UCOMAX PRIVATE LIMITED

Makarpura, Vadodara, Gujarat

TheAC Electromagnetic Yokeis a vital tool for conducting non-destructive testing, specifically designed for magnetic particle inspection (MPI). It uses alternating current to generate a magnetic field, which is ideal for detecting surface and subsurface flaws in ferromagnetic materials.

Features:

1. Powerful AC Magnetic Field
2. Exceed ASTM E709 & ASTM E1444 lifting Specifications
3. Durable rugged construction
4. Adjustable leg spacing
5. Detachable power cord
6. Input Supply 230 VAC, 50/60 Hz
7. Input Supply 110 VAC, 50/60 Hz

Observation Head: Trinocular, Sidentopf type, inclined at 30, rotatable at 360, with a vertical focusable phototube for micro photography.

Eyepiece: Extra-wide field 10X (anti-fungal treated) with a field of view of 22mm.

Objectives: Infinity corrected, anti-fungal treated, with magnifications of 5X, 10X, 20X, 50X, and 100X (dry).

Mechanical Body: Co-axial focusing control, pre-focusing lever, and motorized mechanical stage (150mm x 150mm) with auto-focusing capability.

Illumination: 5W LED with adjustable Koehler illumination and oblique device.

Standard Accessories: LED bulb, dust cover, blue filter, guarantee card, operating manual.

The AC/DC electromagnetic yoke can operate in bothalternating current (AC)anddirect current (DC)modes, providing flexibility for a wide range of non-destructive testing (NDT) and magnetic particle inspection (MPI) applications.

Features:

1. Powerful AC and DC Magnetic Field
2. Durable Rugged Construction
3. Articulated Adjustable Leg
4. Exceed ASTM E709 & ASTM E1444 lifting Specifications
5. Built for safe operations with an optimal duty cycle.

TheBattery-Operated Electromagnetic Yokeis a versatile tool for conducting magnetic particle inspections (MPI) and non-destructive testing (NDT) of ferromagnetic materials in environments where access to power is limited. Powered by a high-performance rechargeable battery, this yoke allows for increased mobility without compromising on performance. It features an ergonomic grip for easy handling during prolonged inspections and provides strong magnetic penetration to identify surface and subsurface defects.

Features:

1. Portable with battery pack
2. Effectively useful in remote areas and in yards
3. Perfect for subsurface defects & demanding environment
4. Exceed the ASTM E709 & ASTM E1444 lifting Specifications

ThePermanent Electromagnetic Yokeis a robust tool for conducting magnetic particle inspections (MPI) and non-destructive testing (NDT) of ferromagnetic materials. Unlike other electromagnetic yokes, this unit uses permanent magnets to generate a stable magnetic field, ensuring high reliability and consistency throughout the inspection process. The yoke's lightweight design makes it portable and easy to use in remote or field locations without requiring access to a power source.

Features:

1. Rugged Design, requires no electrical supply.
2. Ideal in Petrochemical, Offshore, Chemical Industries, etc.
3. Suitable for both Dry & Wet applications
4. Durable and for long life use.
5. These yokes are light weight and Portable.
6. Durable and for long life use.

TheUV Lightfor Magnetic Particle Testing (MPT) is an essential tool for conducting non-destructive testing (NDT), specifically magnetic particle inspection (MPI).

Features:

1. The UV LED lamp features a uniform beam with no hot-spots.
2. Custom-designed optics provide intense and even UV-A coverage of UV-A to easily identify indications.
3. Integrated filter ensures minimal visible light emission to improve inspection reliability.
4. Instant ON/OFF, No Warm-Up Time for Full Intensity.
5. Ergonomically Designed Robust Housing.
6. Long Lasting LEDs.
7. Rechargeable Li-Ion Battery*
8. Switchable between UV & White Light**

Metscope Prois a versatile upright metallurgical microscope engineered for high-resolution, clear imaging of metal structures and materials. Combining bright field, dark field, and polarizing observation capabilities, its ideal for teaching, research, semiconductor inspection, mineral analysis, and precision engineering.

Key Highlights:

1. Siedentopf Trinocular Head:45 inclined, adjustable interpupillary distance, diopter adjustment for user comfort
2. Infinity-Corrected Long Working Distance Objectives:5X to 100X options with superior clarity
3. Epi-Koehler Illumination:3W LED halogen lamp with aperture and field iris diaphragms, filter wheel with blue, green, yellow filters
4. Smooth Mechanical System:Co-axial focusing with large knobs, tension adjustment, low-positioned stage controls
5. Optional Polarizing Outfit:360 rotatable analyzer, slide-in/out polarizer and analyzer for enhanced observation modes

Metscope Vistais a professional inverted metallurgical microscope designed for precise dark and bright field analysis of materials. It combines a robust optical system, flexible observation modes, and practical ergonomics making it ideal for metallurgy labs, industrial QC, and research.

Key Highlights:

1. Siedentopf Trinocular Head:45 inclined with diopter adjustment, vertical phototube for micro photography
2. Infinity-Corrected BD Long Working Distance Objectives:5X to 100X for clear dark/bright field imaging
3. Co-axial Focusing System:Large knobs with pre-focusing lever & tension adjustment ring
4. Quintuple Nosepiece:Smooth switching between objectives
5. Epi Illuminator:12V50W halogen lamp with adjustable brightness
6. Polarizing Outfit:Analyzer rotatable 360, polarizer/analyzer slide in/out
7. Optional DIC Accessories:For differential interference contrast imaging.

Introduction:

Metscope Ultra upright metallurgical microscopes have been developed for research with a number of pioneering design in appearance and functions, with wide field of view, high definition and bright/dark field semi apochromatic metallurgical objectives and ergonomical operating system, they are born to provide a perfect research solution and develop a new pattern of industrial field. The objectives could be motorized controlled by the buttons on the microscope front base, the illumination intensity will change after changing objective.

Focusing System: Adjustable focusing and stage controls for left- or right-hand operation, enhancing user comfort.

Nomarski DIC Module: Creates a 3D relief-like image for detecting fine specimen details, ideal for LCD particles and surface scratches.

Ergo Tilting Trinocular Head: Adjustable from 0 to 35, compatible with DSLR and digital cameras, featuring a 3-position beam splitter (0:100, 100:0, 80:20).

NIS45 Infinite Plan Semi-APO & APO Objectives: Advanced coating provides high-resolution images with natural color reproduction.

Shortcut Button: Quickly switch between two pre-set objectives or assign other functions.

NIS Infinite Optical System: High-precision optics for superior image clarity.

Illumination: 5W LED Kohler illumination for both reflected and transmitted light, with ND6/ND25 filter, offering a 30, 000-hour lifespan.

Accessories: Includes a power cord and other essential components.

Metscope Nexgenis a high-level inverted metallurgical microscope designed for demanding scientific research, advanced physical and chemical inspection, and precise material analysis. It combines Epi-Koehler illumination, infinity-corrected long working distance objectives for bright and dark field work, a robust polarizing device, and ergonomic controls to deliver sharp, clear imaging.

