Acoustic impedance in Materials

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SUMMARY

Acoustic impedance is defined as the product of a material's density and the velocity of sound waves within it. The geometry of a material, such as being tubular or hollow, does not affect its acoustic impedance, as these properties are independent of shape. In contrast, porosity in materials introduces voids that lead to increased attenuation due to reflection and refraction of sound waves. For applications like Hopkinson Bar Design, understanding these principles is crucial for accurate acoustic wave propagation analysis.

PREREQUISITES
  • Understanding of acoustic impedance and its mathematical definition
  • Knowledge of wave propagation in materials
  • Familiarity with bulk modulus and its relationship to density
  • Basic principles of porosity and its effects on sound attenuation
NEXT STEPS
  • Research the mathematical models for acoustic impedance in different geometries
  • Study the effects of porosity on sound wave propagation
  • Explore boundary value problems related to infinite cylinders in acoustics
  • Investigate the applications of acoustic metamaterials in engineering
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Engineers, material scientists, and acoustics researchers interested in the properties of materials and their applications in wave propagation and design, particularly in contexts like Hopkinson Bar Design.

sandon
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Acoustic impedance of material is defined by density multiply by the velocity of waves within the base material.

My question is if i have a tubular or hollow part with a base material, does this count as a reduction of density compared to the base material of the tube or hollow part. Would the impedance of the material be reduced?

Then applying that same logic of tubular/hollowed parts to porous/cellular parts with the base material where the reduction of density can be just as extreme as the tubular/hollowed parts. Would the tubular/hollowed parts have relatively same impedance as the porous/cellular parts?
 
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Paul Colby said:
Are you asking about acoustic Metamaterial
I am asking about all materials' impedance relationship to elastic waves. The purpose is for Hopkinson Bar Design.
 
I see. So your question is how does the acoustic wave impedance differ for propagation along a hollow cylinder versus a solid bar. Interesting question. I have no idea. One could solve (or better look up) the boundary value problem solution for an infinite cylinder and answer the question.
 
sandon said:
Acoustic impedance of material is defined by density multiply by the velocity of waves within the base material.

My question is if i have a tubular or hollow part with a base material, does this count as a reduction of density compared to the base material of the tube or hollow part. Would the impedance of the material be reduced?
In short, no. The density and speed of sound in a material are physics properties, independent of the geometry of the solid. The speed of sound in a material is related to the bulk modulus and density.

http://hyperphysics.phy-astr.gsu.edu/hbase/Sound/souspe2.html
For a discussion on acoustic impedance, see also -
https://www.nde-ed.org/EducationResources/CommunityCollege/Ultrasonics/Physics/acousticimpedance.htm

Porosity in a material is different, since the voids in the material result in reflection and refraction in the material, thus increase the attenuation.
 
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Astronuc said:
In short, no. The density and speed of sound in a material are physics properties, independent of the geometry of the solid. The speed of sound in a material is related to the bulk modulus and density.

http://hyperphysics.phy-astr.gsu.edu/hbase/Sound/souspe2.html
For a discussion on acoustic impedance, see also -
https://www.nde-ed.org/EducationResources/CommunityCollege/Ultrasonics/Physics/acousticimpedance.htm

Porosity in a material is different, since the voids in the material result in reflection and refraction in the material, thus increase the attenuation.
Thanks for your help.
 

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