Thiết bị siêu âm khuyết tật - Isonic 2009

Thông tin sản phẩm

Thiết bị siêu âm khuyết tật

Model : Isonic 2009

Hãng sản xuất : Sonotron

Most Powerful Superior Performance Portable
Smart Phased Array Ultrasonic Flaw Detector and Recorder
with Conventional UT and TOFD Channels

Flaw Detection and Thickness / Corrosion Mapping

True-To-Geometry Volume Overlay and 3D Coverage and Imaging for:

Butt Welds (Planar and CIrcumferential) with

Symmetrycal or Asymmetrical Bevel or Unbeveled

Equivalent or Different Thickness of Jointed Parts

Longitudinal Welds

Fillet, Tee-, and TKY- Welds - Flat and Curved Parts

Corner and Nozzle Welds

Lap Joints

Elbow and Transit Welds

Simple and Complex Geometry Solid and Hollow Shafts and Axles

Drill Rods, Bridge Hanger Pins, Bolts

Turbine Blades

Flat and Curved Carbon Fiber, Glass Fiber, Honeycombs Parts Including Corners and Radius Areas

etc

TOFD

CHIME and SRGW - Short Range Guided Wave

Operating 1 or 2 PA Probes Simultaneously: No External Splitter Required

Fully Parallel Architecture 64:64 expandable to 128:128

Freely Adjustable Emitting and Receiving Aperture

EquPAS – the Equalized Phased Array Ultrasonic Testing (PAUT) Sensitivity

Intuitive User Interface

Remote Control, Observation of the Indications, and Data Acquisition

and much more...

Phased Array (PA) Modality:

Fully parallel 64:64 PA electronics expandable to 128:128 / 256:256 functionality
1 or 2 PA probe terminals: 1 X 64:64 only or 1 X 64:64 / 2 X 32:32 - switchable: there is no external splitter required for operating 2 PA probes simultaneously
Ability of work with PA probes carrying up to 128 elements
Independently adjustable emitting and receiving aperture with parallel firing, A/D conversion, and on-the-fly real time digital phasing
Phased array pulser receiver with image guided ray tracing / scan plan designer for the numerous types of simple and complex geometry welds, shafts, bolts, spindles, composite profiles, and the like
8192 independently adjustable focal laws
Bi-polar square wave initial pulse: up to 300 Vpp / 100 dB analogue gain / 0.2...25 MHz bandpass / 16 bit 100 MHz ADC / 32 taps smoothly tunable digital filter
Regular and volume overlay B-Scan / Sector Scan (S-Scan) / Tandem-B-Scan / Tip-diffraction B-Scan / Horizontal Plane S-Scan (CB-Scan) coverage accompanied with all-codes-compliant A-Scan based evaluation
Multigroup coverage composed of several cross-sectional B- and S-Scans
Strip Chart
Single group and multigroup Top (C-Scan), Side, End View imaging formed through encoded / time-based line scanning, 3D-Viewer
Single side / both sides weld coverage with use of one PA probe / pair of PA probes
TOFD Map out of a pair of PA probes
Top (C-Scan), Side, End View imaging formed through encoded XY- scanning, 3D-Viewer
Real time 3D-Scan composed with use of Matrix Array Probes
Built-in automatic coupling monitor and lamination checker for wedged probes
Equalized cross sectional coverage sensitivity: TCG-independent gain per focal law adjustment providing pure angle gain compensation for S-Scan, etc
DAC, TCG
Dynamic Focusing
FMC, TFM, Back Diffraction Technique with / without and Mode Conversion
Processing of diffracted and mode converted signals for defects sizing and pattern recognition
Operating matrix-array probes with real time three-dimensional imaging (3D-Scan)
100% raw data capturing
Automatic alarming defects / generating of editable defects list upon scanning completed
Advanced defects sizing and pattern recognition utilities

Conventional UT and TOFD:

1, 8, or 16* channels
Single / dual modes of pulsing/receiving for every channel
Bi-polar square wave initial pulse: up to 400 Vpp / 100 dB analogue gain / 0.2...25 MHz bandpass / 16 bit 100 MHz ADC / 32 taps smoothly tunable digital filter
Regular A-Scan
Thickness B-Scan
True-to-Geometry flaw detection B-Scan – straight / angle beam probes
CB-Scan
TOFD
Strip Chart and Stripped C-Scan
Parallel or sequential pulsing/receiving and A/D conversion
DAC, DGS, TCG
FFT signal analysis
100% raw data capturing

General:

Intuitive User Interface

Single and multi-axis encoder connection

Comprehensive postprocessing and data reporting toolkit

Remote control and data capturing with use of a regualr PC with no need in special software

No intake air / no cooling IP 65 light rugged case

Sealed all-functional keyboard and mouse

Large 8.5” bright touch screen

Ethernet, USB, sVGA terminals

ISONIC 2009 UPA Scope uniquely combines PA, single- and multi-channel conventional UT, and TOFD modalities providing 100% raw data recording and imaging. Along with thr intuitive user interface, portability, lightweight, and battery operation this makes it suitable for all kinds of every-day ultrasonic inspections

