With many advantages over conventional balance materials such as steel or lead, tungsten heavy alloy aerospace counterweights are often used in Flight Control Systems to optimize the performance of flight control surfaces, such as rudders, elevators and ailerons.
Secondly, as helicopter rotor blades demand perfect balance, so tungsten heavy alloy can be utilized in Rotor Blades to compensate for any imbalances built into individual blades during the manufacturing process such as helicopter balance.
Thirdly, tungsten heavy alloy aerospace counterweight is incorporated into the pitch control system of many propeller designs as a fail-safe device to prevent over speed.
What's more,tungsten heavy alloy aerospace counterweight is incorporated into the rotating flywheels of gyroscopic controls for the storage of kinetic energy. Tungsten alloy counterweights are used for the purpose of adjusting the center of gravity of the triangle and the frequency of oscillation of the laser beams. And bucking bars made of tungsten heavy alloy are ideal for vibration-damping applications with high density.
In addition, during the last stages of assembly, weights may be required to adjust the final balance of the aircraft. Tungsten heavy alloythe wise choice when working in a restricted space because of its high mass/size ratio. As materials with high density can be located further from the pivot point, whilst achieving the same moment so that tungsten heavy alloy can also offer the advantage of actually reducing the total trim weight mass.
Besides, tungsten heavy alloy is used in satellites. Tungsten heavy alloy materials are frequently used for mass balancing which plays a significant role to make sure the center of gravity is precisely located and correct orbit entry during the progress of space flight.