Описание:
The OmniScan MX
A Field-Proven, Dependable Instrument
With thousands of units being used throughout the world, the OmniScan® MX is a field-proven, reliable instrument that is built to withstand harsh and demanding inspection conditions. Compact and lightweight, its two Li-ion batteries provide up to 6 hours of manual or semi-automated inspection time.
The highly legible 8.4 in. (213 mm) real-time color display of the OmniScan MX enables you to see defects and details under any light conditions. Navigate your way through the instrument’s simple and intuitive interface using the scroll knob and function keys, or by connecting a USB mouse to facilitate the inspection analysis.
One Platform, Two Modules, Three Technologies: More Flexibility
To meet the requirements of a broader range of applications, eddy current testing (ECT), eddy current array (ECA) and the new bond testing (BT) C-scan technology are available in two module versions. Both of these modules are compatible with the MXE (ECT/ECA) and MXB (BT C-scan) software, providing easy transition between technologies and a very short learning curve.
ECA is just like ECT
Large Coverage, Fast Scanning, and Higher Probability of Detection
Eddy current array (ECA) technology incorporates several traditional bridge or reflection (driver-pickup) probe coils in order to achieve a much larger coverage in a single inspection pass. Additionally, each ECA probe model is carefully designed to maintain a high probability of detection of a targeted defect range, all along the probe length. With the OmniScan® MX ECA, you can use ECA probes at fast manual-inspection speeds, offering a powerful and productive inspection with color representation and archiving capability.
Inspection through Thin Coatings
Eddy current testing (ECT) technology works on the principle of magnetic coupling of a probe sensor (coil) close to a test specimen (conductive material, ferromagnetic or non-ferromagnetic), generating eddy currents inside the test specimen, and displaying signals on the instrument’s impedance plane. With eddy current technology, you can detect defects through thin coatings (such as paint), as long as the distance from the probe to the metal is kept reasonably low—typically in the order of 0.5 mm to 2.0 mm.
As eddy current array and ECT technology share the same basic principles (and physics), it can also perform inspections through paint while offering all advantages of ECA, including large coverage, fast scanning, high probability of detection and color imaging.
Probes used to perform eddy current inspections are made with a copper wire wound to form a coil. The coil shape can vary to better suit specific applications.
- The alternating current flowing through the coil at a chosen frequency generates a magnetic field around the coil.
- When the coil is placed close to an electrically conductive material, an eddy current is induced in the material.
- If a flaw in the conductive material disturbs the eddy current circulation, the magnetic coupling with the probe is changed and a defect signal can be read by measuring the coil impedance variation.
Increased Power, Decreased Complexity
MXE 3.0 Software
With the exception of the added capacity to electronically switch between elements, eddy current array (ECA) technology is essentially the same as ECT technology. Eddy current array is easy to operate and calibrate. The new OmniScan MXE 3.0 ECA software has been redesigned to facilitate the transition from a conventional ECT instrument (such as the Olympus Nortec® 500) and to offer the power of ECA in a much more accessible way.
Live Impedance Plane
Calibration of ECA is done in a nearly identical fashion as conventional ECT. The principles of lift-off, gain and null adjustments are maintained so calibration is no more complex or time-consuming than usual.
Generate live lift-Off signals with ECA probe – just like with a conventional ECT probe.
Adjust the phase angle in real time with the OmniScan knob. Gain, Vertical Gain and Null Point (H/V) can also be adjusted the same way.
Replacement of Traditional NDT methods
Paint Removal is Obsolete
Eddy current array has a unique ability to perform inspections through thin coatings on conductive material. This capability provides a tremendous advantage over existing methods, such as penetrant testing, magnetic particle or magneto-optical imaging (MOI), as the need to remove and then reapply paint or coating is eliminated completely. Over time, this provides you with enormous cost-savings, and most importantly, your inspections will be chemical-free.
Key Advantages:
- No need for paint removal.
- Imaging and archiving.
- One-step inspection, high scan speed, and instant results.
- Major time-savings (typically 10:1 and over).
- Drastically reduced turnaround time.
- Defect depth evaluation capability.
- Adjustable sensitivity and post-process analysis.
- Environment-friendly method (no chemicals involved).
A Variety of Familiar Color-Palette Choices, Offering More Possibilities
The MXE 3.0 ECA software features a range of patent-rights-protected color-palette representations that replicate the look of traditional NDT methods and facilitate the intuitive display of ECA signals.
Analyzing, Reporting, and Archiving
Confirm or Revisit Inspections after Completion
Even after an in-field inspection has been completed, the OmniScan® MX ECA continues to provide value thanks to integrated data-storage, analysis, and reporting functionalities. With the OmniScan MX ECA you can review individual indications and apply corrections as needed. The new MXE 3.0 ECA software features newly redesigned, intuitive data cursors that can be operated directly from the instrument (on-site) or with a mouse connected by USB (office use).
Instant Reporting and Easy Archiving
The OmniScan MX features built-in reporting, at the touch of a key. Reports can also be configured and customized by advanced users. However, the factory-default report format already includes a screen shot and carefully selected, preloaded data fields that aim to eliminate the need for customization.
Archiving of inspection data files is also very easy; at any time (during acquisition or analysis), a single press of a key will instantly store the data on the instrument memory card.
Perform data analysis quickly and efficiently with mouse input. Archive files to a PC with the help of a CompactFlash reader.
