Most Common Car Issues

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MOST COMMON PROBLEMS

MAZDA RX-7 1988

The 1988 Mazda RX-7 is a sleek coupe powered by a 1.3L engine, producing between 132 to 160 horsepower. Manufactured in Hiroshima, Japan, this two-door sports car runs on gasoline and falls under a Class 1 weight rating. Known for its rotary engine, the RX-7 remains an iconic model from Mazda.

Spec:

Engine Brake (hp) From
132
Engine Brake (hp) To
160
Engine Model
N3

Problems:

Rotor apex seal wear
The RX-7's rotary engine can suffer from worn rotor apex seals, which can lead to a loss of compression and power.
Engine overheating
Rotary engines can be prone to overheating if the cooling system is not properly maintained or if the engine is pushed too hard.
Oil consumption
Rotary engines generally consume more oil than piston engines, requiring frequent checks and top-offs.
Carbon buildup
Carbon deposits can accumulate on the rotor tips and combustion chambers, leading to poor engine performance.
Vacuum leaks
Older RX-7 models can develop vacuum leaks, which can cause rough idling and poor engine performance.
Fuel injector problems
Fuel injectors can become clogged or fail, leading to issues with fuel delivery and engine performance.
Ignition system failure
The ignition system, including spark plugs and ignition coils, can wear out and fail, causing misfires and poor engine performance.
MAZDA RX-7 1986

The 1986 Mazda RX-7 is a sleek coupe powered by a 1.3L rotary engine, delivering between 132 to 160 horsepower. Manufactured by Mazda Motor Corporation in Hiroshima, Japan, this two-door sports car runs on gasoline and falls under the Class 1 weight category. A true icon from the 80s, it offers a thrilling driving experience.

Spec:

Engine Brake (hp) From
132
Engine Brake (hp) To
160
Engine Model
N3

Problems:

Overheating
The rotary engine in the Mazda RX-7 is known to run hot, leading to potential overheating issues if the cooling system is not properly maintained.
Apex seal wear
The rotary engine's apex seals can wear out quickly, leading to compression loss and poor engine performance.
Oil consumption
Rotary engines tend to consume more oil by design, so oil levels need to be monitored frequently to avoid engine damage.
Vacuum leaks
Older RX-7 models like the 1986 can develop vacuum leaks, leading to erratic idling and performance issues.
Fuel system issues
The fuel injectors or fuel pump could become clogged or fail, leading to poor engine performance or stalling.
Ignition problems
Faulty spark plugs, ignition coils, or distributor issues can cause misfires or difficulty starting the engine.
MAZDA RX-7 1988

The 1988 Mazda RX-7 Convertible is a classic sports car with a 1.3L engine producing between 132 to 160 horsepower. Made by Mazda Motor Corporation in Hiroshima, Japan, this two-door beauty runs on gasoline and falls under the Class 1 weight rating. Its sleek design and rotary engine make it a standout among convertibles.

Spec:

Engine Brake (hp) From
132
Engine Brake (hp) To
160
Engine Model
N3

Problems:

Rotor apex seal wear
The RX-7's rotary engine can suffer from worn rotor apex seals, which can lead to a loss of compression and power.
Engine overheating
Rotary engines can be prone to overheating if the cooling system is not properly maintained or if the engine is pushed too hard.
Oil consumption
Rotary engines generally consume more oil than piston engines, requiring frequent checks and top-offs.
Carbon buildup
Carbon deposits can accumulate on the rotor tips and combustion chambers, leading to poor engine performance.
Vacuum leaks
Older RX-7 models can develop vacuum leaks, which can cause rough idling and poor engine performance.
Fuel injector problems
Fuel injectors can become clogged or fail, leading to issues with fuel delivery and engine performance.
Ignition system failure
The ignition system, including spark plugs and ignition coils, can wear out and fail, causing misfires and poor engine performance.
MAZDA RX-7 1988

The 1988 Mazda RX-7 is a classic coupe featuring a 1.3L engine with a horsepower range of 132 to 160. Manufactured by Mazda Motor Corporation in Hiroshima, Japan, this two-door sports car runs on gasoline and falls under the Class 1 weight rating. Known for its rotary engine (Model N3), the RX-7 remains a beloved choice for car enthusiasts.

