Most Common Car Issues

Selected parameters

Add more parameters

Dynamic Brake Support (DBS)

Engine Brake (hp) From

Engine Brake (hp) To

Engine Model

Engine Number of Cylinders

MOST COMMON PROBLEMS

HONDA Accord 1991

The 1991 Honda Accord LX is a classic sedan known for its reliability and efficiency. It features a 2.2-liter in-line 4-cylinder engine, producing 125 horsepower, and comes with a 4-speed automatic transmission. Manufactured in Marysville, Ohio, this model is equipped with a driver seat airbag and runs on gasoline. The Accord's design emphasizes practicality and comfort with its four-door configuration and spacious interior.

Spec:

Engine Brake (hp) From

125

Engine Configuration

In-Line

Engine Manufacturer

Honda

Engine Model

F22A1

Engine Number of Cylinders

Problems:

Oil leaks

The F22A1 engine in the 1991 Honda Accord is known for developing oil leaks, particularly from the valve cover gasket, oil pan gasket, and crankshaft seals.

Timing belt wear

This engine uses a timing belt, which must be replaced at regular intervals to avoid catastrophic engine damage. Failure to replace the timing belt can result in it snapping and causing severe engine damage.

Head gasket failure

Over time, the head gasket can fail, leading to coolant mixing with the engine oil or causing the engine to overheat.

Distributor issues

The distributor in the F22A1 engine can develop problems such as oil leaks and electrical failures, which can cause misfires and starting issues.

Idle control problems

The idle air control valve can get dirty or fail, causing erratic idling or stalling at idle.

Egr valve clogging

The Exhaust Gas Recirculation (EGR) valve can become clogged with carbon deposits, leading to rough idling, stalling, and reduced performance.

Fuel injector problems

The fuel injectors can become clogged or fail, leading to poor engine performance, misfires, and reduced fuel efficiency.

Cooling system issues

Radiators, hoses, and water pumps can develop leaks or fail, leading to engine overheating.

Spark plug wear

Spark plugs can wear out or foul over time, leading to poor engine performance, misfires, and decreased fuel efficiency.

Excessive engine vibration

Engine mounts can wear out, causing excessive engine vibration, which can be felt inside the cabin and lead to other mechanical issues.

HONDA Civic 1987

The 1987 Honda Civic CRX is a classic hatchback known for its sporty design and efficiency. It features a 1.5-liter inline-4 engine, producing 91 horsepower, and comes with a 5-speed manual transmission. Manufactured in Suzuka, Japan, this model is celebrated for its nimble handling and compact size, making it a beloved choice among enthusiasts.

Spec:

Engine Brake (hp) From

Engine Configuration

In-Line

Engine Manufacturer

Honda

Engine Model

D15A3

Engine Number of Cylinders

Problems:

Oil leaks

Older engines like the 1987 Honda Civic's D15A3 are prone to developing oil leaks due to worn-out gaskets and seals.

Timing belt wear

The timing belt in this model can wear out over time and may lead to engine failure if not replaced at recommended intervals.

Head gasket failure

This inline-4 engine can experience head gasket issues, leading to coolant leaks and engine overheating.

Valve cover gasket leaks

The valve cover gasket may degrade and cause oil leaks in older engines such as the D15A3.

Carburetor issues

As a carbureted engine, the D15A3 may face problems like clogging or poor adjustment, affecting performance and fuel economy.

Ignition system problems

Older ignition systems may suffer from worn-out spark plugs, distributor caps, and ignition coils, leading to misfires and poor engine performance.

Cooling system failures

Radiators, hoses, and water pumps can deteriorate over time, leading to potential overheating issues.

Exhaust manifold cracks

The exhaust manifold of an older engine may develop cracks, causing exhaust leaks and increased noise.

Fuel pump wear

Mechanical fuel pumps in older vehicles can wear out, leading to fuel delivery issues and engine stalling.

ACURA Integra 2024

The 2024 Acura Type-S is a high-performance passenger car powered by a 2.0-liter turbocharged engine producing 320 hp. It comes equipped with a suite of advanced safety features, including Dynamic Brake Support, Lane Departure Warning, and Forward Collision Warning. Its sporty design is matched by a 6-speed manual transmission and a range of driver assistance technologies such as Adaptive Cruise Control and Lane Centering Assistance. Manufactured by American Honda Motor Co., Inc. in Marysville, Ohio, this car promises both excitement and reliability.

Spec:

Dynamic Brake Support (DBS)

Standard

Engine Brake (hp) From

320

Engine Configuration

In-Line

Engine Manufacturer

Honda

Engine Model

K20C8

Engine Number of Cylinders

Engine Stroke Cycles

Other Engine Info

Direct Fuel Injection

Problems:

Dynamic brake support malfunction

Issues with the Dynamic Brake Support system can lead to improper braking assistance, potentially causing safety concerns during emergency braking situations.

Turbocharger failure

The K20C8 engine is equipped with a turbocharger, and turbo failure can lead to power loss, increased exhaust emissions, and potential engine damage.

Fuel injector problems

Direct fuel injection systems can suffer from clogged or malfunctioning injectors, leading to poor engine performance, misfires, and reduced fuel efficiency.

Timing chain wear

Over time, the timing chain can stretch or wear out, resulting in poor engine timing, decreased performance, and potential engine damage if it fails.

