Product Details:
|
Product Name: | Auto Brake Pads | OE NO.:: | 45022-SA6-600(58101-32300) |
---|---|---|---|
Material: | Ceramic, Semi-Metallic, Organic | Price Range: | Affordable |
Dust Level: | Low | Friction Coefficient: | High |
Temperature Range: | Wide | Warranty: | 1 Year |
High Light: | heat dissipation Auto Brake Pads,Auto Brake Pads 45022-SA6-600,58101-32300 brake pads on car |
Best Quality Auto Brake Pad 45022-SA6-600 Low Dust Level 58101-32300 By Best Factory
Brake pads are designed to create friction against the rotating brake discs (or drums) in order to slow down or stop a vehicle. They convert the vehicle's kinetic energy into heat energy through friction, allowing the vehicle to come to a controlled halt.
Brake pads are typically made of various friction materials, such as a combination of heat-resistant resins, fillers, and reinforcing fibers, such as steel or aramid fibers. Different types of brake pads can be used, depending on the intended use of the vehicle and the desired braking performance.
The most common types include Non-metallic pads, made from organic materials such as rubber, Kevlar, or fiberglass; Semi-metallic pads, which contain a mixture of metals, such as copper, steel, or iron, along with organic materials; and Ceramic pads, which are composed of a ceramic compound mixed with other materials like copper fibers or synthetic materials.
Brake pads are considered wear components, and will gradually wear down over time due to the friction generated during braking. Proper maintenance of brake pads is crucial for optimal performance and safety. Regular inspections, regular fluid changes, and servicing of other components can help to maintain the brake system as a whole.
Friction Generation: Brake pads are constructed with friction materials that generate friction against the brake discs or drums when the vehicle is in motion. This friction works to slow down the car and bring it to a halt by converting the kinetic energy into heat energy. As a result, the driver is able to control the speed of the vehicle and achieve the desired stopping power desired.
Heat Dissipation: During the braking process, a substantial amount of heat is created due to friction between the brake pads and the discs or drums. For this reason, brake pads are designed to effectively dissipate the heat, preventing brake fade. This allows for consistent braking performance and reduces the risk of brake failure.
Wear Resistance: Brake pads are produced with a specific thickness of friction material that is expected to wear down over time. This allows the brake pads to sacrificially wear instead of costly brake discs or drums. Replacing the brake pads when necessary helps to extend the life of these components and ensures optimal braking performance.
Noise and Vibration Damping: To create a smoother and quieter braking experience, brake pads use features such as shims, chamfers, and specialized materials. This minimizes brake squeal and dampens any vibrations that may occur when the brake pads make contact with the rotating discs or drums. This results in reduced noise and vibration during braking.
Model NO. | 45022-SA6-600(58101-32300) | Type | Brake Pads |
Material | Semi-Metal | Position | Front |
Color | Accept Customized | Classify | The Braking System |
Accessories | Shims + Sensors +Other Accessories | Classification | Disc |
Certification | ISO9001 | Warranty | 30000km |
Specification | 127*49*15(mm) | After-sales Service | 1 Years |
Transport Package | Carton Packaging | Origin | China |
Sample | Available | Production Capacity | 200000pieces/Year |
HS Code | 8708301000 | Applicable models | Honda,Hyundai |
The main application of brake pads is in the braking systems of vehicles, particularly in automobiles. Brake pads are an essential component in disc brake systems used in most cars, trucks, and SUVs, as they are the primary friction material that creates the necessary friction against the rotating brake discs to slow down and stop the vehicle. This application of brake pads ensures safe and controlled braking performance for everyday driving scenarios.
In automotive applications, brake pads provide four primary functions: stopping power, heat dissipation, wear resistance, and noise reduction. They generate the necessary friction to convert the kinetic energy of the moving vehicle into heat energy, which slows down and stops the vehicle. Additionally, they are designed to handle high temperatures and efficiently dissipate heat to prevent brake fade. Brake pads also have a specific thickness of friction material that gradually wears down over time, and regularly replacing them helps maintain optimal braking performance and extends the life of other braking system components. Finally, brake pads incorporate features like shims, chamfers, and specialized materials to reduce noise, vibrations, and harshness (NVH) during braking, resulting in a quieter and more comfortable braking experience.
While brake pads are primarily used in automotive applications, they may also have applications in other vehicles and machinery, such as motorcycles, bicycles, industrial equipment, and aircraft. However, their primary and most widespread application is in the braking systems of automobiles.
Contact Person: Coral Cheng
Tel: +8615572808708
Fax: 86-155-7280-8708