Thick acoustic paneling can help reduce the transmission and reflection of sound waves, but it may not completely stop a shock or sound wave. The effectiveness of acoustic paneling depends on various factors, including the thickness and density of the material, the frequency and intensity of the sound wave, and the construction of the surrounding environment.
Acoustic paneling is designed to absorb sound energy and reduce its reflection, thereby reducing the overall noise level in a space. It can help in reducing the transmission of sound waves by absorbing some of the energy, preventing it from passing through the panels and into the adjacent areas. However, sound waves can still travel through or around the paneling, particularly if it is not specifically designed to handle high-intensity shockwaves.
For stopping or significantly attenuating shockwaves, additional measures beyond thick acoustic paneling would likely be necessary. These might include specialized blast-resistant materials, structural reinforcements, or specific engineering techniques tailored to mitigate shockwaves and high-intensity sound waves.
It's important to consider that the effectiveness of any soundproofing or shockwave attenuation solution depends on the specific requirements, the characteristics of the shockwave or sound wave, and the desired outcome. Consulting with experts in acoustic engineering or specialized professionals in shockwave mitigation would be recommended for a thorough analysis and appropriate design of a solution for specific scenarios.