Oil dilution

Direct injection engines are prone to oil dilution, where fuel mixes with engine oil, reducing its lubricating properties and potentially leading to increased engine wear.

Carbon buildup

Direct injection can lead to carbon buildup on intake valves, which can cause reduced airflow, poor engine performance, and potential misfires.

Engine overheating

Inadequate cooling or coolant leaks can result in the engine overheating, which can cause severe engine damage if not addressed promptly.

Sensor failures

Modern engines rely on various sensors (e.g., oxygen sensors, MAF sensors) for optimal performance. Sensor failures can lead to incorrect air-fuel mixture, poor performance, and increased emissions.

Turbo lag

Turbocharged engines, like the K20C8, can experience turbo lag, which is the delay between pressing the accelerator and the turbocharger providing boost, affecting acceleration and driving experience.

Exhaust gas recirculation (egr) issues

Problems with the EGR system can lead to increased emissions and decreased engine performance due to improper recirculation of exhaust gases.

HONDA Civic Type R 2019

The 2019 Honda Civic Type R TOURING is a high-performance hatchback powered by a 2.0L turbocharged K20C1 engine, delivering 306 horsepower. This model features a 6-speed manual transmission and advanced safety with front, side, and curtain airbags for all rows. Built in Swindon, UK, the vehicle employs water cooling and a dual overhead cam (DOHC) valve train design. With a sporty 4x2 drive type, it promises an exhilarating driving experience.

Spec:

Engine Brake (hp) From

306

Engine Configuration

In-Line

Engine Manufacturer

Honda

Engine Model

K20C1

Engine Number of Cylinders

Engine Stroke Cycles

Problems:

Oil consumption

The K20C1 engine, like many high-performance engines, can consume more oil than average, especially under heavy driving conditions.

Turbocharger issues

The turbocharger in the K20C1 engine can sometimes face problems such as boost leaks, bearing wear, or wastegate issues.

Carbon buildup

Direct-injection engines like the K20C1 can suffer from carbon buildup on the intake valves, which can affect performance and fuel efficiency.

Cooling system problems

High-performance engines generate more heat, and the cooling system in the Civic Type R can be prone to issues such as radiator leaks or overheating.

Fuel injector problems

Over time, fuel injectors can become clogged or fail, leading to rough idling, misfires, or reduced performance.

Timing chain wear

The K20C1 engine uses a timing chain, which can stretch or wear out over time, potentially leading to timing issues.

Engine mount wear

The high torque and performance of the K20C1 can cause faster wear on engine mounts, leading to increased vibrations and noise.

Misfires

Issues such as faulty spark plugs, ignition coils, or fuel delivery problems can lead to engine misfires.

Head gasket failure

Although less common, high-performance driving can lead to head gasket failures, causing coolant leaks or overheating.

Sensor failures

Sensors such as the oxygen sensor, MAF sensor, or knock sensor can fail, leading to various engine performance issues.

HONDA Civic 1994

Spec:

Engine Brake (hp) From

Engine Configuration

In-Line

Engine Manufacturer

Honda

Engine Model

D15B8

Engine Number of Cylinders

Problems:

Oil leaks

The 1994 Honda Civic with the D15B8 engine is known to develop oil leaks over time, particularly around the valve cover gasket and oil pan gasket.

Timing belt wear

The D15B8 engine uses a timing belt, which can wear out or break if not replaced at recommended intervals, leading to potential engine damage.

Idle fluctuations

Idle issues can occur due to problems with the idle air control valve or vacuum leaks in this engine model.

Coolant leaks

Coolant leaks from the radiator, hoses, or head gasket are common issues that can lead to overheating if not addressed.

Distributor problems

The distributor in this engine can fail, leading to issues with starting, misfires, or stalling.

Head gasket failure

Overheating or high mileage can cause the head gasket to fail, leading to coolant and oil mixing, which can result in severe engine damage.

Egr valve issues

The Exhaust Gas Recirculation (EGR) valve can become clogged or fail, leading to poor engine performance and increased emissions.

Fuel injector problems

Clogged or malfunctioning fuel injectors can cause poor engine performance, reduced fuel efficiency, and misfires.

HONDA Accord 1991

The 1991 Honda Accord DX Coupe features a 2.2L inline 4-cylinder engine, producing 125 hp with a manual 5-speed transmission. Manufactured in Marysville, Ohio by American Honda Motor Co., Inc., this model combines a sporty design with reliable performance. It offers driver-side airbags and a lightweight build with a GVWR up to 4,000 lbs.

Spec:

Engine Brake (hp) From

125

Engine Configuration

In-Line

Engine Manufacturer

Honda

Engine Model

F22A1

Engine Number of Cylinders

Problems:

Oil leaks

The F22A1 engine in the 1991 Honda Accord is known for developing oil leaks, particularly from the valve cover gasket, oil pan gasket, and crankshaft seals.

Timing belt wear

Head gasket failure

Over time, the head gasket can fail, leading to coolant mixing with the engine oil or causing the engine to overheat.

Distributor issues

The distributor in the F22A1 engine can develop problems such as oil leaks and electrical failures, which can cause misfires and starting issues.

Idle control problems

The idle air control valve can get dirty or fail, causing erratic idling or stalling at idle.

Egr valve clogging

The Exhaust Gas Recirculation (EGR) valve can become clogged with carbon deposits, leading to rough idling, stalling, and reduced performance.

