HTD Belts

Give yourself a competitive advantage by designing in the Gates® Poly Chain® GT® Carbon™ drive system instead of roller chain in your next power transmission application. The patented use of Carbon™ Fiber as the tensile cord in this belt provides increased horsepower rating for greater power density and compactness and increased flexibility, allowing the use of backside idlers. When combined with Gates® Poly Chain® GT®2 sprockets, you have a lightweight, long-lasting, maintenance-free system that's more than a match for roller chain.

Give yourself a competitive advantage by designing in the Gates® Poly Chain® GT® Carbon™ drive system instead of roller chain in your next power transmission application. The patented use of Carbon™ Fiber as the tensile cord in this belt provides increased horsepower rating for greater power density and compactness and increased flexibility, allowing the use of backside idlers. When combined with Gates® Poly Chain® GT®2 sprockets, you have a lightweight, long-lasting, maintenance-free system that's more than a match for roller chain.

Give yourself a competitive advantage by designing in the Gates® Poly Chain® GT® Carbon™ drive system instead of roller chain in your next power transmission application. The patented use of Carbon™ Fiber as the tensile cord in this belt provides increased horsepower rating for greater power density and compactness and increased flexibility, allowing the use of backside idlers. When combined with Gates® Poly Chain® GT®2 sprockets, you have a lightweight, long-lasting, maintenance-free system that's more than a match for roller chain.

Give yourself a competitive advantage by designing in the Gates® Poly Chain® GT® Carbon™ drive system instead of roller chain in your next power transmission application. The patented use of Carbon™ Fiber as the tensile cord in this belt provides increased horsepower rating for greater power density and compactness and increased flexibility, allowing the use of backside idlers. When combined with Gates® Poly Chain® GT®2 sprockets, you have a lightweight, long-lasting, maintenance-free system that's more than a match for roller chain.

Give yourself a competitive advantage by designing in the Gates® Poly Chain® GT® Carbon™ drive system instead of roller chain in your next power transmission application. The patented use of Carbon™ Fiber as the tensile cord in this belt provides increased horsepower rating for greater power density and compactness and increased flexibility, allowing the use of backside idlers. When combined with Gates® Poly Chain® GT®2 sprockets, you have a lightweight, long-lasting, maintenance-free system that's more than a match for roller chain.

Give yourself a competitive advantage by designing in the Gates® Poly Chain® GT® Carbon™ drive system instead of roller chain in your next power transmission application. The patented use of Carbon™ Fiber as the tensile cord in this belt provides increased horsepower rating for greater power density and compactness and increased flexibility, allowing the use of backside idlers. When combined with Gates® Poly Chain® GT®2 sprockets, you have a lightweight, long-lasting, maintenance-free system that's more than a match for roller chain.

Give yourself a competitive advantage by designing in the Gates® Poly Chain® GT® Carbon™ drive system instead of roller chain in your next power transmission application. The patented use of Carbon™ Fiber as the tensile cord in this belt provides increased horsepower rating for greater power density and compactness and increased flexibility, allowing the use of backside idlers. When combined with Gates® Poly Chain® GT®2 sprockets, you have a lightweight, long-lasting, maintenance-free system that's more than a match for roller chain.

Give yourself a competitive advantage by designing in the Gates® Poly Chain® GT® Carbon™ drive system instead of roller chain in your next power transmission application. The patented use of Carbon™ Fiber as the tensile cord in this belt provides increased horsepower rating for greater power density and compactness and increased flexibility, allowing the use of backside idlers. When combined with Gates® Poly Chain® GT®2 sprockets, you have a lightweight, long-lasting, maintenance-free system that's more than a match for roller chain.

Give yourself a competitive advantage by designing in the Gates® Poly Chain® GT® Carbon™ drive system instead of roller chain in your next power transmission application. The patented use of Carbon™ Fiber as the tensile cord in this belt provides increased horsepower rating for greater power density and compactness and increased flexibility, allowing the use of backside idlers. When combined with Gates® Poly Chain® GT®2 sprockets, you have a lightweight, long-lasting, maintenance-free system that's more than a match for roller chain.

Gates original HTD® tooth profile combined with Poly Chain® belt construction.

PowerGrip™ GT™2 Twin Power™ belts are designed to transmit up to 100% of its load carrying capacity on either side of the belt, or be used in applications that transmit fractional loads to both sides. This enables synchronization from both drive surfaces. Additionally, the belt is designed to limit noise emissions, enabling the belts to be employed in a variety of precision and public-facing applications, from robotics and medical devices to vending and currency handling machinery. GT™ stands for Gates® tooth, our proprietary modified curvilinear belt tooth profile. In PowerGrip™ GT™2 Twin Power™ belts, the fiberglass tensile cords and neoprene body are completed with a nylon tooth cover that provides high resistance to tooth jump for non-slip usage and exceptional belt life.