Key Highlights:

1. Siedentopf Trinocular Head:45 inclined with diopter adjustment and phototube for micro-photography
2. Infinity Plan Long Working Distance Objectives:Bright & dark field imaging up to 100X
3. Epi-Koehler Illumination:24V/100W halogen lamp with filter wheel (blue, green, yellow) and adjustable brightness
4. Co-axial Focusing System:Large knobs, pre-focusing lever, tension adjustment ring, fine scale 0.002 mm
5. Polarizing Device:Analyzer rotatable 360, polarizer and analyzer slide in/out of optical path
6. Wide Field Eyepieces:Multiple options with crosshair and reticule for precise measurement
7. Large Mechanical Stage:Smooth movement with low-positioned co-axial controls

Monoscope Prime Monocular Zoom microscopes adopt apochromatic parallel optical imaging system and provide high resolution and sharp stereo scopic images. This series microscopes are designed for the applications in the fields of machine vision, industrial inspection and scientific research. Modularization product portfolio and excellent optical performance make them a better choice in these areas.

Key Highlights:

1. Apochromatic Parallel Optical System: Delivers high-resolution, high-contrast imaging with true color reproduction
2. Zoom Range of 0.6X 5X: With a zoom ratio of 1:8.3, suitable for conventional machine vision needs
3. Wide Optical Magnification Range: Expandable from 0.054X to 1500X with optional lenses
4. Compact All-in-One Design: Perfect for integration into systems with tight installation spaces
5. Optional LED Illumination: Ring, polarizing, and coaxial lighting options available, including 3W coaxial LED with 5500K color temperature
6. Modular System: Customize working distance (2 mm 270 mm) and object field (0.004 mm 20 mm) with optional accessories
7. C-Mount Ready: Compatible with cameras for digital imaging and measurement applications

Monoscope Pro is a Full HD digital video microscope designed to streamline modern microscopic analysis across teaching, research, repair, and inspection applications. With its direct HDMI connectivity, high-resolution imaging, and built-in software for photo, video, and measurement, Monoscope Pro replaces traditional eyepiece observation with a more efficient, fatigue-free monitor-based viewing experience.

Stereo Primeis a versatile trinocular stereo microscope designed for precision inspection, dissection, and research tasks. Its ergonomic observation head, wide magnification range, and dual illumination system make it ideal for electronics, life science, and quality control applications.

Key Highlights:

1. Flexible Zoom System:0.7X to 4.5X zoom range with 1:6.4 ratio, standard magnification 7X45X
2. Comfortable Working Distance:100 mm working distance for convenient specimen handling
3. Dual LED Illumination:Incident and transmitted light with separate brightness controls
4. Stable Mechanical Stand:Pole stand with fan-type base and specimen holding clip
5. Optional Accessories:Auxiliary lenses & various eyepieces for expanded magnification

Stereo Optimetis a high-performance zoom stereo microscope with a 10:1 zoom ratio, bright safe LED illumination, and high eye-point wide field eyepieces. It is ideal for biomedical research, microelectronics, and semiconductor inspection, providing natural color restoration, comfortable operation, and reduced user fatigue during extended work sessions.

Key Highlights:

1. Zoom Objective System:0.65X 6.5X; total magnification 6.5X to 65X with standard 10X eyepiece.
2. Wide Field Eyepieces:PL10X/22 mm standard; optional PL15X/15 mm, PL20X/12 mm, WF-25X/9 mm.
3. Flexible Illumination:3W high-brightness LED for both reflected and transmitted light.
4. Comfortable Working Distance:110 mm standard; vertical effective movement 220 mm.
5. Stable Frame & Base:Integrated coaxial fine and coarse focusing with cylindrical roller guide; precision 0.002 mm; base size 320 mm 260 mm 274 mm.
6. Optional Optics & Camera Adapter:Auxiliary objectives (0.3X / 0.5X / 0.7X / 1.5X / 2.0X) and C-mount adapters 0.35X, 0.5X, 1X

Stereo Nexgenis a professional-grade stereo microscope for precision tasks in advanced research, semiconductor inspection, and fine electronics work.

Its Galileo optical system ensures sharp, parallel optical paths for high-fidelity stereo images. An ergonomic observation head and flexible stand design make it a powerful tool for clear, fatigue-free viewing during extended sessions.

Key Highlights:

1. Galileo Parallel Optical Path:Delivers clear, distortion-free stereo images.
2. Trinocular Head:Inclined from 35, vertical phototube, interpupillary distance 5476 mm.
3. Wide Field Eyepieces:10X/22 mm standard.
4. Large Zoom Range:0.65X6.5X with 1:10 zoom ratio for smooth magnification control.
5. Coarse & Fine Focusing:Integrated track stand with smooth lateral zoom movement; precision 0.002 mm.
6. Efficient LED Illumination:Incident light with transformer and intensity control.
7. Comfortable Working Distance:110 mm for larger samples.

Introduction

Portmet Portable Metallurgical Microscope is mainly used in field to identify the structures of all kinds of metal and alloy when failure in making sample. It adopts a rechargeable vertical LED illuminator, which provides even and adequate illumination. It can work more than 40 hours after one charge.

The magnetic base is optional, it can be adsorbed solidly on the work piece, it is adapted to various diameter pipes and flat, the magnetic base can be adjusted from X, Y directions. Digital cameras can be used with the microscope for image, video capture and analysis.

Eyepiece Planeyepiece 10/18mm

ObjectiveLong work distance plan objective: 10/0.25, WD7.3mm; 50/0.70, WD 0.5mm

Total Magnification100, 500x

Mechanical tube length160mm

Focusing range20mm

IlluminationAdjustable LED light(chargeable)

Mobiscope is a field-ready, portable Wi-Fi microscope designed for in-situ metallography, non-destructive testing, and microstructure analysis of large or immovable components. From pipelines and storage tanks to power plants and welded joints, Mobiscope enables real-time microscopic inspection anywhere, without needing to extract samples or interrupt operations.

Equipped with magnetic staging, wireless transmission, and a high-resolution 7" HD LCD, Mobiscope delivers crisp, reliable imaging in both laboratory and field conditions. With built-in rechargeable LED lighting, long battery life, and the ability to capture and store images or video up to 128 GB, Mobiscope redefines convenience without compromising on image quality.

Key Highlights:

1. Wireless Connectivity: Stream real-time video to Android, iOS, or Windows devices
2. Magnification Range: 100X to 600X with standard and optional objectives
3. Magnetic Stage with X-Y Movement: Enables inspection on flat and curved ferrous surfaces
4. Long Battery Life: 57 hours of operation with rechargeable battery unit
5. High-Intensity LED Illumination: Bright output with lower power consumption
6. 7 HD LCD Display (1280x800): Sharp imaging with enhanced daylight readability
7. Image & Video Capture: Supports JPG, BMP, and MPEG formats up to 128 GB storage
8. Internal Memory & USB/Wi-Fi Support: 64 GB internal flash memory + SD/USB support
9. Rugged Design: Aluminum housing with bumpers, designed for tough environments

Smart Measurement & Drawing:Draw and edit multiple shapes on-screen; screen printing for special irregular parts; unlimited graphic layers.

High Accuracy:Measurement accuracy within 3 microns; repeatability within 5 microns.

Full HD Display:60 fps, HDMI output, 19201080 resolution with real-time optical & total magnification display.

Flexible Measurement Tools:Supports measurement of points, lines, circles, angles, polygons, center distances, and more.

The VisionEdge Ultra by UCOMAX combines advanced non-contact optical measurement with robust structural design to deliver repeatable, high-accuracy results for demanding industries. From electronics and precision molds to small mechanical parts, this system ensures reliable quality control with minimal operator effort. Built on a durable marble platform with a high-resolution imaging system and flexible magnification, its the trusted solution for your precision inspection needs.