Fuel injector problems

The fuel injectors can become clogged or fail, leading to poor engine performance, misfires, and reduced fuel efficiency.

Cooling system issues

Radiators, hoses, and water pumps can develop leaks or fail, leading to engine overheating.

Spark plug wear

Spark plugs can wear out or foul over time, leading to poor engine performance, misfires, and decreased fuel efficiency.

Excessive engine vibration

Engine mounts can wear out, causing excessive engine vibration, which can be felt inside the cabin and lead to other mechanical issues.

HONDA Civic Type R 2019

The 2019 Honda Civic Type R TOURING is a high-performance hatchback powered by a 2.0L turbocharged K20C1 engine producing 306 hp. It features a 6-speed manual transmission, water cooling, and dual overhead cam (DOHC) valve train design. Safety includes front, side, and curtain airbags for all rows. Manufactured in Swindon, UK, this vehicle offers a dynamic driving experience with precise engineering.

Spec:

Engine Brake (hp) From

306

Engine Configuration

In-Line

Engine Manufacturer

Honda

Engine Model

K20C1

Engine Number of Cylinders

Engine Stroke Cycles

Problems:

Oil consumption

The K20C1 engine, like many high-performance engines, can consume more oil than average, especially under heavy driving conditions.

Turbocharger issues

The turbocharger in the K20C1 engine can sometimes face problems such as boost leaks, bearing wear, or wastegate issues.

Carbon buildup

Direct-injection engines like the K20C1 can suffer from carbon buildup on the intake valves, which can affect performance and fuel efficiency.

Cooling system problems

High-performance engines generate more heat, and the cooling system in the Civic Type R can be prone to issues such as radiator leaks or overheating.

Fuel injector problems

Over time, fuel injectors can become clogged or fail, leading to rough idling, misfires, or reduced performance.

Timing chain wear

The K20C1 engine uses a timing chain, which can stretch or wear out over time, potentially leading to timing issues.

Engine mount wear

The high torque and performance of the K20C1 can cause faster wear on engine mounts, leading to increased vibrations and noise.

Misfires

Issues such as faulty spark plugs, ignition coils, or fuel delivery problems can lead to engine misfires.

Head gasket failure

Although less common, high-performance driving can lead to head gasket failures, causing coolant leaks or overheating.

Sensor failures

Sensors such as the oxygen sensor, MAF sensor, or knock sensor can fail, leading to various engine performance issues.

HONDA Civic 1987

The 1987 Honda Civic CRX HF is a compact hatchback featuring a 1.5L inline-4 engine with 58 hp. Manufactured in Suzuka, Japan, it boasts a 5-speed manual transmission. Known for its fuel efficiency, this model is equipped with a SOHC valve train design. Ideal for those seeking a reliable and economical passenger car.

Spec:

Engine Brake (hp) From

Engine Configuration

In-Line

Engine Manufacturer

Honda

Engine Model

D15A2

Engine Number of Cylinders

Problems:

Oil leaks

Older engines like the D15A2 can develop oil leaks due to worn gaskets and seals.

Timing belt failure

The timing belt in older Honda engines typically requires regular replacement to prevent failure, which can cause significant engine damage.

Overheating

Aging cooling systems, including radiators and water pumps, can lead to overheating problems.

Idle fluctuations

Issues with the idle control valve or vacuum leaks can cause unstable engine idle.

Excessive engine noise

Worn components such as the timing belt tensioner or valve clearances can cause unusual engine noises.

Loss of power

General wear and tear can lead to decreased engine performance and power output.

Carbon build-up

Older engines can suffer from carbon deposits in the combustion chamber, affecting performance.

Fuel injector problems

Clogged or malfunctioning fuel injectors can lead to poor engine performance and fuel efficiency.

Ignition system issues

Worn spark plugs, ignition wires, or other ignition components can cause misfires and rough running.

Emissions failures

Older engines are more likely to fail modern emissions tests due to wear and outdated technology.

HONDA Civic Type R 2017

The 2017 Honda Civic Type R is a high-performance hatchback with a 2.0L turbocharged inline-4 engine producing 306 hp. It features comprehensive safety with airbags in all rows and advanced direct fuel injection. Manufactured in Swindon, UK, this model combines sporty dynamics with practical 5-door versatility.

Spec:

Engine Brake (hp) From

306

Engine Configuration

In-Line

Engine Manufacturer

Honda

Engine Model

K20C1

Engine Number of Cylinders

Engine Stroke Cycles

Problems:

Oil dilution

This problem occurs when fuel mixes with the engine oil, which can lead to reduced lubrication and increased engine wear. It is a known issue in turbocharged engines like the K20C1.

Turbocharger failure

The turbocharger can suffer from issues such as oil leaks or bearing wear, leading to a loss of power and efficiency.

Cooling system issues

The high-performance nature of this engine can cause increased heat, leading to potential cooling system failures if not properly maintained.

Carbon build-up

Direct-injection engines like the K20C1 are prone to carbon build-up on the intake valves, which can affect performance and fuel efficiency.

Timing chain tensioner problems

The timing chain tensioner may fail, leading to possible engine misalignment and severe engine damage if not addressed promptly.

Faulty fuel injectors

Fuel injectors can become clogged or fail, causing poor engine performance, misfires, and reduced fuel efficiency.