PowerGrip™ GT™2 Twin Power™ belts are designed to transmit up to 100% of its load carrying capacity on either side of the belt, or be used in applications that transmit fractional loads to both sides. This enables synchronization from both drive surfaces. Additionally, the belt is designed to limit noise emissions, enabling the belts to be employed in a variety of precision and public-facing applications, from robotics and medical devices to vending and currency handling machinery. GT™ stands for Gates® tooth, our proprietary modified curvilinear belt tooth profile. In PowerGrip™ GT™2 Twin Power™ belts, the fiberglass tensile cords and neoprene body are completed with a nylon tooth cover that provides high resistance to tooth jump for non-slip usage and exceptional belt life.

PowerGrip™ GT™2 Twin Power™ belts are designed to transmit up to 100% of its load carrying capacity on either side of the belt, or be used in applications that transmit fractional loads to both sides. This enables synchronization from both drive surfaces. Additionally, the belt is designed to limit noise emissions, enabling the belts to be employed in a variety of precision and public-facing applications, from robotics and medical devices to vending and currency handling machinery. GT™ stands for Gates® tooth, our proprietary modified curvilinear belt tooth profile. In PowerGrip™ GT™2 Twin Power™ belts, the fiberglass tensile cords and neoprene body are completed with a nylon tooth cover that provides high resistance to tooth jump for non-slip usage and exceptional belt life.

PowerGrip™ GT™2 Twin Power™ belts are designed to transmit up to 100% of its load carrying capacity on either side of the belt, or be used in applications that transmit fractional loads to both sides. This enables synchronization from both drive surfaces. Additionally, the belt is designed to limit noise emissions, enabling the belts to be employed in a variety of precision and public-facing applications, from robotics and medical devices to vending and currency handling machinery. GT™ stands for Gates® tooth, our proprietary modified curvilinear belt tooth profile. In PowerGrip™ GT™2 Twin Power™ belts, the fiberglass tensile cords and neoprene body are completed with a nylon tooth cover that provides high resistance to tooth jump for non-slip usage and exceptional belt life.

PowerGrip™ GT™2 Twin Power™ belts are designed to transmit up to 100% of its load carrying capacity on either side of the belt, or be used in applications that transmit fractional loads to both sides. This enables synchronization from both drive surfaces. Additionally, the belt is designed to limit noise emissions, enabling the belts to be employed in a variety of precision and public-facing applications, from robotics and medical devices to vending and currency handling machinery. GT™ stands for Gates® tooth, our proprietary modified curvilinear belt tooth profile. In PowerGrip™ GT™2 Twin Power™ belts, the fiberglass tensile cords and neoprene body are completed with a nylon tooth cover that provides high resistance to tooth jump for non-slip usage and exceptional belt life.

PowerGrip™ GT™2 Twin Power™ belts are designed to transmit up to 100% of its load carrying capacity on either side of the belt, or be used in applications that transmit fractional loads to both sides. This enables synchronization from both drive surfaces. Additionally, the belt is designed to limit noise emissions, enabling the belts to be employed in a variety of precision and public-facing applications, from robotics and medical devices to vending and currency handling machinery. GT™ stands for Gates® tooth, our proprietary modified curvilinear belt tooth profile. In PowerGrip™ GT™2 Twin Power™ belts, the fiberglass tensile cords and neoprene body are completed with a nylon tooth cover that provides high resistance to tooth jump for non-slip usage and exceptional belt life.

PowerGrip™ GT™2 Twin Power™ belts are designed to transmit up to 100% of its load carrying capacity on either side of the belt, or be used in applications that transmit fractional loads to both sides. This enables synchronization from both drive surfaces. Additionally, the belt is designed to limit noise emissions, enabling the belts to be employed in a variety of precision and public-facing applications, from robotics and medical devices to vending and currency handling machinery. GT™ stands for Gates® tooth, our proprietary modified curvilinear belt tooth profile. In PowerGrip™ GT™2 Twin Power™ belts, the fiberglass tensile cords and neoprene body are completed with a nylon tooth cover that provides high resistance to tooth jump for non-slip usage and exceptional belt life.

