Nova Tg110-dl User Manual
Posted By admin On 07.10.19Founded in 1993, ADVANCED NDT LTD, is an established supplier of Non Destructive Testing equipment to most leading UK companies. We pride ourselves on offering customers the ‘OPTIMUM NDT SOLUTION’ to suit their requirements and testing application at a COST-EFFECTIVE PRICE!
We supply leaders in most types of industry, including Power Generation, Petrochemical plants, Automotive, Aerospace and the MOD, where applications include precision thickness gauging from one side only, corrosion surveys including through paint measurement, flaw detection in forgings and castings and bond testing of composite structures. Our range of Ultraviolet Lights has an even wider customer base. The above industries use the UV Lights for NDT defect detection using Magnetic Particle Inspection and Dye Penetrant Inspection.
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The performance of these lights however, has led to new applications for leak detection in automotive engines, sanitation, art restoration, forensic work at crime scenes and the monitoring of cleaning processes in food manufacturing plants etc. Whilst predominantly trading in the UK, we have a thriving export business all over the world. Advanced NDT Ltd work closely with a number of different suppliers from several countries to ensure that we can offer the best N.D.T. Solution for each individual customer. Product/ Service Ultrasonic Thickness Guages Ultrasonic Thickness Gauges allowing you to measure from one side only, ideal for many material wall thickness testing applications. From Simple Fixed Velocity Ultrasonic Thickness Testers to High Speed On-line Precision Ultrasonic Thickness Gauging The Nova TG-110-DL Digital Ultrasonic Thickness Gauge A simple hand-held, robust, general purpose Ultrasonic Thickness Tester for many applications.
Class leading performance for the price. Auto Probe Recognition. Time encoded B-scan. Multi-probe capability (Compatible with 10 probe types). USB, data logging, alarm modes The Dakota MX-1 - Simple Fixed Velocity Ultrasonic Thickness Gauge The Dakota MX-1 Ultrasonic Thickness Gauge can be pre-programmed for a specific material type using a simple PC program. The MX-1 is an excellent choice for users that measure the same material type all the time, and do not have the need to re-calibrate to different materials on the fly.
Please Note: The material velocity must be known prior to programming. The Dakota MX-1 thickness meter will hold a single velocity, making it the perfect choice for applications where only one material is being tested day after day. With the pre-set velocity in this gauge, you simply turn it on and go to work. The tools' backlit display is easy to read, even in dim light conditions, and the unit operates for up to 200 hours on a single set of AA batteries. The Dakota MX-1 Ultrasonic thickness gauge comes complete, ready to use, and is protected by Dakota Ultrasonics five year limited warranty. The CTS-30A / CTS-30B ultrasonic thickness gauge, adopts micro-processor technology and advanced manufacture process design, can do measurement of thickness and acoustic velocity on metal and many materials based on ultrasound measurement principle.
Mono LCD (with backlight), 128×64 pixels. Measurement range: 0.8mm-300mm/400mm (steel). Measurement accuracy: 0.01mm/0.1mm. Various measurement modes available: Minimum measurement value capture, average measurement value, setup limit measurement value, difference measurement value, etc.
Input the known thickness and the system may show the velocity of the inspected workpiece in real time. Up to 5000 sets of measurement data (refer to measurement value and acoustic value) and 100 sets of parameter data (refer to measurement value and system setup, etc.) can be saved.
Compact size, light weight, low consumption and long operation period. The Nova TG 900 Series Precision Ultrasonic Thickness Gauges are now available in both hand-held and bench top versions, from 4 key simple to full featured. COATING THICKNESS MEASUREMENT Coating thickness is an important variable that plays a role in product quality, process control, and cost control.
Measurement of film thickness can be done with many different instruments. Understanding the equipment that is available for film thickness measurement and how to use it is useful to every coating operation. The issues that determine what method is best for a given coating measurement include the type of coating, the substrate material, the thickness range of the coating, the size and shape of the part, and the cost of the equipment. Commonly used measuring techniques for cured organic films include non-destructive dry film methods such as magnetic, eddy current, ultrasonic, or micrometer measurement and also destructive dry film methods such as cross-sectioning or gravimetric (mass) measurement.
Methods are also available for powder and liquid coatings to measure the film before it is cured. Magnetic film gages are used to non-destructively measure the thickness of a non-magnetic coating on ferrous substrates.
Most coatings on steel and iron are measured this way. Magnetic gages use one of two principles of operation: magnetic pull-off or magnetic/electromagnetic induction. MAGNETIC FILM THICKNESS GAUGES Magnetic Pull-off Magnetic pull-off gauges use a permanent magnet, a calibrated spring, and a graduated scale. The attraction between the magnet and magnetic steel pulls the two together.
As the coating thickness separating the two increases, it becomes easier to pull the magnet away. Coating thickness is determined by measuring this pull-off force.