Ignition coil failures

Ignition coils can fail over time, leading to misfires and rough engine operation.

HONDA Civic Type R 2019

The 2019 Honda Civic Type R is a high-performance hatchback powered by a 2.0L turbocharged K20C1 engine producing 306 hp. It features a 6-speed manual transmission and is equipped with advanced safety features, including front, side, and curtain airbags. Built in Swindon, UK, this vehicle combines sporty design with practicality and safety.

Spec:

Engine Brake (hp) From

306

Engine Configuration

In-Line

Engine Manufacturer

Honda

Engine Model

K20C1

Engine Number of Cylinders

Engine Stroke Cycles

Problems:

Oil consumption

The K20C1 engine, like many high-performance engines, can consume more oil than average, especially under heavy driving conditions.

Turbocharger issues

The turbocharger in the K20C1 engine can sometimes face problems such as boost leaks, bearing wear, or wastegate issues.

Carbon buildup

Direct-injection engines like the K20C1 can suffer from carbon buildup on the intake valves, which can affect performance and fuel efficiency.

Cooling system problems

High-performance engines generate more heat, and the cooling system in the Civic Type R can be prone to issues such as radiator leaks or overheating.

Fuel injector problems

Over time, fuel injectors can become clogged or fail, leading to rough idling, misfires, or reduced performance.

Timing chain wear

The K20C1 engine uses a timing chain, which can stretch or wear out over time, potentially leading to timing issues.

Engine mount wear

The high torque and performance of the K20C1 can cause faster wear on engine mounts, leading to increased vibrations and noise.

Misfires

Issues such as faulty spark plugs, ignition coils, or fuel delivery problems can lead to engine misfires.

Head gasket failure

Although less common, high-performance driving can lead to head gasket failures, causing coolant leaks or overheating.

Sensor failures

Sensors such as the oxygen sensor, MAF sensor, or knock sensor can fail, leading to various engine performance issues.

HONDA Prelude 1987

The 1987 Honda Prelude Si is a stylish coupe powered by the A20A3 1.95L in-line 4-cylinder engine, producing 110 hp. With a 5-speed manual transmission and a lightweight design, it offers an engaging driving experience. Assembled in Saitama/Sayama, Japan, this classic model remains a beloved icon among enthusiasts.

Spec:

Engine Brake (hp) From

110

Engine Configuration

In-Line

Engine Manufacturer

Honda

Engine Model

A20A3

Engine Number of Cylinders

Engine Stroke Cycles

Problems:

Oil leaks

Common in older engines, often due to worn gaskets or seals.

Overheating

Can be caused by a malfunctioning radiator, thermostat, or water pump.

Timing belt issues

The timing belt may wear out or break, leading to engine misfires or failure.

Valve cover gasket leaks

Worn gaskets can lead to oil leaks around the valve cover.

Ignition system failure

Spark plugs, wires, or distributor issues can cause misfires or poor performance.

Fuel system problems

Clogged fuel injectors or a failing fuel pump can lead to poor engine performance.

Vacuum leaks

Cracked or disconnected vacuum hoses can cause rough idling and poor fuel economy.

Sensor failures

Older engines may experience issues with sensors like the oxygen sensor or throttle position sensor.

Carbon build-up

Over time, carbon deposits can accumulate in the combustion chamber, affecting performance.

Worn engine mounts

Can lead to increased engine vibrations and noise.

HONDA Prelude 1996

The 1996 Honda Prelude V-TEC is a sporty coupe powered by a 2.2L H22A1 in-line 4-cylinder engine, delivering 190 hp. Manufactured in Sayama, Japan, this sleek vehicle features a manual transmission and a DOHC valve train design. Safety is enhanced with front airbags for both driver and passenger. Its compact and lightweight design makes it a nimble and responsive ride.

Spec:

Engine Brake (hp) From

190

Engine Configuration

In-Line

Engine Manufacturer

Honda

Engine Model

H22A1

Engine Number of Cylinders

Problems:

Oil leaks

The H22A1 engine is known for oil leaks, particularly around the valve cover gasket, oil pan gasket, and cam seals.

Timing belt issues

The timing belt can wear out or break, which may cause serious engine damage. Regular replacement is crucial.

Head gasket failure

The H22A1 can suffer from head gasket issues, leading to coolant leaks and overheating.

Distributor problems

Issues with the distributor, such as failed O-rings or internal components, can cause misfires or engine starting problems.

Valve wear

Valves and valve seats can wear out over time, leading to a loss of compression and decreased engine performance.

Idle control valve

The Idle Air Control (IAC) valve may become clogged or fail, causing erratic idling or stalling.

Coolant leaks

Due to the age of the vehicle, coolant hoses and the radiator can develop leaks, leading to overheating.

ACURA TSX 2011

The 2011 Acura TSX Wagon, manufactured by Honda Motor Co., Ltd. in Sayama, Japan, features a 2.4L in-line 4-cylinder engine producing 201 hp. This passenger car is equipped with comprehensive safety features, including curtain airbags in the 1st and 2nd rows and side airbags for the driver and passenger. With a 5-speed automatic transmission and a gross vehicle weight rating of Class 1C, it offers a blend of performance and safety.

