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Flaw Detection

FD100 PA 16:64

Metal and composite flaw detection using ultrasound
  • Compatible with any 64-element linear phased array probe
  • Simple 30 second configuration
  • C-scans can be displayed in amplitude or depth


Wheel Probe for Inspecting Composite Materials / C-Scan Corrosion Mapping with a Linear Array Prob / High Speed Inspection of Long Products

Flexible high-tech ultrasonic inspection offering an extremely comprehensive measurement solution

Proceq offers the possibility to order customized accessories such as probes, wedges and calibration blocks so that our solution is tailor-made to your need.

Ease of use

Plug-and-play compatibility with a wheel probe for fast and efficient corrosion mapping or large composites inspection.


C-scans can be displayed in amplitude or depth. With merged C-scans, data is displayed for all inspection passes in the same view.

FD100 PA 16:64 Tech Specs
Tech Specs
2 UT & 1 l-PEX Channels

Transducer Socket
Lemo1 - BCD

Pulse Voltage
25 to 75 V (in 5 V steps)

1 to 5000 Hz

Gain Range
PA: 76 dB (0.1 dB steps)

PA: 200 KHz to 14 MHz
UT 200 KHz to 22 MHz

TFT 8.4"

Signal Enhancement
Digital filters, smoothing, contouring, rejection, averaging

16 active, multiplexed over 64 channels

Digitizing Frequency
65 MHz

Focal Laws

Maximum A Scan Length

Supported Scans
A, B, C, L, S-Scan, Merged, true Top & End

Number of Scans
1 (with up to 3 extracted A scans)

Number of Layouts

Path length, depth, surface distance, DAC, AWS, DGS, TGS

File Size
Up to 3 GB

Report Generation
Customisable pdf report, PNG screen capture, CSV file output option

1 or 2 axis (quadrature input)

English, German, French, Spanish, Russian, Chinese, Hungarian, Italian, Portuguese, and Japanese

Battery Life
6 Hrs

IP rating

Innovation Award
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What is an ultrasonic flaw detector?
It is an instrument suitable to perform Non distructive inspection on several type of material ,field and segment. It is utilized in Aerospace, auotmotive, Oil & Gas and al lthe other segment where is mandatory or raccomanded to control the quality and the deterioration of a component during is working life.Based on ultrasounds laws allow to detect deveral types of difects as:corrosion, porosity, cracks. It allow als oto measure thickness of the component

What defects can you find with a flaw detector?
A variety of flaws occur in materials and parts either during manufacturing or due to the aging effect in the field and can be found with a flaw detector: Void / Porosity Inclusions Cracks (subsurface or surface) Weld Bond Defects (incomplete melting, HAZ) Corrosion / Oxidation Abrasion / Erosion Machining or Grinding Damage Forging Flaws Casting Flaws Forming / Rolling Mill Flaws Adhesive / Sealant Debonding Composite / Honeycomb Delamination Wire Rope / Cable Flaws Pipe / Tubing Flaws

What are the types of NDT?
Many different NDT methods are available in the industry, each of them having its own advantages and limitations, but six of them are most frequently used: ultrasonic testing (UT), radiographic testing (RT), electromagnetic testing (ET), magnetic particle testing (MT), liquid penetrant testing (PT) and visual testing (VT). Other techniques include acoustic emission testing (AE), guided wave testing (GW), laser testing methods (LM), acoustic resonance testing (ART), leak testing (LT), magnetic flux leakage (MFL), vibration analysis (VA), and infrared testing (IR).

What materials can be tested with ultrasonic testing?
In industrial applications, the majority of materials can be inspected with UT including plastics, composites, and ceramics. The only materials that are not suitable for ultrasonic testing with conventional equipment are wood and paper products.

What are the disadvantages of phased array testing as compared with conventional UT?
The potential disadvantage of phased array systems is the request for a higher initial investment in terms of instruments and accessories (probes). It is also necessary to invest in training for the operators. However, these costs are frequently offset by their greater flexibility and a reduction in the time required to perform a given inspection.

What does PA UT or PAUT mean?
Phased Array Ultrasonic Testing (PAUT) is an advanced non-destructive examination technique that utilizes a set of ultrasonic testing (UT) probes made up of numerous small elements, each of which is pulsed individually with computer-calculated timing.

Why use PAUT techologies?
Phased Array Ultrasonic Testing (PAUT) can be used to inspect more complex geometries that are difficult and much slower to inspect with single probes. PAUT can be used to inspect almost any material where traditional UT methods have been utilized and are often used for weld inspections and crack detection. The advantages of phased array technology over traditional UT derive from its ability to use multiple elements for steering, focusing, and scanning beams with a single transducer assembly. Beam steering generally referred to as sector scanning, may be used for mapping components at suitable angles. This will greatly simplify the inspection of complex geometry components.

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Standards & Guidelines


  • Arrow, click names to download Standards & Guidelines ГОСТ 14782
  • Arrow, click names to download Standards & Guidelines ГОСТ 55724
  • Arrow, click names to download Standards & Guidelines EN 12668-1
  • Arrow, click names to download Standards & Guidelines ISO 18563-1