The Application of Big Flake Graphite in Clutch Facings Production In the manufacturing of clutch facings, the selection of clutch facings friction materials is crucial for the overall performance and lifespan of the clutch system. Big Flake Graphite has found its place in clutch facings mixtures and mixes, bringing along a distinct set of advantages…
FORMULA NAME:PASSENGER CAR BRAKE PADS LOW METALLIC (BL-APL02) FORMULATION PERFORMANCE BL-APL02 is a high cost-effective formula with a yellow tone, stable friction coefficient, sensitive braking, and excellent noise performance. Characteristics: Cost-effective Stable coefficient of friction Excellent noise probability Applicable Car Models: Applicable for most passenger cars, especially for European and American cars. Applicable Road Conditions:…
Introduction to Car Brake Shoes with High Metallic Mixture High Metallic brake shoes mixture is a premium brake shoes friction material designed for vehicles requiring robust braking performance under extreme conditions. This brake shoes formula integrates high-density metallic fibers (e.g., steel, copper alloys) and heat-resistant modifiers, ensuring superior thermal stability and durability. Below is a detailed technical overview, advantages, and storage…
The Application of Corundum in Brake Linings Production Corundum, a hard and durable mineral, has found significant applications in the production of brake linings. Brake linings are crucial components in braking systems, responsible for generating the necessary friction to slow down or stop a moving vehicle. The use of corundum in brake linings is mainly…
Introduction to Car Brake Shoes with Sintered Ceramic Mixture Sintered ceramic brake shoes mixture is a high-performance brake shoes friction material designed for modern passenger vehicles. It combines ceramic fibers, sintered metallic particles, and advanced binding agents to deliver exceptional braking efficiency while meeting stringent environmental standards. This brake shoes formula eliminates hazardous materials like asbestos and copper, offering a sustainable…
Introduction to Truck brake pads Carbon Fiber MixtureCarbon fiber-based brake pads mixtures represent a cutting-edge advancement in heavy-duty braking technology. Designed specifically for trucks, these brake pads friction materials integrate high-performance carbon fibers, ceramic particles, and advanced resin binders into a robust brake pads formula, ensuring exceptional thermal stability, wear resistance, and braking efficiency under extreme conditions . Technical Parameters The…
The Application of Titanates – Potassium Magnesium in Brake Pads Production In the competitive field of brake pads manufacturing, the exploration for innovative materials is ongoing. Titanates – Potassium Magnesium, a compound with distinct chemical and physical properties, has started to gain attention in the production of brake pads. This material brings both advantages and…
Introduction to Car Brake Pads Ceramic-Based MixtureCeramic-based brake pads are a high-performance brake pads mixture engineered for modern vehicles, combining ceramic fibers, aramid particles, and advanced resin binders to deliver exceptional braking efficiency and durability. This brake pads friction material is renowned for its low noise, minimal dust generation, and superior thermal stability, making it ideal for both standard…
Introduction to Car Brake Shoes with Organic Mixture Organic brake shoes mixture represents a modern innovation in brake shoes friction materials, designed for passenger vehicles to ensure reliable braking performance while prioritizing environmental sustainability. This brake shoes formula replaces hazardous materials like asbestos with organic binders, synthetic fibers, and ceramic additives, aligning with global safety and ecological standards. Below is…