Spec:

Engine Brake (hp) From

201

Engine Brake (hp) To

201

Engine Configuration

In-Line

Engine Manufacturer

Honda

Engine Model

K24Z3

Engine Number of Cylinders

Engine Stroke Cycles

Problems:

Oil consumption

The K24Z3 engine is known to consume oil more than usual, which can lead to low oil levels and potential engine damage if not monitored regularly.

Timing chain wear

Over time, the timing chain can stretch or wear out, leading to poor engine performance and potential failure if not replaced.

Carbon build-up

Direct injection engines like the K24Z3 can suffer from carbon build-up on the intake valves, affecting performance and fuel efficiency.

Vtc actuator noise

The Variable Timing Control (VTC) actuator can become noisy, especially during cold starts, indicating potential wear or failure.

Engine mount failure

The engine mounts on the 2011 Acura TSX can wear out, leading to increased vibrations and potentially damaging other engine components.

HONDA Accord 1991

The 1991 Honda Accord LX Coupe is a classic 2-door vehicle powered by a 2.2L In-Line 4-cylinder engine, producing 125 hp. Manufactured by American Honda Motor Co., Inc. in Marysville, Ohio, this model features a 5-speed manual transmission and SOHC valve train design. It offers a balance of performance and efficiency, making it a popular choice among enthusiasts.

Spec:

Engine Brake (hp) From

125

Engine Configuration

In-Line

Engine Manufacturer

Honda

Engine Model

F22A1

Engine Number of Cylinders

Problems:

Oil leaks

The F22A1 engine in the 1991 Honda Accord is known for developing oil leaks, particularly from the valve cover gasket, oil pan gasket, and crankshaft seals.

Timing belt wear

Head gasket failure

Over time, the head gasket can fail, leading to coolant mixing with the engine oil or causing the engine to overheat.

Distributor issues

The distributor in the F22A1 engine can develop problems such as oil leaks and electrical failures, which can cause misfires and starting issues.

Idle control problems

The idle air control valve can get dirty or fail, causing erratic idling or stalling at idle.

Egr valve clogging

The Exhaust Gas Recirculation (EGR) valve can become clogged with carbon deposits, leading to rough idling, stalling, and reduced performance.

Fuel injector problems

The fuel injectors can become clogged or fail, leading to poor engine performance, misfires, and reduced fuel efficiency.

Cooling system issues

Radiators, hoses, and water pumps can develop leaks or fail, leading to engine overheating.

Spark plug wear

Spark plugs can wear out or foul over time, leading to poor engine performance, misfires, and decreased fuel efficiency.

Excessive engine vibration

Engine mounts can wear out, causing excessive engine vibration, which can be felt inside the cabin and lead to other mechanical issues.

HONDA Civic 2017

The 2017 Honda Civic Si/Si HPT is a sleek passenger car equipped with a 1.5L turbocharged engine producing 205 hp. It features a 6-speed manual transmission, Dynamic Brake Support (DBS), and a host of safety systems including ABS, ESC, and a backup camera. This left-hand drive vehicle seats up to five passengers and offers modern conveniences like keyless ignition and Blind Spot Warning (BSW). Priced at $23,900, it combines performance and safety in a stylish package manufactured in Alliston, Ontario.

Spec:

Dynamic Brake Support (DBS)

Standard

Engine Brake (hp) From

205

Engine Configuration

In-Line

Engine Manufacturer

Honda

Engine Model

L15B7

Engine Number of Cylinders

Engine Stroke Cycles

Other Engine Info

Direct Fuel Injection

Problems:

Dynamic brake support (dbs) malfunction

The DBS system may not activate correctly, potentially leading to reduced braking assistance in emergency situations.

Turbocharger issues

The L15B7 engine is turbocharged, and common problems can include turbo lag, failure, or reduced boost pressure.

Oil dilution

Direct fuel injection engines, such as the L15B7, can suffer from fuel mixing with oil, leading to reduced lubrication and potential engine damage.

Carbon buildup

Direct injection engines are prone to carbon buildup on intake valves, which can affect performance and fuel economy.

Timing chain wear

Over time, the timing chain can stretch or wear, leading to potential engine timing issues or failure.

Cvt transmission problems

Many 2017 Honda Civics come with a CVT, which can have issues such as shuddering, slipping, or premature wear.

Cooling system issues

The turbocharged engine generates more heat, which can lead to cooling system problems such as radiator or water pump failure.

Ignition coil failure

The ignition coils can fail over time, leading to misfires or poor engine performance.

Fuel pump failure

Direct injection systems rely on high-pressure fuel pumps, which can fail and cause starting or performance issues.

Sensor failures

Modern engines have numerous sensors (e.g., oxygen sensor, mass air flow sensor) that can fail and lead to poor performance or check engine light activation.

HONDA del Sol 1994

The 1994 Honda del Sol is a sporty coupe equipped with a 1.6L in-line 4-cylinder engine (D16Z6) producing 125 hp. This two-door, manual transmission vehicle offers a fun and engaging driving experience. Manufactured in Suzuka, Japan, it's part of Honda's legacy of reliable and efficient passenger cars.

Spec:

Engine Brake (hp) From

125

Engine Configuration

In-Line

Engine Manufacturer

Honda

Engine Model

D16Z6

Engine Number of Cylinders

Problems:

Oil leaks

Common in older Honda engines, especially around the valve cover gasket and oil pan gasket.

Timing belt issues

The timing belt should be replaced at regular intervals to prevent it from breaking, which can cause severe engine damage.