The PA modality is carried by the fully parallel non-multiplexed 64:64 electronics with independently adjustable emitting and receiving aperture, each may consist of 1...64 elements when operating one PA probe or 1...32 elements per probe in case of operating two PA probes simultaneouslythere is no external splitter required for the simultaneous use of 2 PA probes. The 256- and 128-elements PA probes may be used with ISONIC 3510 as well upon they are connected to the corresponding instrument’s terminals through the various miniature extenders expanding the functionality to the fully parallel 1 X 256:256, 1 X 128:128, 2 X 128:128, and 2 X 64:64 modes with no multiplexing involved (depending on the type and quantity of the extenders). The groups of phased array probe elements composing the emitting and receiving aperture may be fully or partially matching or totally separated allowing flexible managing of the incidence angles, focal distances, types of radiated and received waves including directly reflected and diffracted signals either mode converted or not

Each channel is equipped with the own pulser-receiver and A/D converter. Parallel firing, A/D conversion, and ”on-the-fly” digital phasing are performed for every possible composition and size of the emitting and receiving aperture so the implementing of each focal law is completed within a single pulsing/receiving cycle providing the maximal possible speed of material coverage

ISONIC 2009 UPA Scope allows using of the various types PA probes: linear and rings arrays (LA and RA), dual linear arrays (LA), matrix arrays (MA), dual matrix arrays (DMA), etc

In addition to PA electronics ISONIC 2009 UPA Scope carries 1, 8, or 16* independent conventional channels for implementing of the regular UT and TOFD inspection; each channel is capable for both single and dual modes of use

The top level ultrasonic performance is achieved through firing PA, TOFD, and conventional probes with the bipolar square wave initial pulse with wide-range-tunable duration and amplitude (up to 300 Vpp for the PA and 400 Vpp for the conventional channels). The high stability of the initial pulse amplitude within entire duration of the positive and negative half-waves, the extremely short boosted rising and falling edges and the automatic adaptive damping improve the signal to noise ratio and resolution allowing controlling of the analogue gain over the 0…100 dB range for each modality

ISONIC 2009 UPA Scope is a very powerful platform for the huge number of the practical PA UT applications available for the activation at any moment. Thanks to the unique True-To-Geometry Volume Overlap Coverage and Real Time Imaging the ISONIC 3510 is suitable for the high performance inspection of the simple and complex geometry welds (butt, longitudinal, fillet, lap, corner, elbow, etc) with scanning from one or both sides simultaneously (if applicable), bolts, bridge hanger pins, wind turbine and other shafts, annular rings, flanges, rails and railway axles and wheels, CRFP and GRFP composite panels and profiled stuff, and the like. The precise and easy reproducible automatic Equalizing of the Sensitivity within Entire Cross-Section / Volume of the Material is provided by the unique TCG-independent angle gain / gain per focal law compensation solution along with the DAC / TCG image normalization

Thanks to the above noted True-To-Geometry Volume Overlap Coverage and Imaging andEqualizing of the Sensitivity within Entire Cross-Section / Volume of the Material the inspection results produced by the ISONIC 2009 UPA Scope are easy interpretable and well acceptable by the UT Pros and non-Pros as well

ISONIC 2009 UPA Scope is packed into the IP 65 rugged aluminum case with no intake air or any other cooling means. The large 800X600 8.5” bright screen provides fine resolution and visibility for all types of inspection data presentation at strong ambient light along with the optimized power consumption rate for the outdoor operation

ISONIC 2009 UPA Scope is fully compliant with the following codes

ASME Code Case 2541 – Use of Manual Phased Array Ultrasonic Examination Section V

ASME Code Case 2557 – Use of Manual Phased Array S-Scan Ultrasonic Examination Section V per Article 4 Section V

ASME Code Case 2558 – Use of Manual Phased Array E-Scan Ultrasonic Examination Section V per Article 4 Section V

ASTM 1961– 06 – Standard Practice for Mechanized Ultrasonic Testing of Girth Welds Using Zonal Discrimination with Focused Search Units

ASME Section I – Rules for Construction of Power Boilers

ASME Section VIII, Division 1 – Rules for Construction of Pressure Vessels

ASME Section VIII, Division 2 – Rules for Construction of Pressure Vessels. Alternative Rules

ASME Section VIII Article KE-3 – Examination of Welds and Acceptance Criteria

ASME Code Case 2235 Rev 9 – Use of Ultrasonic Examination in Lieu of Radiography

Non-Destructive Examination of Welded Joints – Ultrasonic Examination of Welded Joints. – British and European Standard BS EN 1714:1998

Non-Destructive Examination of Welds – Ultrasonic Examination – Characterization of Indications in Welds. – British and European Standard BS EN 1713:1998

Calibration and Setting-Up of the Ultrasonic Time of Flight Diffraction (TOFD) Technique for the Detection, Location and Sizing of Flaws. – British Standard BS 7706:1993

WI 00121377, Welding – Use Of Time-Of-Flight Diffraction Technique (TOFD) For Testing Of Welds. – European Committee for Standardization – Document # CEN/TC 121/SC 5/WG 2 N 146, issued Feb, 12, 2003

ASTM E 2373 – 04 – Standard Practice for Use of the Ultrasonic Time of Flight Diffraction (TOFD) Technique

Non-Destructive Testing – Ultrasonic Examination – Part 5: Characterization and Sizing of Discontinuities. – British and European Standard BS EN 583-5:2001

Non-Destructive Testing – Ultrasonic Examination – Part 2: Sensitivity and Range Setting. – British and European Standard BS EN 583-2:2001

Manufacture and Testing of Pressure Vessels. Non-Destructive Testing of Welded Joints. Minimum Requirement for Non-Destructive Testing Methods – Appendix 1 to AD-Merkblatt HP5/3 (Germany).– Edition July 1989