PowerGrip™ GT™2 Twin Power™ belts are designed to transmit up to 100% of its load carrying capacity on either side of the belt, or be used in applications that transmit fractional loads to both sides. This enables synchronization from both drive surfaces. Additionally, the belt is designed to limit noise emissions, enabling the belts to be employed in a variety of precision and public-facing applications, from robotics and medical devices to vending and currency handling machinery. GT™ stands for Gates® tooth, our proprietary modified curvilinear belt tooth profile. In PowerGrip™ GT™2 Twin Power™ belts, the fiberglass tensile cords and neoprene body are completed with a nylon tooth cover that provides high resistance to tooth jump for non-slip usage and exceptional belt life.

PowerGrip™ GT™2 Twin Power™ belts are designed to transmit up to 100% of its load carrying capacity on either side of the belt, or be used in applications that transmit fractional loads to both sides. This enables synchronization from both drive surfaces. Additionally, the belt is designed to limit noise emissions, enabling the belts to be employed in a variety of precision and public-facing applications, from robotics and medical devices to vending and currency handling machinery. GT™ stands for Gates® tooth, our proprietary modified curvilinear belt tooth profile. In PowerGrip™ GT™2 Twin Power™ belts, the fiberglass tensile cords and neoprene body are completed with a nylon tooth cover that provides high resistance to tooth jump for non-slip usage and exceptional belt life.

PowerGrip™ GT™2 Twin Power™ belts are designed to transmit up to 100% of its load carrying capacity on either side of the belt, or be used in applications that transmit fractional loads to both sides. This enables synchronization from both drive surfaces. Additionally, the belt is designed to limit noise emissions, enabling the belts to be employed in a variety of precision and public-facing applications, from robotics and medical devices to vending and currency handling machinery. GT™ stands for Gates® tooth, our proprietary modified curvilinear belt tooth profile. In PowerGrip™ GT™2 Twin Power™ belts, the fiberglass tensile cords and neoprene body are completed with a nylon tooth cover that provides high resistance to tooth jump for non-slip usage and exceptional belt life.

PowerGrip™ GT™2 Twin Power™ belts are designed to transmit up to 100% of its load carrying capacity on either side of the belt, or be used in applications that transmit fractional loads to both sides. This enables synchronization from both drive surfaces. Additionally, the belt is designed to limit noise emissions, enabling the belts to be employed in a variety of precision and public-facing applications, from robotics and medical devices to vending and currency handling machinery. GT™ stands for Gates® tooth, our proprietary modified curvilinear belt tooth profile. In PowerGrip™ GT™2 Twin Power™ belts, the fiberglass tensile cords and neoprene body are completed with a nylon tooth cover that provides high resistance to tooth jump for non-slip usage and exceptional belt life.

PowerGrip™ GT™2 Twin Power™ belts are designed to transmit up to 100% of its load carrying capacity on either side of the belt, or be used in applications that transmit fractional loads to both sides. This enables synchronization from both drive surfaces. Additionally, the belt is designed to limit noise emissions, enabling the belts to be employed in a variety of precision and public-facing applications, from robotics and medical devices to vending and currency handling machinery. GT™ stands for Gates® tooth, our proprietary modified curvilinear belt tooth profile. In PowerGrip™ GT™2 Twin Power™ belts, the fiberglass tensile cords and neoprene body are completed with a nylon tooth cover that provides high resistance to tooth jump for non-slip usage and exceptional belt life.

PowerGrip™ GT™2 Twin Power™ belts are designed to transmit up to 100% of its load carrying capacity on either side of the belt, or be used in applications that transmit fractional loads to both sides. This enables synchronization from both drive surfaces. Additionally, the belt is designed to limit noise emissions, enabling the belts to be employed in a variety of precision and public-facing applications, from robotics and medical devices to vending and currency handling machinery. GT™ stands for Gates® tooth, our proprietary modified curvilinear belt tooth profile. In PowerGrip™ GT™2 Twin Power™ belts, the fiberglass tensile cords and neoprene body are completed with a nylon tooth cover that provides high resistance to tooth jump for non-slip usage and exceptional belt life.

PowerGrip™ GT™2 Twin Power™ belts are designed to transmit up to 100% of its load carrying capacity on either side of the belt, or be used in applications that transmit fractional loads to both sides. This enables synchronization from both drive surfaces. Additionally, the belt is designed to limit noise emissions, enabling the belts to be employed in a variety of precision and public-facing applications, from robotics and medical devices to vending and currency handling machinery. GT™ stands for Gates® tooth, our proprietary modified curvilinear belt tooth profile. In PowerGrip™ GT™2 Twin Power™ belts, the fiberglass tensile cords and neoprene body are completed with a nylon tooth cover that provides high resistance to tooth jump for non-slip usage and exceptional belt life.