Head gasket failure

Known to occur in the D16Z6, leading to coolant leaks and overheating.

Distributor problems

The distributor in the D16Z6 can fail, leading to ignition issues and misfires.

Idle fluctuations

Often caused by a dirty or faulty idle air control valve or vacuum leaks.

Egr valve issues

Can become clogged or malfunction, leading to poor engine performance and increased emissions.

Coolant leaks

Common areas include the radiator, hoses, and water pump, which can lead to overheating if not addressed.

Worn engine mounts

Can cause excessive engine vibration and noise.

Fuel injector problems

Dirty or failing fuel injectors can cause poor fuel economy and engine performance.

Oxygen sensor failure

Can lead to incorrect air-fuel mixture readings, affecting engine performance and emissions.

HONDA Civic 1994

The 1994 Honda Civic CX is a 3-door hatchback featuring a 1.5L In-Line 4-cylinder engine with a D15B8 model, producing 70 horsepower. It uses multipoint fuel injection (MPFI) and runs on gasoline. Built in Alliston, Ontario by HONDA OF CANADA MFG., INC., this vehicle comes with a 5-speed manual transmission and front airbags for the driver and passenger. Its lightweight design falls under Class 1 with a gross vehicle weight rating of 6,000 lb or less.

Spec:

Engine Brake (hp) From

Engine Configuration

In-Line

Engine Manufacturer

Honda

Engine Model

D15B8

Engine Number of Cylinders

Problems:

Oil leaks

The 1994 Honda Civic with the D15B8 engine is known to develop oil leaks over time, particularly around the valve cover gasket and oil pan gasket.

Timing belt wear

The D15B8 engine uses a timing belt, which can wear out or break if not replaced at recommended intervals, leading to potential engine damage.

Idle fluctuations

Idle issues can occur due to problems with the idle air control valve or vacuum leaks in this engine model.

Coolant leaks

Coolant leaks from the radiator, hoses, or head gasket are common issues that can lead to overheating if not addressed.

Distributor problems

The distributor in this engine can fail, leading to issues with starting, misfires, or stalling.

Head gasket failure

Overheating or high mileage can cause the head gasket to fail, leading to coolant and oil mixing, which can result in severe engine damage.

Egr valve issues

The Exhaust Gas Recirculation (EGR) valve can become clogged or fail, leading to poor engine performance and increased emissions.

Fuel injector problems

Clogged or malfunctioning fuel injectors can cause poor engine performance, reduced fuel efficiency, and misfires.

ACURA TSX 2012

The 2012 Acura TSX Wagon, manufactured by Honda Motor Co., Ltd. in Sayama, Japan, features a 2.4L in-line 4-cylinder engine producing 201 hp. It comes equipped with multipoint fuel injection, curtain airbags for the 1st and 2nd rows, and side airbags for the front seats. This versatile 5-door passenger car includes a direct TPMS and manual seat belts for added safety.

Spec:

Engine Brake (hp) From

201

Engine Brake (hp) To

201

Engine Configuration

In-Line

Engine Manufacturer

Honda

Engine Model

K24Z3

Engine Number of Cylinders

Engine Stroke Cycles

Problems:

Oil consumption

The K24Z3 engine is known to consume oil at a higher rate than usual, which may require frequent top-offs between oil changes.

Timing chain wear

The timing chain in this engine can stretch over time, causing rattling noises and potentially leading to engine timing issues.

Vtc actuator failure

The Variable Timing Control (VTC) actuator can fail, resulting in a rattling noise at startup and potential performance issues.

Spark plug fouling

Due to oil consumption or other factors, spark plugs can foul more frequently, leading to misfires and reduced engine performance.

Water pump failure

The water pump can fail prematurely, leading to overheating issues and potential engine damage if not addressed promptly.

Valve cover gasket leaks

The valve cover gasket can degrade over time, causing oil leaks that may lead to engine bay contamination and potential fire hazards.

Egr valve problems

The Exhaust Gas Recirculation (EGR) valve can become clogged or fail, leading to rough idling, reduced fuel efficiency, and increased emissions.

Pcv valve issues

The Positive Crankcase Ventilation (PCV) valve can become clogged or fail, causing increased oil consumption, oil leaks, and potential engine performance issues.

HONDA Prelude 1993

The 1993 Honda Prelude Si is a stylish 2-door coupe powered by a 2.3L H23A1 inline-4 engine, producing 160 hp. Manufactured in Sayama, Japan, this vehicle features a DOHC valve train design and uses gasoline as its primary fuel. With a manual seat belt and a driver seat-only front airbag, it falls under the Class 1 weight category (up to 6,000 lbs). The Prelude Si is a classic example of Honda's engineering prowess.

Spec:

Engine Brake (hp) From

160

Engine Configuration

In-Line

Engine Manufacturer

Honda

Engine Model

H23A1

Engine Number of Cylinders

Problems:

Oil leaks

The H23A1 engine is known to develop oil leaks around the valve cover gasket and oil pan gasket over time.

Timing belt issues

The timing belt needs regular replacement; failure to do so can result in serious engine damage.

Distributor problems

This engine can suffer from distributor issues, leading to misfires and poor engine performance.

Head gasket failure

Overheating or long-term wear can cause the head gasket to fail, leading to coolant leaks and engine overheating.

