Unit 5
Special NDT techniques
Q1) Explain principle Eddy current inspection and its advantages.
Answer: It is the technique which 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.
The principle of eddy current inspection is as mentioned below:
Fig.1: Eddy current
Advantages of ECI:
Q2) Explain the different method for ECT.
Answer. There are three major methods for eddy current technique.
2. Reflection methods:
Fig.2: Reflection method
3. Transmission Method:
Q3) Mention the important equipments used in Eddy Current Testing.
Answer: Dedicated instruments:
It is general purpose instrument which can perform variety of eddy current applications.
It displays the condition of material in a characteristics manner and shows variation in both inductive reactance and resistance during testing.
Working operation of impedance plane display instruments is controlled by following factors.
C. Multi-frequency Instruments:
Q4) Describe Sensitivity of Eddy current testing.
Answer: The sensitivity of defect detection depends upon the test material, its structure, the type of type of defect, the orientation of the defect, the depth of the defect, material quality and surface condition that is surface roughness.
The detection sensitivity also depends upon the particular test technique, the type, magnitude and frequency of the excitation, and the type, size and performance of the sensors.
The encircling coils see a large surface area of the material under test and therefore, their sensitivity is intrinsically less than a point probe system.
In addition, the lift –off effect is inescapable and the ‘fit’ of the coils round the rest object is critical.
The greater the mismatch between the diameter of the coil and the diameter of and the diameter of the object, the lower will be sensitivity.
Increasing the amplification of the measurement signal will be partially overcome this problem but such amplification applies also to noise levels and the sensitivity is usually limited by this factor.
Q5) Explain pulsed eddy current testing and eddy current array method for eddy current testing.
Answer: 1. Pulsed Eddy Current:
Q6) Explain the scope, applications and limitation of Eddy current technique.
Answer: Applications of ECT are:
(b). Scope of ECT:
(c). Limitations of ECT:
Q7) Define absolute and differential probe.
Answer: 1. Absolute probe:
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 flaw less 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 other one is over flawless part of the same test specimen, a differential signal is produced.
Q8) What is holography? Explain.
Answer: The image of three dimensional object is recorded on a two dimensional photographic plate. When a photograph is recorded, the phase distribution at the plane of the photograph is lost because emulsion on the photographic plate is sensitive only to intensity variations. Hence, three dimensional characters are lost.
Fig.: Holography
Principle of Holography:
The basic principle of holography can be explained in to 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 reference beam.
An interference pattern which we get due to superposition of two beams is recorded on the plate.
The developed plate is known as hologram. The hologram contains enough information to produce 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 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) which 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 virtual image and is form between the observer and the plates as shown in figure.
However, the real images reverse foreground and background, so the interest of the observer lies in the virtual image.
Q9) Explain Thermography.
Answer: It is the example of infrared imaging science. Thermo graphic cameras usually detect radiation in the long infrared range of electromagnetic spectrum.
An infrared camera or monitor is used to observe the actual temperature or the variation over an area, of the surface of a plant item. Variations in heat transfers through the walls may be attributable to wall thinning or the build of a scale. It may indicate the presence of wet insulation and the potential conditions for corrosion under insulation (CUI). Alternatively, a heat source can be used to heat the surface and the dispersion of the heat observed.
Unexpected changes in the heat flow can be used to identify defects. For containers containing hot or cold liquid, it is possible to observe the level of liquid in the item non-invasively. The size of defect which can be detected will depend upon the optical parameters of the system and the resolution of the camera.
In accessing the results, the emissivity of any pants or coatings on the component need to be considered. Reflections of sunlight can also distort readings. The technique non-contacting and only line of sight to the surface under examination is required. It is quick and easy to apply but can only detect defects and or faults which cause a change in heat flow or the surface temperature of the item.
Q10) What is acoustic emission testing? Explain.
Answer: The phenomenon of generating transient elastic waves during the release of energy from localised sources within a solid material is called acoustic emission (AE). Dislocations resulting from plastic deformations cause AE.
The elastic waves generated in this manner propagate in all directions and reach the surface of the material, where they are detected with the help of piezoelectric transducers.
Fig.5: Acoustic emission testing
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.
The pre-amplifier eliminates mechanical, acoustical and background noise. However, it also generates electrical noise, which limits the sensitivity of the system.
The pre-amplifier signal is passed through a variable band pass filter to the main amplifier connected to a signal analysis system. The signal analysis system produces a signal each time the amplifier voltage signal exceeds a select threshold level.
The following parameters are used to identify AE events: