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NDT Consultancy
NDT
Training Courses
Penetrant Inspection
Etch Inspection
Magnetic Particle Inspection
Ultrasonic Inspection
Radiography, Digital Radiography
Eddy Current Inspection
Level III Training
Training Calendar
Information for Students
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Ultrasonic Inspection
Training Course
Ultrasonic Testing (UT) uses high frequency sound energy to
conduct examinations and make measurements. Ultrasonic Inspection
can be used for flaw detection/evaluation, dimensional measurements,
material characterization, and more.
A typical UT
Inspection system consists of several functional units, such as the
pulser/receiver, transducer, and display devices. A pulser/receiver is
an electronic device that can produce high voltage electrical pulses.
Driven by the pulser, the transducer generates high frequency ultrasonic
energy. The sound energy is introduced and propagates through the
materials in the form of waves. When there is a discontinuity (such as a
crack) in the wave path, part of the energy will be reflected back from
the flaw surface. The reflected wave signal is transformed into an
electrical signal by the transducer and is displayed on a screen. In the
applet below, the reflected signal strength is displayed versus the time
from signal generation to when a echo was received. Signal travel time
can be directly related to the distance that the signal traveled. From
the signal, information about the reflector location, size, orientation
and other features can sometimes be gained.
Ultrasonic
Inspection is a very useful and versatile NDT method. Some of the
advantages of Ultrasonic Inspection that are often cited
include:
- It is sensitive to both surface and subsurface discontinuities.
- The depth of penetration for flaw detection or measurement is superior
to other NDT methods.
- Only single-sided access is needed when the pulse-echo technique is
used.
- It is highly accurate in determining reflector position and estimating
size and shape.
- Minimal part preparation is required.
- Electronic equipment provides instantaneous results.
- Detailed images can be produced with automated systems.
- It has other uses, such as thickness measurement, in addition to flaw
detection.
As with all NDT methods, Ultrasonic Inspection also has its
limitations, which include:
- Surface must be accessible to transmit ultrasound.
- Skill and training is more extensive than with some other methods.
- It normally requires a coupling medium to promote the transfer of
sound energy into the test specimen.
- Materials that are rough, irregular in shape, very small,
exceptionally thin or not homogeneous are difficult to inspect.
- Cast iron and other coarse grained materials are difficult to inspect
due to low sound transmission and high signal noise.
- Linear defects oriented parallel to the sound beam may go undetected.
- Reference standards are required for both equipment calibration and
the characterization of flaws.
For course registrations write us at
sales@ndt-consultants.co.uk
Level I Syllabus
Level II Syllabus
NDT Training
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