Egr valve issues

The Exhaust Gas Recirculation (EGR) valve can become clogged or fail, affecting engine efficiency and emissions.

Idle air control valve failure

The Idle Air Control (IAC) valve may fail, causing rough idling or stalling problems.

Fuel injector problems

Dirty or faulty fuel injectors can lead to poor fuel economy and performance issues.

Cooling system failures

Radiator or water pump issues can lead to overheating, especially in older vehicles.

ACURA TSX 2011

The 2011 ACURA TSX Wagon, manufactured by Honda in Japan, features a 2.4L in-line 4-cylinder engine producing 201 hp. It boasts a comprehensive array of safety features, including curtain airbags for both the 1st and 2nd rows and side airbags for the front row. This vehicle is equipped with a 5-speed automatic transmission and uses a multipoint fuel injection system. Ideal for families, it combines performance with robust safety systems.

Spec:

Engine Brake (hp) From

201

Engine Brake (hp) To

201

Engine Configuration

In-Line

Engine Manufacturer

Honda

Engine Model

K24Z3

Engine Number of Cylinders

Engine Stroke Cycles

Problems:

Oil consumption

The K24Z3 engine is known to consume oil more than usual, which can lead to low oil levels and potential engine damage if not monitored regularly.

Timing chain wear

Over time, the timing chain can stretch or wear out, leading to poor engine performance and potential failure if not replaced.

Carbon build-up

Direct injection engines like the K24Z3 can suffer from carbon build-up on the intake valves, affecting performance and fuel efficiency.

Vtc actuator noise

The Variable Timing Control (VTC) actuator can become noisy, especially during cold starts, indicating potential wear or failure.

Engine mount failure

The engine mounts on the 2011 Acura TSX can wear out, leading to increased vibrations and potentially damaging other engine components.

HONDA Civic 1987

The 1987 Honda Civic CRX Si is a sporty hatchback featuring a 1.5L inline-4 D15A3 engine producing 91 hp. It boasts a 5-speed manual transmission and was manufactured in Suzuka, Japan. This model is known for its lightweight design and engaging driving experience.

Spec:

Engine Brake (hp) From

Engine Configuration

In-Line

Engine Manufacturer

Honda

Engine Model

D15A3

Engine Number of Cylinders

Problems:

Oil leaks

Older engines like the 1987 Honda Civic's D15A3 are prone to developing oil leaks due to worn-out gaskets and seals.

Timing belt wear

The timing belt in this model can wear out over time and may lead to engine failure if not replaced at recommended intervals.

Head gasket failure

This inline-4 engine can experience head gasket issues, leading to coolant leaks and engine overheating.

Valve cover gasket leaks

The valve cover gasket may degrade and cause oil leaks in older engines such as the D15A3.

Carburetor issues

As a carbureted engine, the D15A3 may face problems like clogging or poor adjustment, affecting performance and fuel economy.

Ignition system problems

Older ignition systems may suffer from worn-out spark plugs, distributor caps, and ignition coils, leading to misfires and poor engine performance.

Cooling system failures

Radiators, hoses, and water pumps can deteriorate over time, leading to potential overheating issues.

Exhaust manifold cracks

The exhaust manifold of an older engine may develop cracks, causing exhaust leaks and increased noise.

Fuel pump wear

Mechanical fuel pumps in older vehicles can wear out, leading to fuel delivery issues and engine stalling.

HONDA Civic Type R 2019

The 2019 Honda Civic Type R is a high-performance hatchback powered by a 2.0L turbocharged K20C1 engine, producing 306 hp. It features a 6-speed manual transmission and advanced safety with airbags in all rows. Built in Swindon, UK, this vehicle offers a blend of power and practicality with its 5-door configuration.

Spec:

Engine Brake (hp) From

306

Engine Configuration

In-Line

Engine Manufacturer

Honda

Engine Model

K20C1

Engine Number of Cylinders

Engine Stroke Cycles

Problems:

Oil consumption

The K20C1 engine, like many high-performance engines, can consume more oil than average, especially under heavy driving conditions.

Turbocharger issues

The turbocharger in the K20C1 engine can sometimes face problems such as boost leaks, bearing wear, or wastegate issues.

Carbon buildup

Direct-injection engines like the K20C1 can suffer from carbon buildup on the intake valves, which can affect performance and fuel efficiency.

Cooling system problems

High-performance engines generate more heat, and the cooling system in the Civic Type R can be prone to issues such as radiator leaks or overheating.

Fuel injector problems

Over time, fuel injectors can become clogged or fail, leading to rough idling, misfires, or reduced performance.

Timing chain wear

The K20C1 engine uses a timing chain, which can stretch or wear out over time, potentially leading to timing issues.

Engine mount wear

The high torque and performance of the K20C1 can cause faster wear on engine mounts, leading to increased vibrations and noise.

Misfires

Issues such as faulty spark plugs, ignition coils, or fuel delivery problems can lead to engine misfires.

Head gasket failure

Although less common, high-performance driving can lead to head gasket failures, causing coolant leaks or overheating.

Sensor failures

Sensors such as the oxygen sensor, MAF sensor, or knock sensor can fail, leading to various engine performance issues.

