ICP HHB-5-110 Hydraulic Yaw Brake

Brand: Industrial Clutch Parts
Code: HHB-5-110

Industrial Clutch Parts Ltd. manufactures an extensive range of wind turbine braking systems. Many ICP brakes interchange with major manufacturers in the wind market. 

ICP HHB-5-110 is a hydraulic applied yaw brake, specifically designed for Gamesa G8X wind turbines. ICP brakes set the industry standard for low noise, safe and reliable braking. Used worldwide by leading wind power plant manufacturers.

  • Brake Type: Hydraulic, Yaw, Caliper
  • Wind Turbine: Gamesa G8X
  • Interchangeability: Gamesa GP000136
Out of stock

For further information, please contact us at:

Hydraulic Yaw Brake Fits Gamesa G8X Wind Turbine

Industrial Clutch Parts Ltd. has produced an extensive range of lightweight, noise-free braking systems suitable for the majority wind power plant manufacturers. ICP yaw & rotor brakes have been designed for braking and gliding processes in wind turbines.

ICP HHB-5-110 is a hydraulic yaw brake, specially manufactured for Gamesa G8X wind turbines. HHB-5-110 incorporates five active pistons and two passive spring-applied pistons to stop and hold the rotating nacelle in position once the rotors have been turned to face into the wind.

The active braking functions are used for stopping and holding; manufactured with a minimum air gap for faster braking and shorter response times. The spring-applied brake pistons are used for parking and emergency stopping in case of power failure; functioned to start when the oil pressure to the brake disappears.

ICP holds stock of all Gamesa G8X yaw brake component parts, including pistons, hydraulic and dust seals, centering pins, and bushings. All available directly from stock to ensure prompt delivery and reduced downtime. 

Product Enquiry
Gamesa GP000136
Product Type Brake
Brand Industrial Clutch Parts
PDF Catalogue PDF Download Download
Industry Applications Wind Energy
Actuation Method Hydraulic
Actuation Type Active & Passive
Brake Type Caliper
Compares With Antec, Gamesa
Friction Coefficient 0.40
Friction Material Type Organic
Lining Area 54,094 mm²
Max. Clamping Force 47,515 N
Max. Wear Of Pad (Organic) 10 mm
Max. Working Pressure 18 Mpa
Operating Pressure 16 Mpa
Pad Area 54,094 mm²
Piston Area 9503 mm²
Total Piston Area 6361 mm²