Auto Parts – What You Need to Know
When it comes to replacing parts in your car, there are various options available to you. Some parts are produced by original equipment manufacturers (OEM), while others come from third-party providers. Auto parts play an integral part in keeping your […]
When it comes to replacing parts in your car, there are various options available to you. Some parts are produced by original equipment manufacturers (OEM), while others come from third-party providers.
Auto parts play an integral part in keeping your vehicle operating smoothly and safely. If you plan on selling your car in the future, investing in high-quality replacement parts could be essential for its saleability.
Brake pads are an integral component of a vehicle’s brake system. They transform kinetic energy from the pedal into hydraulic pressure that transmits it directly to a caliper and then back out again.
When a caliper squeezes or clamps brake pads onto a disc-shaped rotor, frictional force creates friction to slow and eventually stop a vehicle. Brake pads and rotors are made from various materials with unique properties and advantages and disadvantages that vary according to each material type.
Brake pads typically last about 25,000 miles before needing replacing, although this number varies depending on your driving style and where you drive.
Axles are essential parts of any vehicle. They help transmit power from the engine to the wheels for an uninterrupted ride.
The front axle serves to both absorb shocks and guide steering of the car, as well as handle bumps or humps on uneven road surfaces.
Cars feature several distinct axle types. This can include dead front axle, live front axle and semi-floating axles.
Semi-floating axles feature two bearings to support and secure the axle shaft and are widely used on medium-sized trucks, half ton pickups, and some SUVs.
Fuel injectors are one of the most crucial auto parts, as they play a vital role in engine performance. By dispensing precisely calculated doses of fuel at precisely calculated times, these auto parts ensure maximum engine efficiency.
Your engine’s computer monitors its injection system, using information gathered by various sensors such as manifold absolute pressure and engine speed sensors to optimize performance. Two such sensors that play a vital role are the manifold absolute pressure and engine speed sensors.
Your fuel injector is a small device used to inject gasoline or diesel directly into the combustion chamber of your engine. Your computer controls when and how much fuel should be released – assuring that its proper amounts reach its destination at exactly the right time.
The alternator is an essential part of your car’s charging system and helps ensure its battery is charged, providing power to all of its electrical accessories. When this component begins to malfunction, light dim or flicker while radio stop working altogether – potentially leaving your ride vulnerable and unsafe for travel.
Mechanical energy generated from your engine is transferred via a pulley on the crank shaft and serpentine belt to an alternator, where its rotating rotor uses magnetism to generate electricity for your car.
Electricity generated in a power plant is fed directly into a car’s electrical system via its voltage regulator, where it then flows directly to its electronics and functions properly, prompting a check engine light.
A battery is an electrochemical device used to convert chemical energy into electrical energy. It consists of two electrodes made up of different chemicals – an anode and cathode – connected by an electrolyte fluid between their terminals and is separated by an anode/cathode separator.
When connected to devices, such as your watch or laptop, batteries release electrons from their anode while sucking them back up from their cathode, creating electricity through what’s known as the redox reaction process.
Batteries come in all shapes and sizes, from tiny cells used in hearing aids to massive banks that power renewable power plants. Batteries boast high energy densities which enable them to store large amounts of electricity within limited spaces.