HONDA Civic 2017

The 2017 Honda Civic Si/Si HPT is a sporty passenger car with a 1.5L turbocharged engine producing 205 hp. It features a 6-speed manual transmission, standard Dynamic Brake Support (DBS), Anti-lock Braking System (ABS), and a Blind Spot Warning (BSW). Notable for its safety, it includes front, side, and curtain airbags, along with Electronic Stability Control (ESC). Priced at $23,900, it promises a thrilling drive with a top speed of 130 MPH.

Spec:

Dynamic Brake Support (DBS)

Standard

Engine Brake (hp) From

205

Engine Configuration

In-Line

Engine Manufacturer

Honda

Engine Model

L15B7

Engine Number of Cylinders

Engine Stroke Cycles

Other Engine Info

Direct Fuel Injection

Problems:

Dynamic brake support (dbs) malfunction

The DBS system may not activate correctly, potentially leading to reduced braking assistance in emergency situations.

Turbocharger issues

The L15B7 engine is turbocharged, and common problems can include turbo lag, failure, or reduced boost pressure.

Oil dilution

Direct fuel injection engines, such as the L15B7, can suffer from fuel mixing with oil, leading to reduced lubrication and potential engine damage.

Carbon buildup

Direct injection engines are prone to carbon buildup on intake valves, which can affect performance and fuel economy.

Timing chain wear

Over time, the timing chain can stretch or wear, leading to potential engine timing issues or failure.

Cvt transmission problems

Many 2017 Honda Civics come with a CVT, which can have issues such as shuddering, slipping, or premature wear.

Cooling system issues

The turbocharged engine generates more heat, which can lead to cooling system problems such as radiator or water pump failure.

Ignition coil failure

The ignition coils can fail over time, leading to misfires or poor engine performance.

Fuel pump failure

Direct injection systems rely on high-pressure fuel pumps, which can fail and cause starting or performance issues.

Sensor failures

Modern engines have numerous sensors (e.g., oxygen sensor, mass air flow sensor) that can fail and lead to poor performance or check engine light activation.

ACURA TSX 2011

The 2011 Acura TSX Wagon, crafted by Honda, features a 2.4L in-line 4-cylinder engine producing 201 hp. Equipped with multipoint fuel injection, it offers comprehensive safety with air bags in the 1st and 2nd rows, including curtain and side airbags. Manufactured in Sayama, Japan, this Tech trim model also includes a 5-speed automatic transmission and a direct TPMS system.

Spec:

Engine Brake (hp) From

201

Engine Brake (hp) To

201

Engine Configuration

In-Line

Engine Manufacturer

Honda

Engine Model

K24Z3

Engine Number of Cylinders

Engine Stroke Cycles

Problems:

Oil consumption

The K24Z3 engine is known to consume oil more than usual, which can lead to low oil levels and potential engine damage if not monitored regularly.

Timing chain wear

Over time, the timing chain can stretch or wear out, leading to poor engine performance and potential failure if not replaced.

Carbon build-up

Direct injection engines like the K24Z3 can suffer from carbon build-up on the intake valves, affecting performance and fuel efficiency.

Vtc actuator noise

The Variable Timing Control (VTC) actuator can become noisy, especially during cold starts, indicating potential wear or failure.

Engine mount failure

The engine mounts on the 2011 Acura TSX can wear out, leading to increased vibrations and potentially damaging other engine components.

HONDA Civic Type R 2023

The 2023 Honda Civic Type R is a high-performance passenger car featuring a 2.0L turbocharged K20C1 engine that produces 315 hp. Equipped with advanced safety features like Dynamic Brake Support, Lane Departure Warning, and Pedestrian Automatic Emergency Braking, it offers a secure driving experience. The vehicle includes standard amenities such as Adaptive Cruise Control, a backup camera, and keyless ignition. With seating for five and numerous airbags, it ensures both comfort and safety for all passengers.

Spec:

Dynamic Brake Support (DBS)

Standard

Engine Brake (hp) From

315

Engine Configuration

In-Line

Engine Manufacturer

Honda

Engine Model

K20C1

Engine Number of Cylinders

Engine Stroke Cycles

Other Engine Info

Direct Fuel Injection

Problems:

Engine misfire

Misfires can occur due to issues with fuel injectors, spark plugs, or ignition coils, leading to poor engine performance and increased emissions.

Turbocharger failure

Turbocharger issues can arise from oil contamination, lack of lubrication, or foreign object damage, causing reduced power and efficiency.

Fuel system problems

Direct fuel injection systems can face clogging or injector failures, which can result in poor fuel economy, rough idling, and difficulty starting.

Oil leaks

Oil leaks can stem from faulty gaskets, seals, or oil pans, which can lead to engine damage if not addressed promptly.

Cooling system failures

Problems with the cooling system, such as radiator leaks, thermostat failures, or water pump issues, can cause the engine to overheat.

Ecu malfunctions

The Engine Control Unit (ECU) can suffer from software glitches or sensor failures, leading to incorrect engine management and performance issues.

Timing chain/belt issues

Wear and tear on the timing chain or belt can cause it to slip or break, leading to significant engine damage.

Exhaust system problems

Exhaust leaks, catalytic converter failures, or muffler issues can result in increased emissions and noise, as well as reduced engine performance.

Valve train issues

Problems with the valve train, such as worn camshafts or lifters, can lead to poor engine compression and decreased power output.

Knocking/pinging sounds

These noises can indicate pre-ignition or detonation problems, often caused by incorrect fuel octane rating, engine timing issues, or carbon buildup in the combustion chambers.