Car Brakes Explained

In some parts of the world, the cars brakes only rank second in importance after the horn. Of course, the horn is extremely useful in preventing collisions by alerting other vehicles on the road and passersby on the pedestrian crossing to your presence, but not everyone is alert on the road and a simple horn may not suffice to prevent them from injury. This is when the brakes come into play. When applied well they are unnoticeable in their role in keeping the occupants of the car and other cars safe. They turn the kinetic energy of the car into waste heat and in some cars actually power the battery to keep it full. But how do brakes actually work? For all our expertise and philosophizing about the importance of safety on the road, it is vital that we understand the deeper workings of the vehicles we drive so that we may be more responsible and informed vehicle owners and users.

If you’re in the market for a new set of brake components, do consider taking a look at protex brake rotors. They are built with outstanding quality materials and will last you a very long time if you care for them well.

Now onto the explanation- brake systems have evolved massively over the years. What used to be a dangerous affair of driving on the road has now become commonplace thanks to the development of automobile engineering. Cars have evolved into all sorts of shapes and firms, and so have brakes, what used to only be made of metal now is made of alternate materials such as glass and carbon and even ceramic. However, though the materials have changed the mechanism remained the same.

Most automobiles use a mechanism named the hydraulic braking system. This is where the brake pedal is connected to a large well of chambered liquid called the master cylinder and the booster. When you exert force on the brake pedal using your foot, that energy is transmitted to the master cylinder and booster and is subsequently multiplied. This energy is then transferred to the individual brake pads using the system of hydraulics and each piston places pressure on the brake pads or brake shoes to bring the vehicle to a halt.

With each leap forward in automotive technology, engineers have not only improved the brake pads and overall system but also the tires that vehicles use. Improving the materials, designing better tread to increase stopping force etc. Nowadays most braking system don’t rely solely on mechanical power but also a system called ABS (Anti-Lock Braking System) which prevents the vehicle from locking up when you press hard on the brakes. Locking up means that the vehicle goes into a skid which can ultimately be very harmful to the occupants of the car and t the other people on the road as it is very difficult to control a skid. It is important to learn as much as we can about the vehicles, we drive so that we can not only be more knowledgeable but more thoughtful about our vehicles. 

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