failure
Can occur over time, leading to coolant leaks, oil contamination, and engine overheating.
Ignition coil failure
Faulty coils can lead to misfires and poor engine performance.
Egr valve issues
Exhaust Gas Recirculation valve can get clogged, affecting emissions and engine efficiency.
Crankshaft position sensor failure
Can cause starting issues and erratic engine behavior.
Air flow meter problems
A failing mass air flow sensor can lead to incorrect air/fuel mixture and rough running conditions.
© Copyright 2024 VinCyp.com Privacy Policy
VIN Decoder (vincyp.com) does not guarantee the accuracy of provided information, including technical data, features, specifications, indicators, etc. All manufacturers' logos, brands, and trademarks are the property of their respective owners.