OmniScan X3 Phased-Array-Prüfgerät mit TFM-Funktion
Erkennung und Bestimmung kleinerer Hohlräume aufgrund von Wasserstoffversprödung bei hohen Temperaturen (HTHA)
Da eine frühe HTHA-Erkennung wichtig ist, werden häufig mehrere Prüfmethoden verwendet, um die Erkennungswahrscheinlichkeit zu erhöhen. Laufzeitbeugung (TOFD), Full Matrix Capture (FMC) und Dual Linear Array (DLA) haben sich als besonders effektive Erfassungsmethoden für diese Prüfanwendung erwiesen. Das OmniScan X3 Prüfgerät unterstützt diese Methoden vollständig. Seine innovative TFM-Bildgebung und Softwaretools können die Prüfeinstellung und die Analyse vereinfachen.
Die HTHA-optimierte Sensorserie von Olympus und das OmniScan X3 Prüfgerät bilden eine vollständige Prüflösung für die frühere HTHA-Erkennung:
Integrierte DLA-Sensorkonfiguration
Live TFM-Bild entfernt Signaloszillationen
Hochaufgelöstes TFM-Bild (bis zu 1,024 × 1,024 Punkte)
Erweiterte Apertur mit 64 Elementen im TFM-Modus
Probes
High-Sensitivity Probes for HTHA
Earlier and More Reliable Detection of High-Temperature Hydrogen Attack
Maximize Your Angle-Beam Coverage of the Weld and Heat-Affected Zone
A38 and A28 Dual Linear Array™ Angle-Beam Probes
High-sensitivity 10 MHz dual arrays in pitch-catch configuration
Small element pitch enables clear TFM imaging and wide-angle coverage of the weld and heat-affected zone (HAZ)
Patented pivoting housing allows closer positioning of the arrays, extending the probe’s through-thickness coverage
Dedicated wedge series covering pipe diameters from 4 to 48 in. OD and thicknesses up to 95 mm (3.74 in.)
64-element arrays of the A38 DLA enable sharper and deeper focusing, unlocking the full potential of the OmniScan™ X3 64 flaw detector
32-element arrays of the A28 DLA offer a smaller wedge footprint for easy access and coupling near the weld
Fast Scanning of Parent Materials for Reliable Detection of HTHA
Zero-Degree REX1 Dual Linear Array Probe
10 MHz dual 64-element arrays
Beam width coverage up to 30 mm (1.18 in.)
Adjustable stabilization and carbide wear protection system fits to the surfaces of pipes as small as 4 inches (101.6 mm) OD
Integrated wedges covering thicknesses from 4 mm to 95 mm (0.16 in. to 3.74 in.)
Provides clear C-scan images when used with an encoder or scanner
Leverage Multiple Inspection Methods for Reliable HTHA Detection
A31 and A32 Pulse-Echo Probes Optimized for HTHA
Offering high definition, these 10 MHz 64-element linear probes are optimized for efficient TFM and PWI inspections
Smaller element pitch of the A31 probe enables wide-angle coverage of the weld and HAZ
Wider total aperture of the A32 probe enables finer resolution and deeper focusing
Specifications
Part Number/Description
Item Number
Frequency (MHz)
Element Configuration
No. of Elements
Pitch (mm)
Active Aperture (mm)
Elevation (mm)
Roof Angle (deg)
Thickness Range (mm)
10DL32-9.6X5-A28
(FD25 wedge)
Q3301742
10
Dual 32
64
0.3
9.6
5
Set by wedge
4–45
10DL32-9.6X5-A28
(FD60 wedge)
Q3301742
10
Dual 32
64
0.3
9.6
5
Set by wedge
45–95
10DL64-19.2X5-A38
(FD25 wedge)
Q3302412
10
Dual 64
128
0.3
19.2
5
Set by wedge
4–45
10DL64-19.2X5-A38
(FD60 wedge)
Q3302412
10
Dual 64
128
0.3
19.2
5
Set by wedge
45–95
10DL64-32X5-1DEG-REX1-PR
Q3301737
10
Dual 64
128
0.5
32
5
1
30–95
10DL64-32X5-5DEG-REX1-PR
Q3301733
10
Dual 64
128
0.5
32
5
5
4–30
10L64-19.84X10-A31
Q3301607
10
Linear
64
0.31
19.84
10
N/A
3–90
10L64-32X10-A32
Q3300429
10
Linear
64
0.5
32
10
N/A
8–110
Although all Dual Linear Array probes are manufactured with 10 MHz piezo-composite, the tested center frequency specification of the REX1 models shifts down to ~9.0 MHz because of attenuation occurring in the integrated wedge.
These probes come standard with an OmniScan™ connector and a 2.5 m (8.2 ft) cable or can be specially fitted with other connectors and cable lengths.
Important note: Using phased array probes in direct contact with a surface during inspection can lead to permanent damage. A wedge should always be used.
Wedges for A38 and A28 Probes
The A38 and A28 DLA probes’ dedicated angle-beam wedge series are optimized for weld volume and heat-affected zone inspection. The angle of these wedges is set to generate L-waves at a 65-degree nominal incident angle in steel. They feature a roof angle calculated for each AOD diameter from 4 in. to 48 in. (101.6 mm to 1220 mm).
SA38 and SA28 wedges are available in two focus depths (FD) to cover a wide range of thicknesses, from 4 mm to 95 mm (0.16 in. to 3.74 in.). These wedges enable you to fully exploit the A38 probe’s extended focusing capabilities.