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The friction block in the brake pad is formed by crushing and stirring a variety of raw materials through a high-speed flying knife in a mixer, and then forming them under high temperature and high pressure.
The main composition formula of brake pads:
1) The adhesive is resin, which acts to liquefy and then solidify after high temperature, so that the brake pad changes from powder to solidified block.
2) Reinforcing fibers are the bones of brake pads. For example, ceramic brake pads are brake pads that use ceramic fibers.
3) Filling materials and brake pads have different mesh diameters, so a certain gap filling material is required.
4) Adjusting materials, such as alumina, zirconium silicate, brown corundum, etc., are used to increase friction;
special micro-powdered graphite increases lubrication performance and adjusts user experience.
The special micro-powder synthetic graphite powder for brake pads supplied by L.T Graphite:
1. High purity (carbon content above 99.7%),
2. Uniform particle size distribution (graphite powder with different particle sizes can be evenly mixed in stages according to the specific requirements of customers).
3. Can be compounded with different materials such as resin, rubber, reinforced fiber, etc., to play the role of lubrication, wear resistance, high temperature resistance, corrosion resistance, etc.
4. Can effectively prolong the service life of the brake pad.
Synthetic lubricating graphite powder for brake pads can be customized according to the specific usage scenarios of the brake pads - civil grade, racing grade; and the ratio and particle size of other materials in the brake pads. Special graphite powder with different particle size ratios can be customized.
The friction block in the brake pad is formed by crushing and stirring a variety of raw materials through a high-speed flying knife in a mixer, and then forming them under high temperature and high pressure.
The main composition formula of brake pads:
1) The adhesive is resin, which acts to liquefy and then solidify after high temperature, so that the brake pad changes from powder to solidified block.
2) Reinforcing fibers are the bones of brake pads. For example, ceramic brake pads are brake pads that use ceramic fibers.
3) Filling materials and brake pads have different mesh diameters, so a certain gap filling material is required.
4) Adjusting materials, such as alumina, zirconium silicate, brown corundum, etc., are used to increase friction;
special micro-powdered graphite increases lubrication performance and adjusts user experience.
The special micro-powder synthetic graphite powder for brake pads supplied by L.T Graphite:
1. High purity (carbon content above 99.7%),
2. Uniform particle size distribution (graphite powder with different particle sizes can be evenly mixed in stages according to the specific requirements of customers).
3. Can be compounded with different materials such as resin, rubber, reinforced fiber, etc., to play the role of lubrication, wear resistance, high temperature resistance, corrosion resistance, etc.
4. Can effectively prolong the service life of the brake pad.
Synthetic lubricating graphite powder for brake pads can be customized according to the specific usage scenarios of the brake pads - civil grade, racing grade; and the ratio and particle size of other materials in the brake pads. Special graphite powder with different particle size ratios can be customized.
