Speed merchants may not like to admit it but the ability to stop in good time far outweighs the importance of lightening quick acceleration. With that in mind, appropriate brake pads go some way towards ensuring motorists' safety on the road.
So what are they? Put simply, the component that applies the requisite pressure and friction to brake rotors, allowing a car to stop.
A more technical description would explain how they are in fact steel backing plates, with a friction based material bound to their surface. This friction is utilised to convert the kinetic and thermal energies of the vehicle.
Two of them are housed in the brake calliper, their friction surfaces aimed at the rotor. Whenever brakes are applied, the calliper clamps this pair of pads onto the spinning rotor and - as if by magic - a car slows or comes to a complete halt, depending on the pressure involved.
The absence of sufficient brake pads will lead to wheels being worn down, reduced braking power and – ultimately - a damaged braking system.
Nevertheless to many the how and why are not important, so long as their brake pads pass a yearly MOT. But different types suit different models, which should pique even the casual driver's interest.
Perhaps the most commonly found brake pads, semi-metallic models consist of between 30% and 65% metal. Additional material could include steel wool, wire and copper among others.
Once settled upon these elements are bound together by organic resin. From here they are moulded into pre-set shapes and baked into a furnace, resulting in greater durability.
That robustness is one of their many benefits. Semi-Metallic pads are resistant to heat and far easier on rotors than their Ceramic equivalent. They tend to be cheaper and – when around 60% metal is present – lend themselves to heavy braking over a long stretch of road or track.
Indeed Semi-Metallic brake pads are perhaps best suited to high performance race cars. If you own a vehicle that does 0-60mph in a flash this is the option for you.
As with all types of pads there are downsides, in this instance an adverse reaction to extreme, low temperatures. Avoid taking her for a spin in the Antarctica.
By far and away the dearest option, you are likely to own a supercar if possessing a set of ceramic pads. Why the cost? In truth they make for excellent braking, absorbing heat generated from even the harshest, sharpest stops.
Composed of ceramic fibres and similar type fill materials, these pads are cleaner and quieter than any others featured in this blog. They last longer too, outperforming organic pads in particular.
A major drawback is just how long it takes to warm them up to an operating temperature. So while ceramic pads are ideal for rallying, they are all but pointless when installed in the average car, which would seldom reach the optimum performance heat on the likes of the school run or weekly shop.
Better breaking is realised with the Low-Metallic NAO option, the result of an organic formula mixed with between 10% and 30% copper or steel. This recipe certainly helps with the transfer of heat. They are however on the noisy side, while the added metal can create plenty in the way of dust.
As the name suggests these brake pads are made from largely organic materials. That wasn't always the case. Indeed there was a time when pads were constructed from asbestos, only for the mineral to be displaced by other compounds amid health and safety concerns.
Softer and relatively quiet, newer versions may include fibre glass, rubber or Kevlar, not to mention resins such as cellulose.
Despite being easier on the brake discs themselves, Non-Asbestos Organic pads will wear fast and are only suitable for day-to-day road driving. What's more they do not lend themselves to regular braking.
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