Spec:

Engine Brake (hp) From
132
Engine Brake (hp) To
160
Engine Model
N3

Problems:

Rotor apex seal wear
The RX-7's rotary engine can suffer from worn rotor apex seals, which can lead to a loss of compression and power.
Engine overheating
Rotary engines can be prone to overheating if the cooling system is not properly maintained or if the engine is pushed too hard.
Oil consumption
Rotary engines generally consume more oil than piston engines, requiring frequent checks and top-offs.
Carbon buildup
Carbon deposits can accumulate on the rotor tips and combustion chambers, leading to poor engine performance.
Vacuum leaks
Older RX-7 models can develop vacuum leaks, which can cause rough idling and poor engine performance.
Fuel injector problems
Fuel injectors can become clogged or fail, leading to issues with fuel delivery and engine performance.
Ignition system failure
The ignition system, including spark plugs and ignition coils, can wear out and fail, causing misfires and poor engine performance.
MAZDA RX-7 1988

The 1988 Mazda RX-7 Convertible/Cabriolet is a stylish two-door sports car powered by a 1.3L N3 gasoline engine, delivering between 132 to 160 horsepower. Manufactured by Mazda Motor Corporation in Hiroshima, Japan, this lightweight Class 1 vehicle offers an exhilarating driving experience with its manual seat belts and classic design.

Spec:

Engine Brake (hp) From
132
Engine Brake (hp) To
160
Engine Model
N3

Problems:

Rotor apex seal wear
The RX-7's rotary engine can suffer from worn rotor apex seals, which can lead to a loss of compression and power.
Engine overheating
Rotary engines can be prone to overheating if the cooling system is not properly maintained or if the engine is pushed too hard.
Oil consumption
Rotary engines generally consume more oil than piston engines, requiring frequent checks and top-offs.
Carbon buildup
Carbon deposits can accumulate on the rotor tips and combustion chambers, leading to poor engine performance.
Vacuum leaks
Older RX-7 models can develop vacuum leaks, which can cause rough idling and poor engine performance.
Fuel injector problems
Fuel injectors can become clogged or fail, leading to issues with fuel delivery and engine performance.
Ignition system failure
The ignition system, including spark plugs and ignition coils, can wear out and fail, causing misfires and poor engine performance.
MERCURY Capri 1992

The 1992 Mercury Capri XR2 is a stylish convertible/cabriolet, powered by a turbocharged 1.6L inline-4 engine producing 132 hp. Manufactured by Ford Motor Co of Australia Ltd., this model is a unique blend of sporty performance and classic design. With a manual seat belt type and driver seat airbag, it offers a distinctive driving experience. This flexible fuel vehicle was produced in Campbellfield, Victoria, Australia.

Spec:

Engine Brake (hp) From
132
Engine Configuration
In-Line
Engine Manufacturer
Mazda
Engine Number of Cylinders
4
Other Engine Info
Flexible Fuel Vehicle

Problems:

Oil leaks
Common in older inline-4 engines, which can lead to decreased engine performance and potential damage if not addressed.
Overheating
May occur due to issues with the cooling system, such as a faulty radiator, water pump, or thermostat.
Vacuum leaks
Can cause rough idling, poor fuel economy, and engine stalling, particularly in older vehicles.
Ignition system failure
Problems with spark plugs, ignition coils, or the distributor can lead to misfires and starting issues.
Timing belt/chain issues
Wear and tear on the timing belt or chain can cause poor engine performance or even catastrophic engine failure if it breaks.
Fuel system problems
Issues with the fuel pump, injectors, or fuel filter can lead to engine hesitation, poor acceleration, and stalling.
Head gasket failure
Can cause coolant leaks, overheating, and significant engine damage if not repaired.
Carbon buildup
Over time, carbon deposits can accumulate in the engine, leading to reduced performance and efficiency.
Sensor failures
Faulty sensors, such as the oxygen sensor or MAF sensor, can negatively impact engine performance and fuel economy.
Flexible fuel system issues
Flexible fuel vehicles may experience problems related to the use of various fuel types, potentially affecting engine performance and longevity.
MAZDA RX-7 1988

The 1988 Mazda RX-7 Convertible is a stylish Japanese sports car with a 1.3L rotary engine delivering between 132 to 160 hp. Manufactured by Mazda in Hiroshima, this two-door cabriolet runs on gasoline and is categorized under Class 1 for its lightweight build. A true classic for car enthusiasts, offering both performance and open-air driving pleasure.

Spec:

Engine Brake (hp) From
132
Engine Brake (hp) To
160
Engine Model
N3

Problems:

Rotor apex seal wear
The RX-7's rotary engine can suffer from worn rotor apex seals, which can lead to a loss of compression and power.
Engine overheating
Rotary engines can be prone to overheating if the cooling system is not properly maintained or if the engine is pushed too hard.
Oil consumption
Rotary engines generally consume more oil than piston engines, requiring frequent checks and top-offs.
Carbon buildup
Carbon deposits can accumulate on the rotor tips and combustion chambers, leading to poor engine performance.
Vacuum leaks
Older RX-7 models can develop vacuum leaks, which can cause rough idling and poor engine performance.
Fuel injector problems
Fuel injectors can become clogged or fail, leading to issues with fuel delivery and engine performance.
Ignition system failure
The ignition system, including spark plugs and ignition coils, can wear out and fail, causing misfires and poor engine performance.
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