Thinner coatings will have stronger magnetic attraction while thicker films will have comparatively less magnetic attraction. Testing with magnetic gages is sensitive to surface roughness, curvature, substrate thickness, and the make up of the metal alloy. Magnetic pull-off gages are rugged, simple, inexpensive, portable, and usually do not require any calibration adjustment. They are a good, low-cost alternative in situations where quality goals require only a few readings during production. Pull-off gages are typically pencil-type or rollback dial models.
Pencil-type models (PosiPen shown in Fig 1) use a magnet that is mounted to a helical spring that works perpendicularly to the coated surface. Most pencil-type pull-off gages have large magnets and are designed to work in only one or two positions, which partially compensate for gravity.
A more accurate version is available, which has a tiny, precise magnet to measure on small, hot, or hard-to-reach surfaces. A triple indicator ensures accurate measurements when the gage is pointed down, up, or horizontally with a tolerance of ±10%. Pencil-type magnetic pull-off thickness gauge. Rollback dial models (PosiTest shown in Fig 2) are the most common form of magnetic pull-off gage. A magnet is attached to one end of a pivoting balanced arm and connected to a calibrated hairspring. By rotating the dial with a finger, the spring increases the force on the magnet and pulls it from the surface. These gauges are easy to use and have a balanced arm that allows them to work in any position, independent of gravity.
They are safe in explosive environments and are commonly used by painting contractors and small powder coating operations. Typical tolerance is ±5%.
Roll-back dial magnetic pull-off thickness gauge. Magnetic and Electromagnetic Induction Magnetic induction instruments use a permanent magnet as the source of the magnetic field. A Hall-effect generator or magneto-resistor is used to sense the magnetic flux density at a pole of the magnet. Electromagnetic induction instruments use an alternating magnetic field.
Journal Of Scientific Instruments
A soft, ferromagnetic rod wound with a coil of fine wire is used to produce a magnetic field. A second coil of wire is used to detect changes in magnetic flux. These electronic instruments measure the change in magnetic flux density at the surface of a magnetic probe as it nears a steel surface. The magnitude of the flux density at the probe surface is directly related to the distance from the steel substrate. By measuring flux density the coating thickness can be determined Fig. Electronic magnetic induction thickness gauges Electronic magnetic gages (e.g.
PosiTector 6000 F Series, PosiTest DFT Ferrous) come in many shapes and sizes. They commonly use a constant pressure probe to provide consistent readings that are not influenced by different operators. Readings are shown on a liquid crystal display (LCD). They can have options to store measurement results, perform instant analysis of readings, and output results to a printer or computer for further examination. Typical tolerance is ±1%.
The manufacturer's instructions should be carefully followed for most accurate results. Standard test methods are available in ASTM D 1186, D 7091-05, ISO 2178 and ISO 2808. Ultrasoninc Flaw Detectors Avenger EZ Our most popular ultrasonic flaw detector. A small lightweight but very robust hand-held Ultrasonic flaw detection unit with large LCD display.
Raptor High Performancec Ultrasonic Flaw Detector and Full Imaging in One Portable Unit. UtPod Ultra-Portable Ultrasonic Flaw Detector & Thickness/Corrosion Guage. Can be won on the wrist giving hand free operation,ideal for rope access work etc. Quantum Curlin Air Non Contact Air Coupled Ultrasonic Flaw Detector & Bond Tester. ISonic 2005 Portable Digital Ultrasoninc Flaw Detector and Recorder. ISonic 2006 Portable Digital Ultrasoninc Flaw Detector and Recorder with B-Scan, C-Scan,D-Scan,P-Scan,TOFD Inspection and Imaging Capabilies.
ISonic 2007 Portable Dual Channel Digital Ultrasoninc Flaw Detector and Recorder. ISonic 2008 Portable 8 Channel Digital Ultrasoninc Flaw Detector and Recorder. ISonic 2009 UPA Scope Portable High Performance Ultrasonic Phased Array Flaw Detector & Recorder with Conventional UT & TOFD Channels. ISonic 2010 Portable High Performance Ultrasonic Phased Array Flaw Detector & Recorder with Conventional UT & TOFD Channels. ISonic 3510 Very Powerful Superior Performance Portable Smart Phased Array Flaw Detector & Recorder with 2 Conventional UT & TOFD Channels. ISonic 16/32 AUT Multi Channel Ultrasoninc Flaw Detector for Automatic Ultrasonic Testing.
ISoninc PA AUT Platform for Automatic Ultrasonic Phased Array, TOFD & Conventional Pulse Echo Inspection. Socomate USPC Cards Socomate Ultrasonic PC Cards-USPC 7100LA (formerly USPC 3100). The Benchmark in PC Based single channel pulser-receivers. BondHub - Multimode Imaging Bond Tester. Advanced NDT Ltd & NDT Systems Inc are proud to introduce one of the world’s first multi-mode imaging bond tester with fully automatic C-scan imaging capability for testing the integrity of composites and adhesively bonded structures. Image in Resonance, Pitch-Catch and MIA modes using any of our manual or automatic scanners. The BondHub Imaging Bond Tester utilizes the full capability of the well-established BondaScope 3100 and connects to our manual or automatic scanners to generate high-resolution C-Scan images in Pitch-Catch, MIA and Resonance modes.