Key Highlights:

1. Non-contact video measurement with optional contact probe
2. High-resolution digital color camera with optical zoom
3. Durable marble platform for maximum structural stability
4. LED programmable light source with coaxial option
5. Intuitive operation, minimal maintenance, and long service life

DIGICAM 5MP (Plug & Play)is a high-performance digital microscope camera designed for easy image capture, precise documentation, and real-time observation in quality control, material inspection, and biomedical research.

Equipped with a 5 Mega Pixel MT9P031 CMOS image sensor, it delivers sharp, clear images up to 25921944 resolution, with smooth progressive scanning and a high 43 dB S/N ratio for noise-free output.

Its simple USB 2.0 interface means true plug-and-play operation no extra drivers or external power supply hassles.

DIGICAM 5MP supports manual and one-touch auto white balance and exposure control, making it easy to capture accurate, true-color images every time.

Paired with Caliper-Pro or Capture-Pro software, its an ideal tool for measurement, archiving, and sharing results instantly.

Key Highlights:

1. 5MP CMOS Sensor:MICRON MT9P031 with 2.2 m pixel size for high-detail capture.
2. Flexible Resolution & Frame Rate:8 fps at full 25921944, up to 30 fps at 640480 for smooth live viewing.
3. Progressive Scanning:Delivers sharp images without interlacing artifacts.
4. Easy Plug & Play:USB 2.0 high-speed data transfer at 480 Mbit/sec.
5. Wide Sensitivity: 1.0 V/lux-sec sensitivity at 550nm for superior low-light performance.
6. Compact & Efficient:Low power consumption only DC 5V 200 mA via USB.

TheDIGICAM 4Kis a multi-mode microscope camera that delivers ultra-high-definition 4K video at 60 FPS. Featuring a Sony Exmor CMOS sensor with high sensitivity and advanced noise reduction, it ensures clear, sharp imaging whether used with an HDMI monitor or connected to a PC. Hardware 3D denoising, sharpness, and tone mapping functions help deliver exceptional image and video quality every time.

Key Highlights:

1. 4K Sony IMX334(C) CMOS Color Sensor
2. High sensitivity with RGB primary color mosaic filters
3. Standalone recording with HDMI monitor or TV
4. Live streaming to PC via Gigabit Ethernet (GE)
5. USB 3.0, HDMI, SD Card, Wi-Fi, and Ethernet outputs
6. One-button hi-resolution imaging
7. Hardware 3D denoising and tone mapping
8. On-screen display menu for easy control

DIGICAM LCDis an all-in-one digital display camera designed for real-time microscopic observation and measurement. With built-in support for 1080P video recording at 60 fps, a 9-inch display, and precise on-screen measurement tools, it offers a simple, mouse-controlled user interfaceno PC or driver installation required.

Whether youre capturing videos, measuring microscopic features, or inspecting small structures, DIGICAM LCD provides a user-friendly and efficient workflow directly on the screen.

Key Highlights:

1. 1080P Video Recording @ 60 fps Smooth video capture with direct SD card storage
2. On-Screen Measurement Supports length, diameter, and geometric measurements with 1/100 micron accuracy
3. 9-Inch Built-In Display View images and videos live with no need for an external monitor
4. Mouse-Controlled Interface Easy to operate with intuitive UI; no PC or drivers needed
5. 8 GB SD Card Storage Save and preview captured videos or images anytime
6. HDMI & USB Output Display output through HDMI; data sync via USB 2.0
7. Compact and Lightweight Weighs only 0.7 kg for easy setup and portability

TheDIGICAM 10MP (USB 3.0)is a high-resolution digital camera designed to upgrade your existing microscope setup into a modern imaging system. With a 10-megapixel CMOS sensor and support for image, video, and measurement functions, it enables seamless documentation and analysis directly from your microscope.

DIGICAM 10MP is easy to integrate and allows users to capture images, record videos, and generate reports efficientlymaking it suitable for laboratory, industrial, or educational use.

Key Highlights:

1. 10MP CMOS Sensor High-resolution imaging using Micron MT9E001 sensor
2. USB 3.0 Interface Ensures data transmission up to 480 Mbps
3. Image, Video, and Measurement Functions Built-in software with reporting capability
4. Auto Exposure & One-Touch White Balance Simplifies operation
5. Frame Rate 3 fps at full resolution (36642748), 30 fps at 640480
6. Operating Temperature Stable performance from 0C to 60C

DIGICAM 20MP (USB 3.0)transforms your existing microscope into a state-of-the-art digital imaging system, combining high pixel resolution with real-time high-speed data transfer.

Its progressive scan CMOS sensor delivers ultra-high-resolution images up to 20 Megapixels, with a wide spectral range and high dynamic range for clear, detailed capture.

Paired with a USB 3.0 interface, DIGICAM 20MP ensures fast image streaming, simple operation, and smooth integration with your current microscope whether for education, quality control, or advanced research.

Key Highlights:

20 Megapixel CMOS Sensor delivers sharp, detailed high-resolution images.

Progressive Scan Mode for clear, real-time image capture.

Multi-Speed Frame Rates up to 15 fps @ 54403648, 50 fps @ 27361824, 60 fps @ 18241216.

High Sensitivity & Dynamic Range G Sensitivity 400 mV, Dynamic Range 70 dB.

Flexible Exposure Control Normal exposure and long exposure with ROI auto/manual settings.

One Push White Balance quick ROI white balance with manual adjustment.

Ultra Fine Color Engine for vivid, true-to-life color rendering.

Plug & Play USB 3.0 high-speed data transfer with easy connection to PC.

Supports Still Picture & Video Capture with built-in API and TWAIN driver compatibility

DIGICAM Tablet (Android & Windows)is a smart digital microscope camera system combining a 5MP color CMOS camera with a portable 9.7-inch tablet, developed specifically for modern microscopy applications.

It integrates professional imaging software for multi-function measurement and particle analysis, making it an all-in-one, plug-and-play solution for labs, education, and on-site inspection.

The system supports snapshots, video recording, measurement, and offers optional HDMI output, SD card storage, and simple wireless connectivity for easy data handling.

Key Highlights:

5MP Color CMOS Camera high-quality Aptina MT9P001 sensor with 1/2.5" size.

Effective Resolution up to 2592 1944, with electronic rolling shutter.

Real-Time Video 1280 720 @ 30 fps, 1920 1080 @ 15 fps.

Professional Software built-in measurement and particle analysis tools.

Optional HDMI Output supports additional display output if needed.

Portable Tablet 10.1-inch HD display with MediaTek processor, Android OS, Wi-Fi & Cellular ready.

SD Card Support for storing images, videos, and measurement data.

Lightweight & Compact easy to carry; total weight approx. 1.1 kg

AtUCOMAX, Research & Development is more than a service its the core of our promise to deliver customized, high-precision solutions for industries where reliability and performance cant be left to chance.

We partner with clients to transform ideas into proven, production-ready systems that solve real operational challenges, extend equipment life, and unlock new efficiencies.

From new product development and advanced reverse engineering to embedded electronics and smart system integration our R&D division turns complex challenges into practical, measurable results. what sets us apart:

1. Our Reverse Engineering Advantage
2. In-House Execution
3. Practical, Cost-Conscious Solutions
4. Protecting What Matters IP & Confidentiality
5. A Reliable Extension of Your Innovation Team

Wedges are used in both shear wave and longitudinal wave applications, including straight beam linear scans. These wedges perform basically the same function in phased array systems as in conventional single element flaw detection, coupling sound energy from the transducer to the test piece in such a way that it mode converts and refracts at a desired angle in accordance with Snell's Law.

