Ultrasonic Testing Level 2
This method employs high frequency sound pulses that are emitted from a transducer; this sound wave is induced in to the material through a probe which is usually in contact with the material. These sound waves propagate through the material, and are reflected back to the probe when they reach an interface. The reflected waves are transmitted back through the probe and connecting leads to a detector which can be either analogue or digital. The sounds waves are then displayed as a series of signals on a monitor and the qualified inspector can measure, and interpret these signals to allow accurate evaluation of the internal structure of the material.
Ultrasonic testing can not only be used to indicate a surface or subsurface flaw it can also be used to determine the depth, size and type of flaw. Another advantage of using UT is the accurate measurement of the thickness of the material. The method can be applied to most materials providing the material can transmit sound waves. UT is considered to be a fast and effective way of inspection providing high sensitive results.
We can provide Ultrasonic Testing (UT) training courses and examinations suitable for the following certification schemes at Level 1 & 2.
SNT-TC-1A, CP 189 in accordance with your company written practice
If a candidate wishes to go direct to Level 2 without first taking the Level 1 route, the minimum requirements are the total accumulative requirements of both Level 1 and 2.
We can also provide Preparation training for ASNT Level 3
NDT Academy can tailor make the syllabus to satisfy the requirements of an individual’s company specific written practice if requested.
Ultrasonic Testing Level II Topical Outline
1.0 Review of Ultrasonic Technique Course
2.0 Evaluation of Base -Material Product Forms
(Process review, Types, origin, and typical orientation of discontinuities, Response of discontinuities to ultrasound, Applicable codes/standards)
3.0 Evaluation of Weldments
4.0 Evaluation of Bonded Structures
5.0 Discontinuity Detection
5.1 Sensitivity to reflections
5.3 Determination of discontinuity size
5.4 Location of discontinuity
6.1 Comparison procedures
(Standards and references, Amplitude, area, and distance relationship, Application of results of other NDT methods)
6.2 Object appraisal
(History of part, Intended use of part, Existing and applicable code interpretation, Type of discontinuity and location)