37947678 basic principles of ultrasonic testing
TRANSCRIPT
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Krautkramer NDT Ultrasonic Systems
Basic Principles of Ultrasonic Testing
Basic Principles ofUltrasonic Testing
Theory and Practice
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Krautkramer NDT Ultrasonic Systems
Basic Principles of Ultrasonic TestingExamples of oscillation
ball ona spring
pendulum rotatingearth
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Krautkramer NDT Ultrasonic Systems
Basic Principles of Ultrasonic Testing
The ball starts to oscillate as soon as it is pushed
Pulse
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Krautkramer NDT Ultrasonic Systems
Basic Principles of Ultrasonic Testing
Oscillation
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Krautkramer NDT Ultrasonic Systems
Basic Principles of Ultrasonic TestingMovement of the ball over time
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Krautkramer NDT Ultrasonic Systems
Basic Principles of Ultrasonic Testing
Time
One full oscillation T
Frequency
From the duration of one oscillation T the frequency f (number of oscillations per second) is calculated: T
f1
T
f1
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Krautkramer NDT Ultrasonic Systems
Basic Principles of Ultrasonic Testing
180 36090 270
Phase
Time
a
0
The actual displacement a is termed as: sin A a sin A a
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Krautkramer NDT Ultrasonic Systems
Basic Principles of Ultrasonic TestingSpectrum of sound
Frequency range Hz Description Example
0 - 20 Infrasound Earth quake
20 - 20.000 Audible sound Speech, music
> 20.000 Ultrasound Bat, Quartz crystal
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Krautkramer NDT Ultrasonic Systems
Basic Principles of Ultrasonic Testing
gas liquid solid
Atomic structures
• low density• weak bonding forces
• medium density• medium bonding
forces
• high density • strong bonding forces• crystallographic
structure
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Krautkramer NDT Ultrasonic Systems
Basic Principles of Ultrasonic TestingUnderstanding wave propagation:
Spring = elastic bonding forceBall = atom
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Krautkramer NDT Ultrasonic Systems
Basic Principles of Ultrasonic Testing
T
distance travelled
start of oscillation
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Krautkramer NDT Ultrasonic Systems
Basic Principles of Ultrasonic Testing
T
Distance travelled
From this we derive:
or Wave equation
During one oscillation T the wave front propagates by the distance :
Tc
Tc f c f c
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Krautkramer NDT Ultrasonic Systems
Basic Principles of Ultrasonic Testing
Direction of oscillation
Direction of propagationLongitudinal wave
Sound propagation
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Krautkramer NDT Ultrasonic Systems
Basic Principles of Ultrasonic Testing
Direction of propagationTransverse waveDirection of oscillation
Sound propagation
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Krautkramer NDT Ultrasonic Systems
Basic Principles of Ultrasonic TestingWave propagation
AirWaterSteel, longSteel, trans
330 m/s
1480 m/s
3250 m/s
5920 m/s
Longitudinal waves propagate in all kind of materials.Transverse waves only propagate in solid bodies. Due to the different type of oscillation, transverse wavestravel at lower speeds.Sound velocity mainly depends on the density and E-modulus of the material.
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Krautkramer NDT Ultrasonic Systems
Basic Principles of Ultrasonic TestingReflection and Transmission
As soon as a sound wave comes to a change in material characteristics ,e.g. the surface of a workpiece, or an internal inclusion, wave propagation will change too:
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Krautkramer NDT Ultrasonic Systems
Basic Principles of Ultrasonic TestingBehaviour at an interface
Medium 1 Medium 2
Interface
Incoming wave Transmitted wave
Reflected wave
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Krautkramer NDT Ultrasonic Systems
Basic Principles of Ultrasonic TestingReflection + Transmission: Perspex - Steel
Incoming wave Transmitted wave
Reflected wave
Perspex Steel
1,87
1,00,87
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Krautkramer NDT Ultrasonic Systems
Basic Principles of Ultrasonic TestingReflection + Transmission: Steel - Perspex
0,13
1,0
-0,87
Perspex Steel
Incoming wave Transmitted wave
Reflected wave
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Krautkramer NDT Ultrasonic Systems
Basic Principles of Ultrasonic TestingAmplitude of sound transmissions:
• Strong reflection• Double transmission
• No reflection• Single transmission
• Strong reflection with inverted phase
• No transmission
Water - Steel Copper - Steel Steel - Air
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Krautkramer NDT Ultrasonic Systems
Basic Principles of Ultrasonic TestingPiezoelectric Effect
Piezoelectrical Crystal (Quartz)
Battery
+
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Krautkramer NDT Ultrasonic Systems
Basic Principles of Ultrasonic Testing
+
The crystal gets thicker, due to a distortion of the crystal lattice
Piezoelectric Effect
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Krautkramer NDT Ultrasonic Systems
Basic Principles of Ultrasonic Testing
+
The effect inverses with polarity change
Piezoelectric Effect
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Krautkramer NDT Ultrasonic Systems
Basic Principles of Ultrasonic Testing
An alternating voltage generates crystal oscillations at the frequency f
U(f)
Sound wave with
frequency f
Piezoelectric Effect
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Krautkramer NDT Ultrasonic Systems
Basic Principles of Ultrasonic Testing
A short voltage pulse generates an oscillation at the crystal‘s resonant
frequency f0
Short pulse ( < 1 µs )
Piezoelectric Effect
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Krautkramer NDT Ultrasonic Systems
Basic Principles of Ultrasonic TestingReception of ultrasonic waves
A sound wave hitting a piezoelectric crystal, induces crystal vibration which then causes electrical voltages at the crystal surfaces.
