Unit 5
Special NDT techniques
Working Principle and working of eddy current inspection:
Fig.1: Eddy current
Method of ECT:
Methods of ECI are following as:
2. Reflection methods:
Fig.2: Reflection method
3. Transmission Method:
Equipment for ECT:
b. Standard impedance Plane Display Instruments:
It is a general-purpose instrument that can perform a variety of eddy current applications.
It displays the condition of the material in a characteristics manner and shows the variation in both inductive reactance and resistance during testing.
Working operation of impedance plane display instruments is controlled by the following factors.
C. Multi-frequency Instruments:
Key Takeaway points: It is the technique that uses electromagnetic induction to detect defects in an electrically conductive material. In this technique, a conductive material carrying alternating current is bought in proximity to the test specimen, it generates eddy current.
Following are the techniques of the Eddy current testing:
Some of the advanced ECT methods are:
2. Eddy Current Array:
(a). Applications of ECT are:
(b). Scope of ECT:
(c). Limitations of ECT:
(i) Types of probes:
2. Differential probes:
It consists of two active coils coupled to the test specimen with one portion of the test specimen being compared to another portion.
Fig.3: Differential probe
When a flawless test specimen is tested using this probe, no differential signal is developed between these two active coils.
However when one coil is over flawed part of a test specimen and the other one is over flawless part of the same test specimen, a differential signal is produced.
b. Based on the configuration of probes:
2. Shielded Probes:
3. Encircling Probes:
(ii) Case study:
b. Tube up to 3 Inches Diameter:
Fig. 4: Holography
Principle of Holography:
The basic principle of holography can be explained in two steps:
Splitter s is used to divide a laser beam into two beams A and B.
The transmitted beam illuminates the object and the light scattered by the object impinges on a photographic plate. The reflected beam A falls on to the photographic plate. This beam is known as a reference beam.
An interference pattern that we get due to the superposition of two beams is recorded on the plate.
The developed plate is known as a hologram. The hologram contains enough information to produce a complete reconstruction of the object.
b. Reconstructing the image:
In the reconstruction process, the hologram is illuminated by a reconstruction wave, which in most cases is identical to the reference wave used for forming the hologram.
The reconstruction wave after passing through the hologram produces two images. One of them appears at the original position occupied by the object (virtual image) and the other (real image) can be photographed directly without using a lens.
The virtual image which is seen by looking through the hologram appears incomplete three-dimensional forms. If one moves his eyes, it is possible to see the other sides of the object.
The real image has all the properties as in the case of a virtual image and is the form between the observer and the plates as shown in the figure.
However, the real images reverse foreground and background, so the interest of the observer lies in the virtual image.
Key Takeaway points:
It is a new method of recording optical images is known as holography. It means a complete recording. During this process superimposition of two waves takes place.
Key Takeaway points:
It is an example of infrared imaging science. Thermographic cameras usually detect radiation in the long infrared range of the electromagnetic spectrum.
Fig.5: Acoustic emission testing
The following parameters are used to identify AE events:
Applications:
Advantages:
Disadvantages:
Key take away points:
The piezoelectric transducer is directly attached to the test object with a coupling medium and secured with tape. The voltage output from the transducer is fed into the pre-amplifier, which is placed closed to the transducers.
References: