International Journal of Structural Mechanics and Finite Elements

Flexible space structures are susceptible to vibrations caused by a variety of external factors, including mechanical disturbances, temperature fluctuations, and microgravity environments. It Is Essential To Manage These Vibrations To Insure The Performance, Stability, And Durability Of Space Systems. This review paper provides a thorough analysis of the most effective state-of-the-art vibration control methods used in flexible space structures. Numerous Active, Semi-Active, and Passive Control Strategies Are Examined, Along With Their Applications, Limitations, and Principles. The field of vibration control for flexible space structures is examined, along with recent advancements, emerging trends, and challenges. All of this data offers researchers and engineers in the aerospace industry invaluable insights. Effective Vibration Control Strategies Are Necessary to Maintain These Space Systems' Stability, Performance, And Reliability. This review article offers an in-depth investigation of the most advanced vibration control methods currently used in flexible space structures. This section describes the principles, benefits, drawbacks, and applications of passive, active, and semi-active control strategies. Scientists and technicians involved in the development and design of space technology can get valuable insights from a review of recent advancements, emerging trends, and unresolved challenges in the field.

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