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Ultrasonics > Attenuation (4) > Flashcards

Attenuation (4) Flashcards

1
Q

Define Attenuation

A

The loss of energy of a sound beam, from the time it is sent to the time it is received

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2
Q

Causes of Attenuation

A
  • Absorption
  • Scattering
  • Beam Divergence
  • Coupling Losses
  • Geometrical Losses
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3
Q

Absorptions impact on Attenuation

A

Particles vibrate, causing friction, transforming mechanical energy into heat.

  • Dependant on elasticity and density of material
  • heavier particles don’t vibrate as easy and increase attenuation
  • crystalline defects increase attenuation
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4
Q

Define Dislocations

A

Crystalline defects

- defects in a crystalline structure

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5
Q

Scatterings impact on Attenuation

A

When material contains reflections, large in relation to half the wavelength (porosity, precipitates, grain boundary) causing sound to be reflected into all directions instead of returning directly to the transducer.

  • reduces back wall signal
  • large grain structure can be seen as an interface if not oriented correctly (long waves better than shear)
  • causes grass/hash
  • can be reduced by lowering frequency (increase wavelength) but also will decrease sensitivity (not recommended)
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6
Q

Beam Divergence’s impact on Attenuation

A

When any part of the sound beam hits an interface at an angle other than zero = no reflection back to transducer

  • larger transducer and/or higher frequency will reduce beam spread
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7
Q

Coupling Losses impact on Attenuation

A

From any two materials that have an acoustic mismatch.

reflection is greater than transmission

  • includes rough surfaces
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8
Q

Define Dispersion

A

When the angle at the entry surface causes, scattering, refraction and mode conversion.

  • loss of backwall amplitude
  • loss of reflector amplitude
  • unwanted generation of surface waves
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9
Q

Rough surfaces impact on Attenuation

A
  • dispersion
  • widen initial pulse
  • coupling losses
  • rough backwall will cause a wide and rough backwall indication
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10
Q

Geometrical Losses impact on attenuation

A
  • causes reflection, refraction and mode conversion.
  • produce non-relevant indications
  • decrease backwall height
  • widen initial pulse
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11
Q

Non-Parallel Surfaces impact on Attenuation

A

Front and back surfaces aren’t parallel, sound beam will hit the surface at an angle other than 0°.

  • reflection several times until the energy dies out
  • mode conversion (shear waves)

Includes:

  • Blindholes
  • Convex surfaces
  • Concave surfaces
  • Long and thin specimens
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Ultrasonics (31 decks)

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