Thiết bị siêu âm khuyết tật - ISONIC 3507

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Thiết bị siêu âm khuyết tật

Model : ISONIC 3507

Hãng sản xuất : Sonotron

Superior Performance Portable Smart All-In-One Dual Channel Ultrasonic Flaw Detector and Recorder with A-, B-, C-, CB-Scan, TOFD, and Strip Chart Functions

A-Scan

TOFD

SRGW - Short Range Guided Wave

CHIME

True-to-Geometry Flaw Detection B-Scan

Thickness B-Scan

Interface echo

Encoded Raster Scanning (C-Scan and 3D)

Mechanics Free

Mechanized

Automatic

Strip Chart

VAUT - Video Aided UT

GPS

and much more...

ISONIC 3507 is a dual channel version of the ISONIC 3505 instrument. ISONIC 3507 carries the exceptionally innovative dual channel ultrasonic card with never-saturated-receivers; each of the receivers keeps the linearity over 140 dB dynamic range digitizing the originally received signalsindependently on the gain and rectification settings in every firing / receiving cycle. For each channel every single A-Scan or the sequence of A-Scans forming a record stored into a file may be reproduced then off-line in the form desired by an operator (RF, half- or full wave rectified, FFT) at any gain level over the said 140 dB range. So even in case of very significant deviation of the pre-inspection gain setting from the required one the observation and evaluation of the recorded data may be performed at the right levels without secondary scanning

The top level ultrasonic performance of ISONIC 3507 channels is achieved thanks to the said never-saturated-receiver and to the versatile firing circuit allowing forming of the Spike, Unipolar-, orBipolar Square Wave initial pulse with wide-range-tunable duration and amplitude (up to 400 Vpp). The high stability of the square wave 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 allow optimizing of the ultrasonic wave penetration into various materials characterized either by high or low grain size, sound attenuation, and the like and improving of the signal to noise and the resolution

ISONIC 3507 is a direct successor of ISONIC 2007 instrument. It may be operated as single or dual channel unit. Each single channel carries the functionality as below:

superior performance A-Scan set including the spectrum analyzer for ultrasonic signals
fully featured (data capturing and enhanced postprocessing) standalone TOFD unit
CHIME system
general purpose CB-Scan machine for the performing of:
- SRGW (short range guided wave) inspection and imaging also known as SRUT
- surface / shear wave inspection and mapping

volume overlay incidence angle / skip corrected high resolution flaw detection B-Scan and Thickness Profile recorder
C-Scan through raster scanning with straight- and angle beam probes either mechanic-free or with use of the mechanized or automatic XY scanner (optional)

In case of dual channel operation the strip-chart forming and recording is provided; the strip chart may comprise:

TOFD (CHIME) strips
Map / PE strips (switchable on- and off-line)
a combination of 2 strips of different type, for example TOFD + Map, Map + PE, etc

100% raw data capturing is provided for all recorded inspections. Whilst in dual channel mode the channels may perform the firing-receiving cycles either at parallel or in sequence

Thanks to the never-saturated-receivers each channel of ISONIC 3507 is featured with the ability of individual gain control for both independent gates over the range of 140 dB separately from the rest of the A-Scan reproduced at the global instrument gain. This opens a number of new abilities such as:

implementing the pulse echo and back echo attenuation inspections simultaneously with use of the same A-Scan whilst monitoring the back echo amplitude at the clearly visible level without affecting the sensitivity of the pulse echo inspection
increasing the detectability of subsurface defects for TOFD inspection through shortening the tail of lateral wave signal dynamically
precise materials characterization through the signal spectrum analysis independent on the instrument gain setting
etc

Thanks to the Client – Server software architecture ISONIC 3507 may be controlled remotely from a regular PC running under Win’XP, 7, 8, 10 over Ethernet or Internet (Sonotron NDT’s UT over IPtechnology). There is no need in the special software for that purpose, the same software as in the instrument should be installed in the PC

ISONIC 3507 is featured with the hardware triggering in/out terminals and the interface echo triggeringmaking it suitable for use in various integrated systems

The instrument is fully compatible with the Sonotron NDT's VAUT technology (Video Aided UT)

The lifetime free software upgrade policy is provided for ISONIC 3505 as for all other instruments from Sonotron NDT

ISONIC 3507 is packed into the IP 65 reinforced plastic 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

Ultrasonic Pulsing / Receiving - 2 Channels:

Versatile Pulser with Boosted Rising and Falling Edges and the Automatic Adaptive Damping – Switchable Pulsing Modes:
- Spike Pulse
- Unipolar Square Wave Initial Pulse with boosted rising and falling edges and guaranteed mark level stability and active damping
- Bipolar Square Wave Initial Pulse with boosted rising and falling edges and guaranteed mark level stability and active damping
  - Smoothly Tunable Amplitude (14 Levels)
  - Smoothly Tunable Duration
  - 10 Grades of Automatic Adaptive Active Damping

Wide Band 140 dB Dynamic Range Never-Saturated Receiver
Digitizing of the Originally Received Signals over Entire 140 dB Dynamic Range Independently on Gain and Rectification Settings
- 30 ... + 110 dB Global Analogue Gain
Signal Presentation
- Rectified A-Scan (Full / Positive / Negative Half Wave)
- RF A-Scan - No Time Base Limit
- Logarithmic Scale A-Scan
- Simultaneous Frequency Domain (FFT) + Time Domain Signal Presentation
- Artificial Intelligence (AI) A-Scan

Comprehensive Signal Filtering: 32-Taps FIR Band Pass Digital Filter with Smoothly Controllable Lower and Upper Frequency Limits
2 Independent Gates (A, B)
- Independent on the Global Analogue Gain Gain per Gate A setting covering the whole range of Gain manipulation (-30 through + 110 dB Analogue Gain)
- Independent on the Global Analogue Gain Gain per Gate B setting covering the whole range of Gain manipulation (-30 through + 110 dB Analogue Gain)