Electrical energy
Piezoelectrical crystal Ultrasonic wave
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Krautkramer NDT Ultrasonic Systems
Basic Principles of Ultrasonic TestingUltrasonic Probes
socket
crystal
Damping
Delay / protecting faceElectrical matchingCable
Straight beam probe Angle beam probeTR-probe
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Krautkramer NDT Ultrasonic Systems
Basic Principles of Ultrasonic Testing
100 ns
RF signal (short)
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Krautkramer NDT Ultrasonic Systems
Basic Principles of Ultrasonic TestingRF signal (medium)
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Krautkramer NDT Ultrasonic Systems
Basic Principles of Ultrasonic Testing
N
Near field Far field
Focus Angle of divergenceCrystalAccoustical axis
D0
6
Sound field
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Krautkramer NDT Ultrasonic Systems
Basic Principles of Ultrasonic TestingUltrasonic Instrument
0 2 4 8 106
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Krautkramer NDT Ultrasonic Systems
Basic Principles of Ultrasonic Testing
0 2 4 8 106
+-Uh
Ultrasonic Instrument
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Krautkramer NDT Ultrasonic Systems
Basic Principles of Ultrasonic Testing
0 2 4 8 106
+ -Uh
Ultrasonic Instrument
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Krautkramer NDT Ultrasonic Systems
Basic Principles of Ultrasonic Testing
0 2 4 8 106
+
+
-
-
U
U
h
v
Ultrasonic Instrument
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Krautkramer NDT Ultrasonic Systems
Basic Principles of Ultrasonic TestingBlock diagram: Ultrasonic Instrument
amplifier
work piece
probe
horizontal
sweep
clock
pulser
IP
BE
screen
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Krautkramer NDT Ultrasonic Systems
Basic Principles of Ultrasonic TestingSound reflection at a flaw
Probe
Flaw Sound travel path
Work piece
s
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Krautkramer NDT Ultrasonic Systems
Basic Principles of Ultrasonic TestingPlate testing
delaminationplate 0 2 4 6 8 10
IP
F
BE
IP = Initial pulse
F = Flaw
BE = Backwall echo
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Krautkramer NDT Ultrasonic Systems
Basic Principles of Ultrasonic Testing
0 2 4 6 8 10
s
s
Wall thickness measurement
Corrosion
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Krautkramer NDT Ultrasonic Systems
Basic Principles of Ultrasonic TestingThrough transmission testing
0 2 4 6 8 10
Through transmission signal
1
2
1
2
T
T
R
R
Flaw
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Krautkramer NDT Ultrasonic Systems
Basic Principles of Ultrasonic TestingWeld inspection
0 20 40 60 80 100
s
aa'
d
x
a = s sinßa = s sinß
a' = a - xa' = a - x
d' = s cosßd' = s cosß
d = 2T - t'd = 2T - t'
s
Lack of fusion
Work piece with welding
Fß = probe angles = sound patha = surface distancea‘ = reduced surface distanced‘ = virtual depthd = actual depthT = material thickness
ß
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Krautkramer NDT Ultrasonic Systems
Basic Principles of Ultrasonic TestingStraight beam inspection techniques:
Direct contact,
single element probe
Direct contact,
dual element probeFixed delay
Immersion testingThrough transmission
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Krautkramer NDT Ultrasonic Systems
Basic Principles of Ultrasonic Testing
surface = sound entry
backwall flaw
1 2
water delay
0 2 4 6 8 10 0 2 4 6 8 10
IE IEIP IP
BE BEF
1 2
Immersion testing