1. Available in standard refracted angles of 0, 45, 55, and 60 in steel for angle-beam inspections from 30 to 70, SW or LW.
2. The IHC wedge option can be ordered to improve the quality of the inspection. Irrigation, mounting holes for the wedge holder to work with any suitable scanner, and carbide pins to increase wear resistance.
3. Custom wedges with specific refracted angles can be ordered, wedge shape and contour can also be customized.
4. Wedges can also be custom contoured to accommodate complex part geometries.
5. We also provide high temperature wedges that can be used up to 150C.

Conducting ultrasonic phased array inspections on components operating at elevated temperatures presents several challenges. Conventional phased array probes utilize piezoelectric elements and internal connections that are highly sensitive to heat and may suffer damage under such conditions. To address this issue, Ucomax has developed an innovative solution capable of performing manual phased array inspections at temperatures reaching up to 150 C.

High-Temperature Resistance: The wedge is specifically designed to withstand temperatures up to 150C, making it ideal for inspections in high-temperature environments such as furnaces, pressure vessels, and boilers.

Precision Alignment: Ensures precise alignment of the PAUT (Phased Array Ultrasonic Testing) wedge for accurate ultrasonic inspection results, even in extreme conditions.

Durable Construction: Made from high-quality, heat-resistant materials (such as ceramic or stainless steel) to maintain structural integrity at elevated temperatures.

Stable Positioning: Provides stable and secure positioning of the PAUT wedge during inspection, ensuring accurate and repeatable results every time.

Versatile Compatibility: Designed to accommodate a variety of PAUT wedge sizes and configurations, making it suitable for a wide range of testing applications.

Precise Ultrasonic Measurements: Designed for small diameter piping, these scanners allow for precise ultrasonic testing (UT) on pipes with narrow diameters, providing accurate and reliable data for defect detection.

Integrated Encoder: Equipped with an integrated encoder, this scanner ensures accurate position tracking, providing reliable scanning results for continuous monitoring along the length of the pipe.

Compact and Lightweight Design: Specifically engineered for small diameter pipes, this scanner is compact and lightweight, making it easy to maneuver in tight spaces and confined areas.

High Sensitivity and Resolution: The scanner offers high-resolution ultrasonic measurement with excellent sensitivity, allowing it to detect both surface and subsurface defects in small piping systems.

Compact Design: The mini wheel encoder features a small and lightweight design, making it ideal for tight spaces and confined environments, providing easy handling during ultrasonic inspections.

High-Precision Tracking: Equipped with a high-resolution encoder, this mini wheel encoder ensures precise and accurate position tracking during the inspection process for reliable, repeatable data collection.

Smooth Movement: The mini wheel design ensures smooth and consistent motion along the surface, minimizing friction and preventing damage to the pipe or surface being tested.

Versatile Compatibility: Compatible with a variety of ultrasonic testing systems, this mini wheel encoder can be seamlessly integrated with existing equipment for enhanced inspection accuracy and efficiency.

Strong Grip and Secure Positioning: The U-Clamp design ensures a strong grip and secure positioning on a variety of surfaces, making it ideal for holding ultrasonic transducers or probes in place during testing.

High-Resolution Encoder: Equipped with a high-resolution encoder, this device provides precise position tracking, ensuring accurate and repeatable results during the ultrasonic inspection process.

Easy to Adjust and Attach: The adjustable U-Clamp mechanism allows for quick and easy attachment to various surfaces and configurations, making it highly versatile for different inspection setups.

1. Cables can be ordered with Armored stainless steel
2. Can be ordered in lengths up to 5m.
3. Select from a variety of cable grades to meet your specific application needs
4. Standard lengths 3' (1 m), 4' (1.2 m), 6' (1.8 m).
5. All cables are 50 ohms impedance unless otherwise specified

Contact us for special or customized cables, both length and connector type can be customized

1. Cables can be ordered with Armored stainless steel
2. Can be ordered in lengths up to 5m.
3. Select from a variety of cable grades to meet your specific application needs
4. Standard lengths 3' (1 m), 4' (1.2 m), 6' (1.8 m).
5. All cables are 50 ohms impedance unless otherwise specified

Contact us for special or customized cables, both length and connector type can be customized

1. Cables can be ordered with Armored stainless steel
2. Can be ordered in lengths up to 5m.
3. Select from a variety of cable grades to meet your specific application needs
4. Standard lengths 3' (1 m), 4' (1.2 m), 6' (1.8 m).
5. All cables are 50 ohms impedance unless otherwise specified

Contact us for special or customized cables, both length and connector type can be customized

1. Cables can be ordered with Armored stainless steel
2. Can be ordered in lengths up to 5m.
3. Select from a variety of cable grades to meet your specific application needs
4. Standard lengths 3' (1 m), 4' (1.2 m), 6' (1.8 m).
5. All cables are 50 ohms impedance unless otherwise specified

Contact us for special or customized cables, both length and connector type can be customized

1. Cables can be ordered with Armored stainless steel
2. Can be ordered in lengths up to 5m.
3. Select from a variety of cable grades to meet your specific application needs
4. Standard lengths 3' (1 m), 4' (1.2 m), 6' (1.8 m).
5. All cables are 50 ohms impedance unless otherwise specified

Contact us for special or customized cables, both length and connector type can be customized

1. Cables can be ordered with Armored stainless steel
2. Can be ordered in lengths up to 5m.
3. Select from a variety of cable grades to meet your specific application needs
4. Standard lengths 3' (1 m), 4' (1.2 m), 6' (1.8 m).
5. All cables are 50 ohms impedance unless otherwise specified

Contact us for special or customized cables, both length and connector type can be customized

TheV-1 Calibration Blockis an essential reference standard for calibrating ultrasonic flaw detection equipment in both laboratory and on-site inspection environments. Designed for accuracy and durability, this block ensures your ultrasonic testing results remain reliable and repeatable.

Standard Compliance:Manufactured as per BS 2704 Block A2 Mod. 1, DIN 54-120, and ISO 2400 standards.

Precision Design:Features a 100 mm radius, multiple test holes (1.5 mm & 50 mm), engraved reference scales, and zero-point slots for accurate calibration.

Durable Build:Supplied in a sturdy engineering plastics storage case

TheV-2 Calibration Blockis a compact, versatile reference standard designed for quick and reliable on-site checking of miniature shear wave probe index, time base, beam angle, and gain settings. Its precise design ensures consistent ultrasonic flaw detection results in the field.

Standard Compliant:Built to BS 2704 Block A4 and DIN 54122 specifications.

Field-Friendly Design:Small size with precise reference marks for on-site shear wave probe calibration.

Convenient Storage:Supplied with a durable plastic case for protection and easy transport.

TheDSC Calibration Blockis an AWS-type ultrasonic calibration standard designed specifically for precise shear wave distance and sensitivity calibration. Its dual-radius construction meets the stringent requirements of ASTM E164, making it a trusted tool for accurate ultrasonic flaw detection setup.

Standard Compliance:Conforms to ASTM E164 for shear wave calibration.

Precise Radii:Dual-radius design (25.4 mm & 76.2 mm) for distance and sensitivity checks.

Safe Storage:Comes in a durable engineering plastics case for easy transport and protection.

