Most Common Car Issues
Selected parameters
Model
KANDI
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MOST COMMON PROBLEMS
KANDI KANDI 2021
The 2021 KANDI Low Speed Vehicle (LSV) is a Battery Electric Vehicle (BEV) manufactured by SC AUTOSPORTS, LLC in Garland, Texas. With a hydraulic brake system and engine power of 45 kW, it comfortably seats four passengers. This neighborhood electric vehicle features 3-point harness seat belts for both driver and passengers and falls within the Class 1A weight category, making it ideal for local commutes.
Spec:
Brake System Type
Hydraulic
Engine Power (kW)
45
Problems:
Brake fluid leaks
Hydraulic brake systems rely on brake fluid to function properly. Leaks can occur in the brake lines, hoses, or master cylinder, leading to reduced braking efficiency or brake failure.
Brake pedal sponginess
Air can become trapped in the hydraulic brake lines, causing the brake pedal to feel spongy and reducing braking effectiveness.
Worn brake pads
Over time, brake pads wear down and need to be replaced. Worn brake pads can lead to reduced braking performance and increased stopping distances.
Brake rotor damage
Brake rotors can become warped or damaged due to excessive heat or wear. This can cause vibrations or pulsations when braking.
Master cylinder failure
The master cylinder is a critical component in hydraulic brake systems. If it fails, the entire brake system can lose pressure, resulting in brake failure.
Contaminated brake fluid
Brake fluid can become contaminated with moisture or debris, leading to corrosion and reduced braking performance.
Brake caliper sticking
Brake calipers can become stuck, causing uneven brake pad wear and reduced braking effectiveness.
Abs issues
If the vehicle is equipped with an Anti-lock Braking System (ABS), sensor or module failures can lead to malfunctioning ABS, affecting braking performance.
Brake light malfunction
Faulty brake light switches or wiring issues can cause the brake lights to malfunction, leading to safety concerns.
Brake booster failure
The brake booster helps reduce the effort required to apply the brakes. If it fails, the driver may need to exert more force to stop the vehicle, potentially leading to longer stopping distances.