One of the most common causes of hydraulic leaks is a cracked coupling nut or seat due to over-torquing by a strong-armed worker. Gates has engineered a solution "Full- Torque Nut" technology now available on Gates MegaCrimp and GlobalSpiral couplings. Learn More
One of the most common causes of hydraulic leaks is a cracked coupling nut or seat due to over-torquing by a strong-armed worker. Gates has engineered a solution "Full- Torque Nut" technology now available on Gates MegaCrimp and GlobalSpiral couplings. Learn More
One of the most common causes of hydraulic leaks is a cracked coupling nut or seat due to over-torquing by a strong-armed worker. Gates has engineered a solution "Full- Torque Nut" technology now available on Gates MegaCrimp and GlobalSpiral couplings. Learn More
One of the most common causes of hydraulic leaks is a cracked coupling nut or seat due to over-torquing by a strong-armed worker. Gates has engineered a solution "Full- Torque Nut" technology now available on Gates MegaCrimp and GlobalSpiral couplings. Learn More
Engineered for extreme high-pressure, high-impulse
spiral wire hose, Gates GlobalSpiral couplings feature a "bite-the-wire" crimp for improved coupling retention.
They can be used with Gates four- and six-spiral wire
hoses up to 8,000 psi. Learn More
Engineered for extreme high-pressure, high-impulse
spiral wire hose, Gates GlobalSpiral couplings feature a "bite-the-wire" crimp for improved coupling retention.
They can be used with Gates four- and six-spiral wire
hoses up to 8,000 psi. Learn More
Engineered for extreme high-pressure, high-impulse
spiral wire hose, Gates GlobalSpiral couplings feature a "bite-the-wire" crimp for improved coupling retention.
They can be used with Gates four- and six-spiral wire
hoses up to 8,000 psi. Learn More
Engineered for extreme high-pressure, high-impulse
spiral wire hose, Gates GlobalSpiral couplings feature a "bite-the-wire" crimp for improved coupling retention.
They can be used with Gates four- and six-spiral wire
hoses up to 8,000 psi. Learn More