Encoded Scans for Easier Data Interpretation
Optimized 1-2-3 Calibration
The OmniScan® MX ECA not only displays ECA signals in a conventional ECT impedance plane view but also offers several other views and layouts where the user will begin to recognize the true power of encoded ECA technology. These displays can be made part of the calibration workflow and can make eddy current testing highly visual and even go/no-go, based on user defined acceptance criteria.
Thanks to its intuitive interface design, the OmniScan MX ECA is quick and easy to configure and operate. It is as simple as one, two, three.
Continuous Encoder Mode
The advantage of time-based inspection is its virtually unlimited scanning capacity with minimal instrument interaction, whereas the benefit of encoded scans (C-scan images) is the ability to produce valuable color-coded images and information related to flaw position, shape, and dimensions.
The MXE 3.0 ECA software introduces a new Continuous Encoder mode that enables encoder-corrected imaging while maintaining the user-friendliness of a time-based inspection. With this mode, inspections are highly productive, with indications being recorded at your discretion.
Powerful Color Imaging
Estimation of Flaw Depth with Color-Coded C-Scans
As with conventional eddy current technology, flaw severity is closely correlated to the return EC signal amplitude in most surface or near-surface applications. By using an amplitude-based color code, and plotting each channel’s return signal with encoded-position information, the resulting C-scan display is highly visual and intuitive. These scans can be saved to the removable CF card or generated into a report onboard the OmniScan® MX.
Accept or Reject Flaws Based on Threshold
With the OmniScan MX ECA, you can accept or reject indications based on the C-scan color display. The MXE 3.0 ECA software contains a wide range of factory-tested color palettes that optimize the signal display for any ECA application.
Additionally, the new C-scan alarm feature simplifies the gating of reject signals, as it instantly changes the C-scan colors when the impedance plane signal enters the alarm zones.
OmniScan MX in ECT Mode, a Powerful Flaw Detector
The Power of ECA and ECT combined
Some inspection procedures may specifically require ECT while ECA can easily help you cut time and find problem areas. With the OmniScan® MX ECA, you don’t need to commit to just one technology at the start of an inspection. Pressing and holding the menu key anytime during an inspection allows for instant switching between ECA and ECT modes. Both probes can remain connected and configuration setups remain active.
Simultaneous connection of ECA and ECT probes provides the best tool for the job without the need to stop and reconfigure your hardware setup
High Quality Signals, Existing Probes
The OmniScan MX in ECT mode includes a high quality signal digitizer and all-digital signal processing chain for minimal signal loss or distortion. This, combined with its bright, large display, makes the OmniScan MX in ECT mode one of the world’s finest ECT flaw detectors, displaying high-quality signals every time.
The OmniScan MX in ECT mode also allows the use of most existing Nortec® ECT probes, through the use of new cables and adaptors.
Контроль прочности композитных материалов
Использование до 8 частот
Усовершенствованный метод контроля композитных материалов
- Развертка С-скан
- Использование до восьми частот одновременно
- Функция определения размеров
- Улучшенное обнаружение дефектов
- Режим отображения фаза/амплитуда
Важные примечания
- Возможности обнаружения аналогичны BondMaster® 1000e+, при использовании тех же преобразователей
- Поддержка раздельно-совмещенных преобразователей
- Для создания C-скан развертки необходим двухосевой сканер с кодировщиком
Усовершенствованный контроль композитных материалов
Компания Olympus с гордостью сообщает о выпуске нового решения OmniScan® для контроля композитных материалов, что несомненно является большим шагом вперед в развитии данной области. Удобочитаемое двумерное изображение C-скан теперь доступно и с портативным прибором. Новое решение OmniScan идеально подходит для обнаружения расслоений и нарушения связи между слоями в композитных материалах. Данная технология предназначена главным образом для эксплуатационного контроля в аэрокосмической промышленности, но также используется в производственном секторе, включая автомобиле- и судостроение (например, для выявления дефектов в корпусах судов, изготовленных из композиционных материалов).
Пользователям, уже приобретшим OmniScan® с модулем ECA или ECT, необходимо просто заказать стандартные преобразователи BondMaster® (P14 и SPO-5629), а также кабель BondMaster для выполнения контроля.
Программное обеспечение MXB, выполненное с учетом требований наших клиентов, – усовершенствовано и адаптировано для контроля композитных материалов; новые функции ПО (такие как: мастер настройки и нормализация) обеспечивают простоту эксплуатации.
Система кодировки: любой двухосевой сканер (кодировщик) может быть использован для контроля качества изделия. Olympus предлагает два варианта: сканер GLIDER™, использующийся для контроля плоских и слегка изогнутых поверхностей; и сканер WING™, который предназначен для сканирования криволинейных изделий (например, фюзеляжи самолетов) и может использоваться в перевернутом положении с помощью вакуумной присоски Venturi. Для большей гибкости, можно также использовать портативный одноосевой сканер (кодировщик) с индексатором.
Качественное изображение C-скан
Еще одно нововведение от компании Olympus: новый способ отображения данных на экране. Для каждой C-скан развертки оператор может выбрать один из двух режимов отображения: C-скан амплитуды показывает изменения цветового тона на основе амплитуды сигнала, вне зависимости от фазы, что обеспечивает качественное изображение при контроле прочности композитных материалов. Фазовый C-скан использует цветовую палитру от 0° до 360° для отображения изменений фазового угла, позволяя быстро распознавать различные сигналы (наличие шпатлевки или расслоения).
Фазовый C-скан, курсор на заливке
Необходимое оборудование
Представленное решение доступно в двух конфигурациях и требует наличия стандартных комплектующих.
Стандартные комплектующие
Механическая конфигурация
Портативный сканер HSB-01
Полу-автоматическая конфигурация