Inspection of composites and adhesively bonded materials has not seen such an advancement for many years. The power of full-field inspection images using bond testing elevates non-destructive inspection capability to a new level. Bond Testers BondaScope 350. Compact & Lightweight - only 1.8lb (0.82kg) with batteries.
Pitch-catch & Resonance modes. Singer sewing machine serial numbers featherweight. Display Modes: RF, Impedance plane, Flying Dot, Sweep, Time-encoded profile. Programmable user set-ups. Automatic probe recognition and Probe Library.
Tone burst, high energy pulsed mode Introduction As the use of adhesively bonded joints and fittings has increased across many industries, the need for testing bond integrity has grown. Metal to metal bonded joints, sandwich constructions with various skin and core materials, bonded carbon fibre composite structures have all become important in anufacturing as well as in-service repair patches and adhesively bonded re-enforcements. The integrity of these bonds is critical to the quality of the final product.
Conventional ultrasonic methods can be limited for these applications and so a variety of alternative methods have been developed to handle this range of material combinations. Portable Bond Testing The BondaScope 350 is a super compact and lightweight hand-held, battery operated ultrasonic bond tester that uses 2 different testing modes to cover a range of applications. Operating typically between 20kHz-400kHz, the lower frequency, compared to conventional ultrasonic testing, enables deeper penetration through attenuating material, across multiple glue lines and even sandwich cores to detect far-side defects. The different display modes are optimized for different applications with a variety of gates and alarms to easily identify a flaw. Dual-Mode Operation The instrument uses the most common Pitch-catch (P/C) and Resonance modes that are suited to laminates, bonded and sandwich structures. Pitch-catch is dry coupled, easy to use and works well on larger defects, 0.5”. Resonance mode requires couplant, but can identify smaller defects and even determine which layer the defect occurred in with multi-layered bonded structures.
BondaScope 3100. Hand-held Multi mode Composite Bond Tester.
Nova Tg110-dl User Manual
Tri-Mode - Pitch-catch (P/C), Mechanical Impedance Analysis (MIA) and Resonance modes. Display Modes: RF, Impedance Plane, Flying Dot, Sweep, Time-encoded profile. Programmable user set-ups, Alarm Modes. Automatic probe recognition & Probe Library.
Tone burst, high energy pulsed mode, swept frequency Introduction As the use of adhesively bonded joints and fittings has increased across many industries, the need for testing bond integrity has grown. Metal to metal bonded joints, sandwich constructions with various skin and core materials, bonded carbon fibre composite structures have all become important in manufacturing as well as in-service repair patches and adhesively bonded re-enforcements. The integrity of these bonds is critical to the quality of the final product. Conventional ultrasonic methods can be limited for these applications and so a variety of alternative methods have been developed to handle this range of material combinations. Portable Bond Testing The BondaScope 3100 is a hand-held, battery operated ultrasonic bond tester that uses 3 different testing modes to cover a range of applications. Operating typically between 20kHz-400kHz, the lower frequency, compared to conventional ultrasonic testing, enables deeper penetration through attenuating materials, across multiple glue lines and even sandwich cores to detect far-side defects. The different display modes are optimized for different applications with a variety of gates and alarms to easily identify a flaw.
Multi mode Operation The most common Pitch-Catch (P/C) and Resonance modes are suited to laminates, bonded and sandwich structures. Pitch- catch is dry coupled, easy to use and works well on larger defects, 0.5”. Resonance modes requires couplant, but can identify smaller defects and even determine which layer the defect occurred in with multi-layered bonded structures. Mechanical Impedance Analysis (MIA) Mode is dry coupled and most suited to metal-to-metal bonding and stiffer skin to core constructions. It has less penetration but works well on irregular and curved surfaces and with the small tip can accurately position the location of the defect. Ultrasonic Transducers / Probes Nova Series Precision Thickness Gauging Transducers Nova Series Precision ultrasonic transducers tailored for thickness gauging instruments manufactured by NDT Systems. These Ultrasonic Probes are also an excellent choice for optimum thickness gauging on virtually any instrument.
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These transducers incorporate our Patented Auto-probe recognition technology for optimum instrument set-up. Optima Series General Purpose Transducers Optima Series general purpose ultrasonic thickness transducers are available in Fingertip Contact, Rugged Contact, Standard & Miniature Angle Beam as well as Immersion and Dual Element Transducers. The Optima Series are premium series ultrasonic transducers, optimized for NDT Systems, Inc. Instrumentation but are equally compatible with any manufacturers' instrumentation.
Optima Series Probes are available for both Flaw Detection and Thickness Gauging applications.