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Welding Inspection and Metallurgy

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1 Welding Inspection and Metallurgy

2 Welding Inspection and Metallurgy
Non-Destructive Examination In this section we will primarily cover the NDE process not covered in ASME Section V. For classroom instruction we will only go over the highlights, strengths and weakness of the given processes. Once again this is a subject that will demand a lot of personal study for the candidate to fare well on the exam. Expect to put many hours into this and the previous welding material.

3 Welding Inspection and Metallurgy
Section 9 Non-Destructive Examination Be warned, as regards the examination the amount of detail about the actual practice of NDE in Section 9 is huge, when taken as a whole. It is really only an overview of the common NDE processes. There are about 13 pages of text, a dozen or so Tables, and approximately 40 Figures. This is going to take a lot of study.

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Non-Destructive Examination Discontinuities The following statements from this section should give a good clue as to how the API committee will handle questions from this area. “The inspector should choose an NDE method capable of detecting the discontinuity in the type of weld joint due to the configuration. Table 2 and Figure 11 lists the common types and location of discontinuities and illustrates their positions within a butt weld. The most commonly used NDE methods used during weld inspection are shown in Table 3.”

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Non-Destructive Examination Discontinuities “Table 4 lists the various weld joint types and common NDE methods available to inspect their configuration. Table 5 further lists the detection capabilities of the most common NDE methods. Additional methods, like alternating current field measurement (ACFM), have applications in weld inspection and are described in this section but are less commonly used.”

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Non-Destructive Examination Discontinuities “The inspector should be aware of discontinuities common to specific base metals and weld processes to assure these discontinuities are detectable. Table 6 is a summary of these discontinuities, potential NDE methods and possible solutions to the weld process.”

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Common Types of Discontinuities

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Common Types of Discontinuities

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Commonly Used NDE Methods

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Capability of the Applicable Method for Weld Types

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Capability of the Applicable Method Vs. Discontinuity

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Discontinuities Commonly Encountered in Welding Processes

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Discontinuities Commonly Encountered in Welding Processes

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MATERIALS IDENTIFICATION During welding inspection, the inspector may need to verify the conformance of the base material and filler metal chemistries with the selected or specified alloyed materials. This may include reviewing the certified mill test report, reviewing stamps or markings on the components, or require PMI testing. It is the responsibility of the owner/user to establish a written material verification program indicating the extent and type of PMI to be conducted. Guidelines for material control and verification are outlined in API RP 578.

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VISUAL EXAMINATION (VT) Visual examination is the most extensively used NDE method for welds. It includes either the direct or indirect observation of the exposed surfaces of the weld and base metal. Direct visual examination is conducted when access is sufficient to place the eye within 6 in. – 24 in. (150 mm – 600 mm) of the surface to be examined and at an angle not less than 30 degrees to the surface as illustrated in Figure 12. Mirrors may be used to improve the angle of vision. Remote visual examination may be substituted for direct examination.

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VISUAL EXAMINATION (VT) Remote examination may use aids such as telescopes, borescopes, fiberscope, cameras or other suitable instruments, provided they have a resolution at least equivalent to that which is attained by direct visual examination. In either case, the illumination should be sufficient to allow resolution of fine detail. These illumination requirements are to be addressed in a written procedure.

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Figure 12 – Direct Visual Examination Requirements

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VISUAL EXAMINATION (VT) Complete your studies by becoming familiar with all of the remaining topics in this section. Optical Aids Mechanical Aids Weld Examination Devices Concentrate on the various figures and the name of each inspection device, how it is used, and what it is used for. Also be aware that pictures can be part of the exam.

19 Example: The inspection tool in the picture below is ______________. a Bridge Cam Gauge a T-Fillet Weld Gauge a Weld Fillet Gauge an Adjustable Fillet Weld Gauge

20 Welding Inspection and Metallurgy
Alternating Current Field Measurement (ACFM) Principle of Operation The ACFM technique is an electromagnetic non-contacting technique that is able to detect and size surface breaking defects in a range of different materials and through coatings of varying thickness. This technique is ideal for inspecting complex geometries such as nozzles, ring-grooves, grind-out areas or radiuses. It requires minimal surface preparation and can be used at elevated temperatures up to 900°F (482°C). With its increased sensitivity to shallow cracks, ACFM is used for the evaluation and monitoring of existing cracks.

