Home Toyota GR Yaris Tarox Front Brake Pads - GR Yaris
Skip to product information
1 of 1

Tarox

Tarox Front Brake Pads - GR Yaris

Tarox Front Brake Pads - GR Yaris

Regular price £270.00 GBP
Regular price Sale price £270.00 GBP
Sale Sold out
Tax included.

We are now stocking Tarox's range of pads for the GR Yaris
Available in three different compounds
Strada
Corsa
Competizione


Strada pads are ideal for fast road use and every day driving. They work great from cold and provide immediate response without pre-heating whilst also offering a higher coefficient of friction for improved braking power, improved resistance to high temperatures and a longer service life than O.E materials. They provide an excellent pedal feel and allow full control over braking for the driver.Capable of withstanding temperatures of up to 600°C, this pad has an optimum temperature range of 150°C to 350°C.Coefficient of friction:Cold 0.37 μHot 0.42 μ


Corsa is a great all round pad and although primarily intended for track day use, the pads can also be used to great effect for fast road use on more powerful cars.* Corsa pads are still effective from cold and therefore give maximum performance at all temperatures. The high coefficient of friction gives amazing levels of pedal feel and massive amounts of bite, yet they are not hard on discs like some track pads.

Capable of withstanding temperatures of up to 650°C, this pad has an optimum temperature range of 200°C to 500°C.

Coefficient of friction (μ):
Cold 0.47
Hot 0.49

Competizione
Designed and developed for competition use, they offer uncompromising reliability and performance. Characterized by a high coefficient of friction, once they reach the operating temperature, they release a protective layer on the braking surface which extends its life even after intense use. Exceptional thermal stability ensures consistent performance lap after lap. They withstand temperatures up to 900°C offering the best performance between 300°C and 700°C. Coefficient of friction Hot = 0.51 μ Normal = 0.44 μ

View full details