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10171 Conformable Array Corrosion Mapping Tool

Picture for 10171 Conformable Array Corrosion Mapping Tool
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Product Number: 51300-10171-SG
ISBN: 10171 2010 CP
Author: Shawn Laughlin
Publication Date: 2010
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$20.00
$20.00
Corrosion detected by in-line inspection tools or bell-hole examination must undergo subsequent evaluation to determine the proper action, if any, to be taken. A corrosion assessment must be made before deciding to repair the corroded area or to remove it from service. Traditional practice uses manual measurements along a mapped grid over the locations on the pipe. Newer, more accurate corrosion assessment methods use detailed measurements of the corrosion profile rather than simply the length and maximum depth of the defect area. The industry needs a simple, more accurate method for measuring corrosion patches in the field under adverse environmental conditions. Measurements must be accurate enough to support advanced assessment methods. The design should lend itself to mass production and be inexpensive enough that an operating district or a maintenance department can have a measuring system available for use by field personnel. Further, it should be easy to make the measured data available to engineering personnel for detailed analysis.

A flexible printed circuit board laid on the outside circumference of the pipe will provide a reference point to which defect depth can be referenced. The printed circuit card material is imprinted with lift-off transducers on a high-resolution grid, and these transducers are scanned, and the data recorded, then an accurate image of the defect can be obtained. A laptop computer is used to power the array and record the acquired data. Software will display the defect image and automatically extract necessary information for defect assessment. Larger defect areas will be assessed using multiple scans. Software will merge multiple scans into a seamless image.

KEY WORDS: conformable eddy current array, conformable array, eddy current array, electronic rubbing, corrosion mapping, external corrosion, ILI tool validation, defect assessment
Corrosion detected by in-line inspection tools or bell-hole examination must undergo subsequent evaluation to determine the proper action, if any, to be taken. A corrosion assessment must be made before deciding to repair the corroded area or to remove it from service. Traditional practice uses manual measurements along a mapped grid over the locations on the pipe. Newer, more accurate corrosion assessment methods use detailed measurements of the corrosion profile rather than simply the length and maximum depth of the defect area. The industry needs a simple, more accurate method for measuring corrosion patches in the field under adverse environmental conditions. Measurements must be accurate enough to support advanced assessment methods. The design should lend itself to mass production and be inexpensive enough that an operating district or a maintenance department can have a measuring system available for use by field personnel. Further, it should be easy to make the measured data available to engineering personnel for detailed analysis.

A flexible printed circuit board laid on the outside circumference of the pipe will provide a reference point to which defect depth can be referenced. The printed circuit card material is imprinted with lift-off transducers on a high-resolution grid, and these transducers are scanned, and the data recorded, then an accurate image of the defect can be obtained. A laptop computer is used to power the array and record the acquired data. Software will display the defect image and automatically extract necessary information for defect assessment. Larger defect areas will be assessed using multiple scans. Software will merge multiple scans into a seamless image.

KEY WORDS: conformable eddy current array, conformable array, eddy current array, electronic rubbing, corrosion mapping, external corrosion, ILI tool validation, defect assessment
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