All round performance pads.
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Availability date: 0000-00-00
|Road Legal in Switzerland||yes|
|Car Model||Front Suzuki Swift ZCS32S|
|Please check Photo for exact shape|
|Friction Materials||Graphite metallic|
|Effective Temperature Range||0~850°C|
|Applicable Stages||Fast road, Circuit, Drift, Auto-cross, Dirt trial|
Decelerating G= 0.5G, fixed temperature=200°C. The friction co-efficiency is measured at different speeds. When the friction co-efficiency varied, the efficiency would be different at low speed or high speed, and the pads then become hard to deal with. Obviously it has to work while braking from a high speed, not only from a low speed. On the other hand, if it works too efficiently at a high speed, it is extremely dangerous because the tires will lock up too easily.
The Z type is more effective than OEM products or other after-market products at any speed range.
The friction co-efficiency is measured at different temperatures at the speed of 100 km/h, with a fixed deceleration of 0.5G. The Z type is effectively stable between the low and high temperatures. The products that company B provided are obviously different in their levels of effectiveness. The other products are not so good at high temperatures (generally they give the feeling that they are not working at all with friction co-efficiency below 0.2)
Refrain from driving on the race track using OEM pads.
Tested at an undisclosed famous race track Car : NTEGRA DC5 type R
Time: five laps in a row in 1'50"lap
Braking at the approach to a hairpin curve is measured at speeds over 200 Km/h.
It represents the performance/efficacy difference by the deceleration G.
The friction co-efficiency is measured at 0.3G (light braking), 0.55G (strong braking) and 0.8G (very strong braking) at the fixed speed of 50km/h and 150km/h respectably.
The data shown in the chart shows the friction co-efficiency variation range at 0.3G against 0.55G and at 0.8G against 0.55G. 100% is ideal.
The Z type is close to 100%. OEM products are not so good at strong braking. The materials that company B provided had a big change in braking at high speeds.
They were tested at the speed of 100 km/h, with a fixed pad temperature of 200°C, and with changes in deceleration G.
The change of efficacy is evaluated when they are brand new and after the fourth test. 100% is ideal. When the value worsened extremely, it means their performance gets lower, for example, the friction co-efficiency drops between first and second session/practice of circuit track driving.
OEM products and materials that company B provided cannot be as effective as its original performance once they get to a high temperature.
Today, there is a wide range of demands for sport brake pads.
Many drivers are choosing brake pads that offer optimal performance on the street and race circuit. The demand is for a brake pad that is usually used on the street and can be occasionally used at the race circuit.
These drivers are using high performance radial tires not the racing tires the frequent race circuit drivers use.
If racing brake pads are used, it may not provide the optimal temperature range, decrease disc life, and unable to provide the right balance between tire grip and brake performance.
The development concept of the Z-type brake pad is a high performance brake pad for street-use.
For the testing, cars like Subaru Impreza WRX, Mitsubishi Lancer EVO, BMW M3, and Porsche Cayman S were used with high performance radial tires. The pads went through extended road trials on the street followed by rigorous testing on the race circuit.
On the street, the brake pads were able to offer consistent brake feel even at low temperatures, and achieved low brake noise and longer disc life. On the race circuit, there was no decrease in braking power, and offered superior stopping power.
The DIXCEL Z-type is for users who want race-circuit quality brake pads without having to sacrifice regular street-use performance.
The sport brake pad you can use for regular street-use
This brake pad was developed as an answer to such demands.