Back To Top

Automotive Industry

The material design of automotive timing belts must balance high strength, wear resistance, high-temperature resistance, and flexibility to ensure reliability under high-speed engine operation and complex conditions.
  • Base Material:
    High-strength rubber oNeoprene (Chloroprene Rubber): The most common timing belt base material, offering excellent oil resistance, heat resistance (-30°C to 120°C), and aging resistance. Cost-effective and suitable for most family vehicles.
  • Reinforcement Layer:
    Glass Fiber: Provides high-strength support, resists tensile deformation, and ensures the belt does not skip teeth during high-speed operation. Kevlar (Aramid Fiber): Lightweight with extremely high strength, used in high-end vehicle models, offering superior durability compared to glass fiber. Steel Wire: Occasionally used in some belts for added strength but less flexible, making it less common.
  • Tooth Surface Coating:
    Nylon or Polyurethane Coating: Applied to the belt's tooth surface to reduce friction and wear with gears, while also lowering noise.
Textile Industry
Rubber synchronous drive belts are widely used in textile industry transmission systems,
with advantages primarily in material properties, design flexibility, cost-effectiveness, and user experience.
  • Cost-Effectiveness
    Advantage: The rubber material is wear-resistant, provides fast power transmission, and has low energy loss.
    Application: Suitable for most main motor drive systems.
  • Noise Reduction
    Advantage: The combination of rubber and fiber layers effectively absorbs vibration and noise.
    Application: Used in most textile machinery, including texturing machines, two-for-one twisters, spinning frames, and carding machines in both front and back spinning processes.
  • High Transmission Efficiency
    Advantage: The synchronous belt teeth engage precisely with gears, with no slippage loss, achieving transmission efficiency above 98%. No lubrication required (unlike chains that need oil lubrication), reducing energy consumption.
Industrial Equipment Industry
TPU (Thermoplastic Polyurethane) synchronous belts are high-performance transmission belts that outperform traditional rubber synchronous belts (e.g., Neoprene or HNBR) in terms of wear resistance, oil resistance, and environmental friendliness.
They are widely used in industrial equipment, 3D printing, medical devices, and other fields.
  • Automation Equipment
    Applications: Robotic arms, linear modules, conveyor systems, assembly lines.
    Advantages:
    High Precision: Tooth engagement ensures positional synchronization, ideal for high-precision positioning in servo motor-driven systems (e.g., CNC machine feed systems).
    Low Maintenance: No lubrication required, reducing contamination risks, suitable for clean environments (e.g., electronics manufacturing, food packaging).
    Lightweight: Lighter than chains or gears, suitable for high-speed reciprocating motion.
  • Packaging Machinery
    Applications: Filling machines, labeling machines, sealing machines, film stretching machines.
    Advantages:
    Stable Speed: Prevents misalignment of packaging materials due to belt slippage.
    Wear Resistance: Polyurethane (PU) or Neoprene (CR) materials withstand frequent starts/stops and speed changes.
    Noise Reduction: Lower operating noise than chain drives, suitable for quiet workshop environments.
  • Printing Equipment
    Applications: Offset presses, digital printers, web paper transport systems.
    Advantages:
    Synchronization: Ensures precise registration in multicolor printing, minimizing color deviations.
    Vibration Damping: Rubber material absorbs vibrations, improving print quality.