Gates BX 58 Hi-Power II Cogged V-Belt | Industrial Power Transmission | 58 Inch Effective Length

The Gates BX 58 Hi-Power II V-belt is engineered for demanding industrial power transmission applications, offering superior performance compared to standard wrapped belts. Featuring a cogged (notched) design, the BX profile ensures exceptional flexibility and allows the belt to dissipate heat more effectively, dramatically extending service life. Constructed with the highest quality EPDM compounds and robust polyester tensile cords, this belt resists stretch, fatigue, and shock loads inherent in heavy-duty machinery. The precision-molded cogs optimize grip and reduce bending stress, facilitating operation on smaller diameter sheaves and leading to higher energy efficiency and quieter operation across high-speed drive systems. Designed for reliability and minimal maintenance, the BX 58 is static conductive (meeting ISO 1813 standards) and offers excellent resistance to oil, heat, and ozone, making it suitable for harsh industrial environments suchs as HVAC, agricultural machinery, pumps, and manufacturing equipment. Choosing the genuine Gates BX 58 ensures dimensional stability and maximum horsepower capacity transfer, reducing costly downtime and optimizing the overall efficiency of your critical motor drives. This belt provides a durable, reliable, drop-in replacement solution for standard B-section belts where increased efficiency and reduced operational temperature are required.

Key Features

• Molded cog design provides superior flexibility and increased efficiency compared to wrapped belts.
• High-modulus polyester tensile cord ensures maximum strength and resistance to elongation/stretch.
• Exceptional resistance to heat, ozone, and oil, extending lifespan in harsh environments.
• Static conductive property (ISO 1813) ensures safe operation in environments requiring static dissipation.
• Allows for use with smaller sheave diameters, providing greater design flexibility and compact drives.
• Reduces operating temperatures and minimizes slippage for reliable power transfer.

Technical Specifications