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In modern engineering and manufacturing, vibration and noise reduction are critical considerations for ensuring product performance, durability, and user comfort. Constrained Layer Damping (CLD) has emerged as one of the most effective methods to address these challenges. This advanced damping technique involves sandwiching a viscoelastic material between two rigid outer layers. When a structure vibrates, the viscoelastic core undergoes shear deformation, converting vibrational energy into heat and significantly reducing noise and resonance.

Constrained Layer Damping is widely adopted across industries due to its superior performance compared to traditional damping methods. In the automotive sector, it plays a crucial role in reducing cabin noise, improving ride comfort, and enhancing the overall driving experience. Aerospace and defense industries utilize CLD to suppress vibrations in aircraft fuselages, spacecraft, and weapon systems, where maintaining structural integrity and passenger safety is paramount. Similarly, in consumer electronics, constrained layer damping is used to minimize vibrations in…

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