Products
  • Products
  • Content
    The product images shown are Illustrative only and may not be an exact representation of the product.

    Industrial Micro-V® M-Section Belts

    Gates® Micro-V® belts ensure outstanding performance on any industrial multi-ribbed drive. They cover a multitude of industrial applications and are suitable for industrial drives in washing machines, textile machines, vacuum cleaners, lawn mowers, machine tools, medical equipment and many more. The full line of Micro-V® belt products includes slabs in several widths as well as single belts in PJ, PK, PL and PM sections in order to perfectly match customer requirements.

    • Truncated ribs ensure flexibility, reduce heat build-up and improve rib crack resistance.
    • Enhances load-carrying capacity on small diameter pulleys.
    • Can be installed on grooved DriveR and flat DriveN pulley.

    ENGINEERED TO PERFORM BETTER

    Through our exclusive manufacturing process, belt ribs are shortened, producing numerous benefits in applications operating on small diameter pulleys. This process ensures belt flexibility, inhibits heat build-up, and provides resistance to rib cracking, resulting in a stronger, safer, more reliable Micro-V® belt.

    Features and Benefits

    • Static conductive (ISO 1813) and can as such be used in the conditions described in the Directive 2014/34/EU- ATEX (except PK profile).
    • Belts will operate in standard pulleys provided the pulleys are manufactured to the DIN 7867 or ISO 9982 standard for the specific cross-section.
    • Extremely smooth and cool running.
    • Very high power capacity per rib.
    • Long life due to extra load-carrying capacity.
    • Improved performance on back idlers.
    • Tolerant of pulley groove debris.
    • Smaller drive package.

    POWER TRANSMISSION MEETS MATERIAL SCIENCE

    Our Gates® Micro-V® M-Section belts push the boundaries of material science. The fibre-filled compound adds strength for improved stability, while flex-bonded, polyester-based cords enable balanced load distribution and less stress from flexing.