DAC / DGS / TCG
- Theoretical DAC (dB / mm /// dB / inch )
- Experimental DAC (reflector by reflector echo height measurement) - DAC creating procedure supported by Artificial Intelligence (AI)
- Unlimitedly Expandable DGS Probes Database
- Intuitive DGS Calibration

Interface Echo A-Scan start (Additional IE Gate)
Built-In Incremental Encoder Interface
Triggering Output Terminal for the External Devices - Sync Out
Triggering Input Terminal for the External Devices - Sync In

TOFD Scanning and Recording (per channel):

Encoded / Time Based Recording and Imaging
Real Time Lateral Wave Amplitude Stabilizer
Gain per Gate Manipulation (- 30 ... + 110 dB) for the Desired Region of Interests (ROI) on the TOFD A-Scan
All Functional TOFD Postrpocessing:
- Recovery and Evaluation of the Captured A-Scans
- Off-Line Global Gain Manipulation (- 30 ... + 110 dB)
- Off-Line Gain per Gate Manipulation (- 30 ... + 110 dB) for 2 Independent Gates
- Off-Line lateral Wave Amplitude Stabilizer for Creating TOFD Map
- Parabolic Cursors
- SAFT
- Defects Sizing
  - Depth / Height
  - Position Along the Fusion Line / Length

Linearization
Straightening
Removal Lateral Wave for Increasing Near Surface Detection Ability
Rectification
Zooming Desired Segments of TOFD Map
Automatic creating of inspection reports - hard copy / PDF File

Non-TOFD Scanning and Recording (per channel):

True-To-Geometry Volume Corrected Flaw Detection B-Scan - Angle beam and Straight Beam Probes
Horizontal Plane View CB-Scan for Shear, Surface, and Guided Waves Inspections
High Resolution Flaw Detection B-Scan
Thickness B-Scan
Encoded / Time Based Recording and Imaging
DAC / DGS / TCG Normalization for Flaw Detection Scans
100% Raw Data Capturing
Gain per Gate manipulation (- 30 ... + 110 dB) for the desired Region of Interest (ROI) on the Recorded A-Scan
Comprehensive Postrpocessing for All Types of non TOFD Line Scanning Records as Above Including:
- Recovery and Evaluation of Captured A-Scans
- Off-Line Global Gain Manipulation (- 30 ... + 110 dB)
- Off-Line Gain per Gate Manipulation (- 30 ... + 110 dB) for 2 Independent Gates
- Off-Line DAC / DGS Normalization of the Recorded Images / DAC / DGS Evaluation
- Numerous Filtering / Reject Options ( by Geometry / Position / By Amplitude / dB-to-DAC / etc )
- Defects Sizing and Echo-Dynamic Pattern Recognition
- Automatic creating of inspection reports - hard copy / PDF File

Strip Chart:

Strip Types:
- TOFD
- Map / PE: switchable on- and off-line

Encoded / Time Based Recording
DAC / DGS / TCG Normalization for Map Strips
100% Raw Data Capturing
Gain per Gate manipulation (- 30 ... + 110 dB) for the desired Region of Interest (ROI) on the Recorded A-Scan
Comprehensive Postrpocessing for All Types of non TOFD Line Scanning Records as Above Including:
- Recovery and Evaluation of the Captured A-Scans
- Off-Line Global Gain Manipulation (- 30 ... + 110 dB)
- Off-Line Gain per Gate Manipulation (- 30 ... + 110 dB) for 2 Independent Gates
- Off-Line DAC / DGS Normalization of the Recorded Images / DAC / DGS Evaluation
- Numerous Filtering / Reject Options ( by Geometry / Position / By Amplitude / dB-to-DAC / etc )
- Defects Sizing and Echo-Dynamic Pattern Recognition
- All-Functional strip data postrprocessing according to the type of strip recorded
- Automatic creating of inspection reports - hard copy / PDF File

Raster Scanning (per channel, optional):

Versatile encoded scanning
- Mechanics-free manual
- Mechanized
- Automatic

Contact or Immersion
Thickness (Distance) or Amplitude C-Scan (Top View)
Thickness profile or flaw detection End and Side Views
Curvature correction
DAC / DGS / TCG Normalization for the Flaw Detection Imaging
100% Raw Data Capturing
Gain per Gate manipulation (- 30 ... + 110 dB) for the desired Region of Interest (ROI) on the Recorded A-Scan
Comprehensive Postrpocessing for All Types of non TOFD Line Scanning Records as Above Including:
- Recovery and Evaluation of the Captured A-Scans
- Off-Line Global Gain Manipulation (- 30 ... + 110 dB)
- Off-Line Gain per Gate Manipulation (- 30 ... + 110 dB) for 2 Independent Gates
- 3D Viewing
- Off-Line DAC / DGS Normalization of the Recorded Images / DAC / DGS Evaluation
- Numerous Filtering / Reject Options ( by Geometry / Position / By Amplitude / dB-to-DAC / etc )
- Defects Sizing and Echo-Dynamic Pattern Recognition
- Automatic creating of inspection reports - hard copy / PDF File

General:

Dual Core 1.6 GHz clock 2 GB RAM 120 GB SSD W'7PRO on-board control computer

Intuitive User Interface

Single and multi-axis encoder connection

Comprehensive postprocessing and data reporting toolkit

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

No intake air / no cooling IP 65 light rugged case

Sealed all-functional keyboard and mouse

8.5” bright touch screen

Ethernet, USB, sVGA terminals

VAUT

GPS

ISONIC 3507 is fully compliant with the following codes

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