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2. Balancing of rotating masses - Wikipedia

   en.wikipedia.org/wiki/Balancing_of_rotating_masses

   The balancing of rotating bodies is important to avoid vibration. In heavy industrial machines such as gas turbines and electric generators, vibration can cause catastrophic failure, as well as noise and discomfort. In the case of a narrow wheel, balancing simply involves moving the center of gravity to the centre of rotation

3. Rotordynamics - Wikipedia

   en.wikipedia.org/wiki/Rotordynamics

   Rotating machinery produces vibrations depending upon the structure of the mechanism involved in the process. Any faults in the machine can increase or excite the vibration signatures. Vibration behavior of the machine due to imbalance is one of the main aspects of rotating machinery which must be studied in detail and considered while designing.

4. Balancing machine - Wikipedia

   en.wikipedia.org/wiki/Balancing_machine

   A balancing machine is a measuring tool used for balancing rotating machine parts such as rotors for electric motors, fans, turbines, disc brakes, disc drives, propellers and pumps. The machine usually consists of two rigid pedestals, with suspension and bearings on top supporting a mounting platform. The unit under test is bolted to the ...

5. Rotating unbalance - Wikipedia

   en.wikipedia.org/wiki/Rotating_unbalance

   Rotating unbalance is the uneven distribution of mass around an axis of rotation. A rotating mass, or rotor, is said to be out of balance when its center of mass (inertia axis) is out of alignment with the center of rotation (geometric axis). Unbalance causes a moment which gives the rotor a wobbling movement characteristic of vibration of ...

6. Engine balance - Wikipedia

   en.wikipedia.org/wiki/Engine_balance

   Two-plane, or dynamic, balancing is necessary if the out-of-balance couple at speed needs to be balanced. The second plane used is in the opposite wheel. Two-plane, or dynamic, balancing of a locomotive wheel set is known as cross-balancing. [11] Cross-balancing was not recommended by the American Railway Association until 1931.

7. Condition monitoring - Wikipedia

   en.wikipedia.org/wiki/Condition_monitoring

   Condition monitoring techniques are normally used on rotating equipment, auxiliary systems and other machinery like belt-driven equipment, (compressors, pumps, electric motors, internal combustion engines, presses), while periodic inspection using non-destructive testing (NDT) techniques and fit for service (FFS) [1] evaluation are used for ...

8. Run-out - Wikipedia

   en.wikipedia.org/wiki/Run-out

   In the case of bearings, run-out will cause vibration of the machine and increased loads on the bearings. [1] Run-out is dynamic and cannot be compensated. If a rotating component, such as a drill chuck, does not hold the drill centrally, then as it rotates the rotating drill will turn about a secondary axis. Run-out has two main forms: [2]

9. Critical speed - Wikipedia

   en.wikipedia.org/wiki/Critical_speed

   Often when considering rotating shafts, only the first natural frequency is needed. There are two main methods used to calculate critical speed—the Rayleigh–Ritz method and Dunkerley's method. Both calculate an approximation of the first natural frequency of vibration, which is assumed to be nearly equal to the critical speed of rotation.