TheDC Calibration Blockis designed for precise shear wave distance calibration, ensuring your ultrasonic testing equipment is accurately set up for defect detection. Featuring a unique dual-radius configuration on a 180 segment, this block complies with ASTM E164 and BRR/AWS X-1 standards, meeting industry requirements for consistent performance.

Industry Standard:Manufactured as per ASTM E164 and BRR/AWS X-1 guidelines.

Accurate Dual Radii:Contains 25.4 mm & 50.8 mm radii on a 180 segment for precise distance checks.

Protective Case:Delivered in a sturdy plastic case for safe storage and transport.

ThePhased Array Calibration Block Ais a versatile reference standard specifically designed for the setup and calibration of phased array ultrasonic flaw detectors. While similar in size to a traditional IIW-Type Block, this block is specially engineered to meet the complex requirements of phased array applications. Use it to perform beam angle verification, wedge delay calibration, sensitivity checks, DAC/TCG calibration, and more ensuring your phased array system operates with maximum accuracy.

Purpose-Built:Optimized for phased array flaw detector setup and calibration.

Multiple Features:Seven through-holes, twenty-four FBH, and four notches for full calibration coverage.

Practical Design:Similar dimensions to an IIW-Type Block with a sturdy protective case included.

This specialPhased Array versionof the popular NAVSHIPS calibration block is expertly designed to eliminate the common issue of hole interference during phased array inspections. By using fewer, strategically positioned holes, this block ensures clearer, more reliable phased array ultrasonic calibration.

Available in both inch and metric versions, its an ideal solution for technicians needing precise calibration of phased array probes without signal confusion from excessive hole overlap.

Phased Array Ready:Special layout avoids hole interference for clean signals.

Accurate Placement:Four precision-drilled holes, inch or metric dimensions available.

Certified Design:Made according to PH Tool Drawing No. 10168 (Inch) and 10220 (Metric).

ThePhased Array Assessment Block, also known as a Type B Block, is a general-purpose reference standard designed for beam characterization, system performance evaluation, and baseline calibration of phased array ultrasonic instruments.

Use this block to check long-term instrument performance, generate DAC curves, and evaluate linear and angular resolution, beam focusing, and beam steering capability. With its versatile target layout, its also an excellent demonstration piece for showcasing phased array ultrasonic testing capabilities to customers.

Standard Compliance:Manufactured according to ASTM E2491 and PH Tool Drawing No. 10235.

Compact Design:Dimensions 1 thick 4 wide 6 long, nickel-plated for durability.

Versatile Targets:Multiple angled holes, arrays, and engraved marks for full phased array performance assessment.

UCOMAX ASME Sec V Pipe Calibration Blocksare specially engineered to support phased array ultrasonic testing (PAUT) on pipelines of various sizes and specifications. These blocks are carefully designed with practical modifications to the traditional ASME layout to help minimize unwanted back-wall noise and deliver more reliable DAC/TCG calibrations with PAUT equipment. Each block includes extra axial and arc length, a smart rearranged notch layout, and for pipes larger than 5 NPS, a 10 angled cut on one end to further reduce noise interference during inspection.

Standards:Fully compliant with ASME Section V, Article 4, Figure T-434.3

Custom-Made:Machined from same nominal pipe size, schedule, and material spec as your project

Optimized Design:Extra axial length, practical notch layout, and angle cut for clearer PAUT calibration

TheUCOMAX WCMT Block(Wide Coverage Multiple Thickness) is a custom-engineered calibration standard designed to simplify ultrasonic testing for ASME piping inspections on large-diameter pipes over 20 inches.

This special block combines six flat calibration sections in a single practical design, covering pipe wall thicknesses from 0.200 to 2.0, all within ASME Section V, Article 4 tolerances.

Each WCMT Block is individually machined to order, ensuring it matches your exact inspection needs. The block uses side-drilled hole (SDH) reflectors, which provide consistent, repeatable reference signals across various angles ideal for both piping and non-piping applications (T-434.2.1).

Engraved section markings make it easy to identify the thickness range covered by each segment. This versatile, multi-use design reduces the need for multiple separate blocks, saving time and effort in the field.

Custom-Made:Designed and machined to order for your project needs.

Wide Coverage:Combines six sections 0.250, 0.375, 0.500, 0.750, 1.0, 1.5 in one block.

Reliable Calibration:SDH reflectors provide ASME-compliant, repeatable signals for both conventional and phased array UT.

TheUCOMAX WCMW Block(Wide Coverage Multiple Width) is a custom-designed piping calibration block developed for ultrasonic DAC/TCG calibrations on a broad range of ASME pipe sizes. Each block maintains a consistent outside diameter (OD) while providing multiple stepped thicknesses on the inside diameter (ID) to cover different pipe schedules in one compact design. By placing the steps on the ID, the block maximizes wedge curvature fully aligned with ASME T-432.2 requirements for phased array inspections introduced in 2017. Careful design of block length, reflector placement, and tapered ends eliminates echo conflicts and termination noise helping operators establish smooth, uninterrupted DAC/TCG curves without the hassle of split-DAC effects.

Multi-Width Design:Single block covers multiple pipe schedules with ID thickness steps.

Optimized Calibration:Tapered ends and well-placed reflectors prevent echo interference.

Ready for Field Use:Media-blasted surface, engraved markings, and positioning guides.

TheUCOMAX WCMW AOD Piping Calibration Blocksare specially created for axial calibration during the inspection of circumferential butt welds. Available in three sizes small (35), medium (610), and large (1220) these blocks make it possible to cover a wide range of pipe sizes with just a compact set. As a complete kit, the three blocks are supplied in a durable protective case for easy transportation to inspection sites, enabling fast, convenient calibration for over 96 pipe sizes.

Covers More:Three blocks replace dozens of standard calibration blocks.

Axial Orientation:Purpose-built for calibration in the axial direction for circumferential weld inspections.

Ready to Go:Comes in a protective kit for safe transport and easy site use.

TheUCOMAX WCVD Thickness Calibration Block(Wide Coverage Multiple Diameter) is purpose-built for efficient ultrasonic thickness calibration across a wide range of pipe diameters and wall thicknesses. This block features multiple narrow slots precisely cut completely through the block, creating clear, repeatable calibration points at different distances from the OD. Each distance represents a unique wall thickness, allowing inspectors to cover multiple standard pipe schedules with just one block.

Wide Coverage:Calibrates multiple wall thicknesses for various pipe diameters in a single block.

Clear Markings:Engraved pipe diameters, thickness values, alloy, and unique S/N for easy traceability.

Practical Design:Narrow through-slots provide accurate, repeatable calibration points.

UCOMAXmanufactures high-precisionStep Blocksused for the calibration and verification of thickness measuring instruments, primarily in ultrasonic testing (UT) and other Non-Destructive Testing (NDT) applications. Each block is precisely machined with a series of flat steps of known thicknesses. These steps help inspectors check instrument accuracy, verify linearity, and ensure reliable measurements across a range of wall thicknesses and materials.

1. High-Precision Manufacturing:Each block is machined with tight tolerances to ensure repeatable and reliable readings.
2. Durable Materials:Made from premium engineering alloys for long service life and corrosion resistance.
3. Clear Engravings:Deep, easy-to-read step markings for hassle-free on-site use.
4. Versatile Sizes:Standard and custom step ranges available to match diverse inspection needs.
5. Protective Storage:Comes with robust engineering plastic cases for safe handling and transport.
6. Traceable Quality:Calibration certificates available on request, traceable to recognized standards.

lded Flawed Specimensare precision-engineered test samples that contain intentional, controlled defects within or around the weld area. Typical flaws include cracks, lack of fusion, porosity, and slag inclusions closely replicating real-world welding imperfections.