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Alternating Current Field Measurement (ACFM) ACFM uses a probe similar to an eddy current probe and introduces an alternating current in a thin skin near to the surface of any conductor. When a uniform current is introduced into the area under test, if it is defect free, the current is undisturbed. If the area has a crack present, the current flows around the ends and the faces of the crack. A magnetic field is present above the surface associated with this uniform alternating current and will be disturbed if a surface-breaking crack is present.

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Automated Ultrasonic Testing (AUT) Principle of Operation Volumetric Inspection of welds may be performed using one of the three automated ultrasonic weld inspection techniques: a. Pulse Echo Raster Scanning: This technique inspects with zero degree compression and two angle beam transducers interrogating the weld from either side simultaneously. The compression transducers examine for corrosion or laminar defects in the base metal and the angle beam transducers scan the volume of the weld metal.

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Automated Ultrasonic Testing (AUT) Principle of Operation b. Pulse Echo Zoned Inspection: The zoned inspection is a Line Scan technique. The technique uses an array of transducers on either side of the weld with the transducer angles and transit time gates set to ensure that the complete volume of the weld is inspected. c. Time of Flight Diffraction (TOFD): This is a line scan technique used in the pitch-catch mode. The multi-mode transducers are used to obtain the maximum volume inspection of the weld region. More than one set of transducers may be required for a complete volumetric inspection.

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Discontinuity Evaluation and Sizing This paragraph details the various methods by which discontinuities can be evaluated. The highlights are; One commonly used sizing technique is called the “intensity drop” technique. This sizing technique uses the beam spread to determine the edges of the reflector. The 6 dB drop technique is commonly used to determine length of the reflector. Using this technique, the transducer is positioned on the part such that the amplitude from the reflector is maximized. This point is marked with a grease pencil. The UT instrument is adjusted to set the signal to 80% full screen height (FSH).

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Discontinuity Evaluation and Sizing The transducer is then moved laterally until the echo has dropped to 40% FSH (6dB). This position is also marked. The transducer is then moved laterally in the other direction, past the maximum amplitude point, until the echo response again reaches 40% FSH. This point is marked with the grease pencil. The two outside marks represent the linear dimension of the reflector.

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Discontinuity Evaluation and Sizing The intensity drop sizing technique can also be used to determine the through thickness of the reflector. However the transducer is moved forward and backwards from the reflector and the corresponding time base sweep position from the UT instrument is noted at each of the positions. This information is then plotted to determine the discontinuity location with respect to the inside or outside diameter of the part being examined, and the through thickness dimension of the reflector.

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Discontinuity Evaluation and Sizing Paragraph has the following sub-paragraphs covering other flaw sizing methods. The ID Creeping Wave Method The Tip Diffraction Method The High Angle Longitudinal Method The Bimodal Method

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Discontinuity Evaluation and Sizing Before the exam you must be able to recognize each technique’s description and be able to distinguish the differences between them.

29 Class Quiz 1. The method of evaluating the size of a discontinuity that uses a global approach and divides into thirds a section thickness is_____________. a. Tip Diffraction b. High Angle Longitudinal c. ID Creeping Wave Method d. Intensity Drop Technique 2. The technique that uses an array of transducers on either side of the weld is ____________. a. Time of Flight Diffraction b. The Bimodal Method c. Pulse Echo Raster d. Pulse Echo Zone

30 Solution 1. The method of evaluating the size of a discontinuity that uses a global approach and divides into thirds a section thickness is _____________. c. ID Creeping Wave Method 2. The technique that uses an array of transducers on either side of the weld is ____________. d. Pulse Echo Zone


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