These specimens are vital for Non-Destructive Testing (NDT) applications, offering a practical, realistic way to evaluate inspection procedures, train personnel, validate techniques, and test equipment performance.

AtUCOMAX, we specialize in manufacturing high-quality Welded Flawed Specimens designed for practical, reliable Non-Destructive Testing (NDT) training and validation. Each specimen is crafted using premium raw materials free from pre-existing defects and welded with precise, controlled flaws that accurately replicate real-world imperfections such as cracks, porosity, lack of fusion, and slag inclusions. These specimens help ensure inspectors, trainees, and equipment are tested under realistic conditions, supporting certification, procedure validation, and performance checks across industries like refineries, petrochemicals, power plants, and more.

Enhanced Efficiency: ECT Tubes are designed for heat exchanger systems, significantly improving the thermal efficiency of the heat exchange process, ensuring optimal heat transfer performance.

Corrosion Resistance: Made from high-quality materials, ECT Tubes offer superior corrosion resistance, ensuring long-term durability and performance, especially in aggressive environments like chemical processing, marine systems, and power plants.

Versatile Design: These tubes are ideal for various heat exchanger designs, including shell and tube heat exchangers, air-cooled heat exchangers, and plate heat exchangers, making them a versatile choice for different applications.

RFET Tubes, also known asRadio Frequency Eddy Current Tubes, are specialized tubes designed for non-destructive testing applications. They are particularly used in heat exchangers, cooling systems, and other tubular systems to identify material degradation caused by corrosion, erosion, cracking, or other mechanical failures. By employing RF Eddy Current technology, these tubes enable highly sensitive flaw detection, even in difficult-to-inspect regions of the tubes.

RFET Tubes provide excellent corrosion monitoring capabilities, offering valuable information on the structural integrity of the tube material. They are commonly used in heat exchanger maintenance programs, helping to prevent catastrophic failures and prolonging the life of equipment. These tubes are often utilized in industries that require regular inspection of their systems, such as oil and gas pipelines, chemical processing plants, nuclear power plants, and power generation facilities.

NFT Tubes or Near Field Eddy Current Tubes, are designed for high-precision non-destructive testing (NDT) applications. By using Near Field Eddy Current Technology, these tubes offer exceptional sensitivity for detecting small defects and imperfections in ferrous and non-ferrous materials. NFT Tubes are particularly useful for industries where accurate and reliable tube inspections are critical to avoid downtime and ensure the safety of equipment.

These tubes are typically used in heat exchangers, boilers, and other critical systems where early detection of material degradation can prevent costly repairs and catastrophic failures. Their advanced detection capabilities allow for real-time monitoring, giving engineers and operators the ability to take immediate corrective action if defects are identified.

MFL Tubes (Magnetic Flux Leakage Tubes) are designed to offer high-precision detection of surface and subsurface defects in ferrous materials using Magnetic Flux Leakage (MFL) technology. This technology allows for the detection of defects such as corrosion, cracking, pitting, and other types of damage without causing any harm to the material being tested, making it an essential tool in non-destructive testing (NDT).

MFL Tubes are typically used for inspecting pipelines, tubes, storage tanks, and other critical components in industries like oil and gas, power generation, and chemical processing. These tubes are known for their ability to detect even the smallest defects, which helps reduce the risk of catastrophic failures and ensure the safety of industrial systems.

IRIS Tubesutilize ultrasonic waves to inspect the internal surfaces of pipes and tubes. By emitting sound waves and measuring the time it takes for them to reflect back from the inner surface of the tube, IRIS technology provides a clear and precise picture of the inner integrity of the material. This makes it highly effective in detecting corrosion, pitting, and other types of structural damage.

IRIS Tubes are used across a range of industries for preventive maintenance, quality control, and asset integrity monitoring. The technology allows for comprehensive wall thickness measurement, helping engineers and technicians understand the degree of material degradation over time, thus enabling better decision-making regarding repair or replacement.

ThePROTRACK Scanneris a compact, motorized crawler designed to perform remote weld and corrosion inspections on pipes, tanks, and other large steel surfaces. It uses magnetic wheels to stay firmly attached to the inspection surface and can operate in horizontal, vertical, or inverted positions. Controlled from a handheld remote, the PROTRACK allows operators to carry out precise, repeatable scans from a safe distance. Its modular design supports various inspection setups, including weld scanning with multiple probes or corrosion mapping with optional accessories. Easy to transport and quick to deploy, the PROTRACK is well suited for field inspections in challenging industrial environments.

1. Steerable crawler operated remotely for safe, precise inspections
2. Magnetic wheels ensure secure attachment on steel surfaces
3. Suitable for horizontal, vertical, or overhead scanning
4. Supports multiple probes for weld and corrosion inspections
5. Modular design with optional accessories for different applications
6. Compact and portable for easy transport and quick setup

TheUCO LS Scanner is a manual scanning tool developed for the inspection of long seam welds on large-diameter pipes and vessels. It provides a stable and consistent platform for ultrasonic probes, allowing operators to collect accurate data while maintaining smooth movement along the length of the weld. Its adjustable design makes it suitable for various pipe sizes and different inspection requirements, while the robust frame ensures durability in a range of working conditions. The scanner is lightweight and simple to set up, making it practical for both field and workshop use.

1. Accommodates up to two ultrasonic probes for simultaneous inspection
2. Manual scanner with integrated wheels for smooth, controlled travel along weld seams
3. Adjustable probe holders for different pipe diameters and inspection angles
4. Corrosion-resistant construction suitable for outdoor and industrial environments
5. Compatible with encoder options for positional data if required
6. Quick and straightforward to assemble and adjust without special tools
7. Compact and lightweight for easy handling and transport

TheUCO Lite Scanneris a compact manual scanner specifically designed for Time of Flight Diffraction (TOFD) weld inspection on pipes and flat ferromagnetic surfaces. It provides a stable scanning platform for two ultrasonic probes, ensuring reliable data collection during circumferential or flat surface scans. The scanner attaches securely to the surface using magnetic wheels, allowing steady and controlled movement even when working in inverted or tight positions. Its lightweight aluminum frame and simple adjustments make it practical for field use, easy to transport, and quick to set up without the need for specialized tools. The UCO Lite supports accurate and repeatable inspections while helping operators maintain consistent probe alignment and cable management throughout the scanning process.

1. Supports two TOFD probes for circumferential or flat weld inspections
2. Four magnetic wheels provide secure surface attachment and smooth movement
3. Lightweight and easy to handle in different positions
4. Tool-free, spring-loaded probe arms for quick adjustments
5. Removable handle for better access in confined spaces
6. Built-in cable management keeps probe and irrigation lines organized
7. Clear markings allow precise probe separation and alignment
8. Supplied with frame, wheels, encoder, probe arms, and carrying case (probes and wedges are optional)

TheUCO Flexis a manual, one-axis encoded scanner designed for inspecting circumferential welds on pipes and flat surfaces. Its hinged, flexible frame adapts to pipe diameters starting from 114 mm (4.5 inches) and larger, providing stable and consistent probe contact for accurate ultrasonic testing. The adjustable frame grips the pipe securely, while spring-loaded probe arms maintain proper pressure to achieve clear, repeatable inspection results. Magnetic wheels help the scanner stay firmly attached to ferromagnetic surfaces, allowing smooth manual movement around the weld. The scanner can be configured with up to eight probes for phased array, pulse-echo, or TOFD inspections, making it suitable for various inspection needs in standard or tight spaces.

1. Fits pipes with diameters of 114 mm (4.5 inches) and larger
2. Hinged frame design adjusts to different pipe sizes
3. Holds four probes as standard, expandable up to eight
4. Magnetic wheels ensure stable scanning on steel surfaces
5. Spring-loaded probe arms adjust quickly without tools
6. Slidable side frame helps reach tight or obstructed areas
7. Built-in encoder for position tracking
8. Integrated rulers and water manifold for consistent probe setup
9. Lightweight construction with removable handles for easy handling and transport

TheORBIT Scanner is a compact manual scanner designed for inspecting circumferential welds on small-diameter pipes and tubes where space is limited. Its low-profile design makes it practical for tight access areas while providing smooth and steady scanning around the weld. The scanner can hold one or two probes depending on inspection needs and works on both ferrous and non-ferrous surfaces. With simple adjustments and a lightweight build, the ORBIT is easy to handle, quick to set up, and reliable for routine inspections in the field or workshop.

1. Fits small pipes and tubes with diameters from about 21 mm to 114 mm
2. Low clearance height, ideal for areas with tight space around the pipe
3. Can be used with one or two probes for weld scanning
4. Smooth travel with durable wheels for steady scanning
5. Simple link system adjusts to different pipe sizes without tools
6. Encoder included for position tracking if required
7. Lightweight and easy to transport
8. Works reliably on various pipe materials
9. Practical for everyday use in industrial inspection work

The remote field probes are equipped with a preamplifier and feature enhanced wear resistance, a thicker casing, improved differential response, and better signal-to-noise ratio (SNR). Designed for detecting irregularities like

pitting, corrosion, and erosion in ferromagnetic tubing, these probes are available in below mentioned configurations.

Single Exciter Probes

Features:

1. Features a robust 32 dB
2. preamplifier for enhanced signal clarity.
3. Upgraded casing with increased
4. thickness for superior wear resistance.
5. Optimized differential response for improved accuracy.
6. Effectively detects defects like pitting, corrosion, and erosion in ferromagnetic tubing.

Dual Exciter Probes

Features:

1. Integrated 32 dB preamplifier for enhanced signal amplification.
2. Selectable single or dual exciter operation via the software interface.
3. Optimized differential response and superior signal-to-noise ratio.
4. Improved sensitivity to pitting when using dual exciter mode.
5. Enhanced detection of irregularities near the support plate.

TheNFT (Near Field Testing) Probeis designed for high-precision surface inspections using electromagnetic fields. These probes are primarily used for detecting surface-breaking defects such as cracks, corrosion, or delaminations in conductive materials. The Near Field Testing method is particularly beneficial for applications requiring highly sensitive surface defect detection without requiring direct contact with the material.

NFT probes are compact, lightweight, and easy to use, making them perfect for a wide range of industrial applications, such as automotive, aerospace, and manufacturing. By using low-frequency electromagnetic fields, these probes are able to detect defects on or near the surface of metals and other conductive materials, making them a vital tool in non-destructive testing (NDT).

Key Benefits:

1. Highly sensitive to surface-breaking defects.
2. Fast inspection, ideal for routine maintenance and quality control.
3. Lightweight and portable, easy to use in confined spaces.

TheSaturated ECT (Eddy Current Testing) Probeis designed for high-performance, non-destructive testing of thick-walled conductive materials. These probes utilize a saturated eddy current method to achieve deeper penetration, making them particularly effective in detecting internal and surface defects, such as cracks, corrosion, and material degradation. They are ideal for use in industries like aerospace, power generation, and oil & gas, where safety and reliability are critical.

Saturated ECT probes offer superior sensitivity and precision compared to traditional eddy current probes, ensuring that even subtle material imperfections are detected. Their robust design allows for effective use in harsh environments, including extreme temperatures and challenging surface conditions. This makes them indispensable tools for routine inspection and preventive maintenance.

Key Benefits:

1. Ideal for inspecting thick materials such as pipes and structural components.
2. Effective at detecting subsurface defects like cracks and corrosion.
3. Non-destructive testing ensures no damage to components.

TheMFL (Magnetic Flux Leakage) Probeis designed for the inspection of ferrous materials, primarily used to detect surface and subsurface defects like cracks, corrosion, and material thinning. MFL probes utilize the principle of magnetic flux leakage, where a magnetic field is introduced into the material, and any leakage caused by defects is detected by the probe. This non-destructive method makes MFL probes highly effective for inspecting pipelines, storage tanks, and other critical infrastructure.

MFL probes are especially suitable for inspecting thick materials, as they provide deep penetration and can detect both surface and subsurface anomalies. The probes are commonly used in industries where safety and reliability are paramount, such as the oil & gas, power, and chemical industries. Their rugged construction allows them to be used in harsh environments while delivering consistent, reliable results.

Key Benefits:

1. High sensitivity to a wide range of defects in ferrous materials.
2. Ideal for inspecting pipelines, storage tanks, and pressure vessels.
3. Provides non-destructive, reliable results even in harsh conditions.

TheEddy current flexible probesare constructed with durable stainless steel and equipped with a titanium protective cover for the coils. They are optimized for inspecting tight U-bends with curvature radii as small as 50 mm (2 inches).

Recommendations

TEG probes are suitable for inspecting tight U-bends with curvature radii down to 51 mm (2 inches). These probes are designed to inspect one-half of the U-bend (90) from each side of the tube.

Features

1. Durable stainless steel construction for long-lasting performance.
2. Titanium protective cover ensures coil protection.
3. Capable of inspecting tight U-bends with a curvature radius as small as 50 mm (2 inches).

MEASUREMENT PRIMEis a Windows-based image analysis software designed for metallurgists and material scientists to analyze microscopic images with precision. It supports both grey (8-bit) and color (24-bit) image formats and allows analysis of multiple image types including BMP, JPEG, TIFF, PNG, GIF, and PSD. Users can capture live images, perform measurements, and generate detailed reportsall from one integrated platform.

Built for efficiency, MEASUREMENT PRIME enables users to export graphs and charts directly into Windows applications like MS Word and Excel for streamlined documentation.

Key Highlights:

1. Supports Multiple Image Formats BMP, JPEG, TIFF, PNG, GIF, PSD
2. Live Image Capture Observe and capture live images directly within the software
3. Measurement & Analysis Tools Modules for size, thickness, porosity, calibration, and more
4. Export to Windows Programs Easily transfer charts and reports to MS Word or Excel
5. Single-Click Analysis Save settings and run full analysis with one button
6. Organized Reports & Galleries Access saved measurements and analysis anytime

Aluminium Primeis a modular image analysis software specifically developed for the microstructural evaluation of aluminium alloys. Widely used across industries such as transportation, shipbuilding, aviation, construction, and machinery manufacturing, aluminium alloy performance is closely linked to microstructural properties like grain size, porosity, and phase distribution.

The software uses advanced and improved algorithms for efficient and precise analysis, offering functions like grain boundary extraction, quantitative calculation, microstructure classification, and segmentation. With dedicated modules for every key analysis area, Aluminium Prime enables fast, repeatable, and standards-compliant results tailored to the needs of aluminium alloy industries.

Key Highlights:

1. Purpose-built for aluminium alloy microstructure analysis
2. Grain size evaluation using multiple ASTM methods (E-112, E-93, E-1181)
3. Quantitative porosity analysis based on ASTM B276
4. Powerful segmentation tools with grayscale histogram and phase overlays
5. Image-based measurements with manual tracing and result export
6. Easy calibration and one-click analysis setup
7. Automated image and data storage
8. Organized gallery for viewing and retrieving captured analysis images

Foundry Primeis a comprehensive cast iron microstructure analysis software designed specifically for the foundry and cast iron industries. Built on a touchscreen-friendly platform, it enables precise analysis of nodules, graphite flakes, carbides, and microstructural phases according to ASTM, ISO, and JIS standards. Whether youre analyzing ductile iron, grey iron, or carbide banding, Foundry Prime streamlines the entire process from live image capture to automated measurement, classification, and professional reporting all with single-click simplicity.

Key Hightlights:

Standard Compliant:Analyzes nodules and graphite flakes as per ASTM A247-67 and ISO 945-1 standards. Excludes nodules touching boundaries and artifacts below 10 microns for accuracy.

Smart Nodularity & Flake Analysis:Automatically separates nodules from non-nodules based on spheroidicity, size, and form. Reports graphite flake type, size, orientation, and distribution.

Flexible Matrix Analysis:Reports the matrix composition pearlite, ferrite, graphite, and carbide for etched samples. Calculates pearlite percentage by excluding graphite area.

One-Touch Automation:Powerful algorithms for segmentation, boundary detection, and neural network classification deliver quick, repeatable results at the push of a button.

Live Camera Control:Adjust image capture settings in real time white balance, brightness, contrast, hue, and saturation to ensure high-quality images every time.

Precise Measurement:Take manual measurements on lines, traces, or shapes. Log results automatically for further analysis, printing, or export to spreadsheets.

Ready Reports:Generate fully formatted reports with your chosen international standards and templates (with or without chemical & physical properties).

Easy Gallery Access:Organize captured images in clear folders for Nodularity, Flake, Carbide, and Line Measurement retrieve them anytime.

Copper Primeis a specialized microstructure analysis software built for copper and its alloys. It supports quality control, failure analysis, and research by allowing precise evaluation of key metallurgical features such as grain size, porosity, second phase content, dendrite arm spacing (DAS), impurities, and structural defects.

The software enables users to quantify these characteristics and compare them to acceptance criteria, following standardized methods. With modular tools like segmentation, measurement, and coating thickness analysis, Copper Prime provides a flexible and reliable solution for copper-based metallography.

Key Highlights:

1. Built specifically for microstructural analysis of copper and copper alloys
2. Measures grain size, porosity, second phase, impurities, and defects
3. Grain size analysis in accordance with ASTM E112
4. Decarburization evaluation as per ASTM E-1077-91
5. Measures plating or coating thickness using cross-sectional microscopy
6. Histogram-based segmentation with multiple phase overlays
7. One-time settings configuration for ISO/ASTM calibration and reports
8. Saved reports and organized gallery for easy retrieval and review

Hardness Primeis an advanced image analysis software designed to simplify and speed up hardness testing for Vickers, Brinell, and Knoop methods. Built for metallurgical labs, research institutes, and quality control departments, it delivers precise, repeatable results with manual and automatic modes. Compatible with most microscopes and digital cameras, Hardness Primeoffers a powerful yet user-friendly platform to capture, measure, and report hardness values in minutes.

Key Highlights:

Manual & Automatic Measurement Modes

Switch between manual marking for special samples or let the software auto-detect indentations for faster, repeatable testing.

Vickers Hardness Test

1. Manual:Measure diagonals by marking points on screen.
2. Automatic:Detects edges automatically for consistent results.

Brinell Hardness Test

1. Manual:Mark edges of the ball impression and measure the mean diameter manually.
2. Automatic:Auto-detects the impression edges for fast diameter calculation.

Knoop Hardness Test

1. Manual:Mark the long diagonal manually for delicate microhardness testing.
2. Automatic:Software auto-measures the diagonal for quick, accurate readings.

Camera & Live Image Control

Adjust live image settings such as white balance, brightness, contrast, hue, and saturation. Capture images in various sizes and save them in organized folders for easy access.

Calibration & Reporting

Calibrate once per objective for accurate measurements. Generate detailed reports ready for printing, sharing, or exporting to Word, Excel, or PDF

Weld Primeis a state-of-the-art image analysis software developed for welding inspectors, metallurgists, quality control engineers, and material scientists who need accurate, reliable, and user-friendly tools for weld measurement and defect detection. From live image capture to automated measurement and detailed reporting, Weld Prime brings efficiency and precision to every stage of your weld inspection process. Whether you work in heavy fabrication, manufacturing, or research, Weld Prime helps you maintain the highest welding quality standards with ease.

Key Highligths:

Versatile Image Handling:Supports both grey monochrome (8-bit) and full color (24-bit) images. Open, view, and analyze multiple images of any resolution at once, making comparison and documentation effortless.

Wide Format Support:Compatible with standard image formats including BMP, JPEG, TIFF, PNG, GIF, and PSD no conversion hassles.

Live Image Capture & Adjustment:Connect your digital camera and capture live images with complete control over display size, white balance, brightness, contrast, hue, and saturation. Save images instantly to organized folders for analysis.

Precision Annotation:Mark your images with a comprehensive range of tools lines, angles, circles, squares, grids, cross lines, scale bars, arrows, and custom text. Highlight areas of interest, add notes, and define dimensions with adjustable colors and line thickness.

Accurate Calibration:Ensure measurement consistency by calibrating each microscope objective and camera setup. Easy recalibration whenever hardware is adjusted or replaced guarantees ongoing accuracy.

Automated Measurements:Save time and reduce errors with programmable measurement tools that automatically detect edges and capture key weld quality parameters.

Reliable Defect Detection:Identify critical weld defects such as cracking and porosity to ensure weld strength, durability, and safety compliance.

Seamless Reporting:Instantly generate professional graphs, charts, and reports. Export data to MS Word, Excel, or any Windows-based software for presentations, client reports, or quality documentation.

Material Primeis a modular, computer-aided image analysis software designed specifically for metallurgists, laboratory technicians, scientists, and R&D engineers in the metal industry. Built for advanced microstructural evaluation, Material Prime supports tasks in quality control, defect detection, and product development.

The software adheres strictly to ISO and ASTM standards and supports a wide range of image formats (BMP, TIFF, JPEG, PNG, GIF) and input devices including USB 2.0, USB 3.0, and TWAIN-compatible cameras. Material Pros high-efficiency image processing delivers up to 80% more image data than comparable systems and streamlines image capture, measurement, enhancement, and reporting.

Key Highlights:

1. Built specifically for metallurgical applications and materials analysis
2. Follows ISO and ASTM standards (e.g., E112, B276, E1077, A247-67)
3. Supports image types: BMP, JPEG, TIFF, PNG, GIF, and PSD
4. Compatible with USB 2.0/3.0 and TWAIN imaging devices
5. High-resolution image capture and measurement tools
6. One-click live measurement and automatic report generation
7. Multiple analysis modules including grain size, porosity, carbide, coating, decarburization
8. Customizable settings and templates for reports with/without composition
9. Organized gallery folders for easy image retrieval
10. Supports both grayscale and color images