Showing results: 1 - 15 of 20 items found.
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SONAPHONE® S-SB10.xx -
SONOTEC GmbH
With the Stationary SONAPHONE S-SB10.xx and its associated probes machine and plant processes can be monitored permanently, insofar as a detectable ultrasonic level is generated. A fixed installation at an inspection point enables trend monitoring for longer periods. Based on changes of the ultrasonic sound level the assessment of plant condition is possible. Different probe versions support airborne sound and structure-borne sound applications.
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SONOFLOW CO.55 -
SONOTEC GmbH
The ultrasonic clamp-on flow meter SONOFLOW CO.55 detects the flow rate of liquids in flexible plastic tubes quickly and reliably. The non-invasive sensor has no contact to the medium and is particularly suited for applications with strict hygienic standards. The clamp-on mounting concept eliminates any risk of contamination or leaking.
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SONOFLOW IL.52 -
SONOTEC GmbH
The SONOFLOW IL.52 sensor is designed for precise, fast and bidirectional measurement of ultra-low flow rates. Due to its instantaneous measuring method with high repetition rates, the ultrasonic inline flow meter is suitable for quick dosing processes and for measuring pulsating flows.
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SONOWALL® 50 -
SONOTEC GmbH
The SONOWALL 50 features a highly accurate data read out and a large measurement range. An integrated data logger and its user-friendly operation make the device ready for a wide variety of applications. The included software is a convenient tool to store and evaluate the measurements.
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SONOWALL® 70 -
SONOTEC GmbH
SONOWALL 70 is the first thickness gauge in the market with intelligent probe identification. The extended probe management allows probe-specific information such as DAC-curves, delay lines, and serial numbers to be saved directly in the ultrasonic probe. In addition to various thickness applications, the device can be upgraded to a full-function flaw detector.
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SONASCREEN® -
SONOTEC GmbH
The handheld acoustic camera SONASCREEN generates acoustic images from both the audible and ultrasound frequency range. The device locates sound sources in real time and displays the results immediately on the screen. Furthermore, the camera provides audible feedback through industrial headphones. We make ultrasound audible and visible.
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T10 -
SONOTEC GmbH
The T10 structure-borne sound probe can be used to monitor the condition of machines, systems and processes, provided that they generate detectable structure-borne sound in the ultrasonic range. Changes in the sound signals indicate a change in the condition and/or process of the plant. The detection of these changes forms the basis for condition monitoring in preventive maintenance. The T10 structure-borne sound probe is used when the installation space is very limited or the test specimen must not be loaded with a large sensor mass. The T10 structure-borne sound probe is also suitable for use on non-magnetic surfaces.
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SONAPHONE -
SONOTEC GmbH
The ultrasonic leak detector SONAPHONE is designed for a quick and precise location of leaks in compressed air, inert gas and vacuum systems. System leaks can easily be detected. The variety of devices in the range and the extensive accessories available enable this range of devices to be used for a multitude of various applications. With the help of the ultrasound testing device SONAPHONE, it is easy to pinpoint leaks.
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SONOSCAN R -
SONOTEC GmbH
The robust ultrasonic probes with BNC connector allow a fast scanning over comparatively large areas with high precision and repeatability. Both our own and third-party wedges can be attached to our probes. . Thanks to the different types of wedges various material tests can be performed.
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SONOSCAN CFC / CF -
SONOTEC GmbH
Due to the strong damping properties of air, low frequencies in the kHz range are used in air-coupled ultrasonic testing. It is therefore all the more important that the ultrasonic transducers offer a particularly high sensitivity in order to ensure high penetration and improved resolution. We achieve this, among other things, by installing preamplifiers in the receiver probe as well as by using our own Piezocomposite Technology, which enables a flexible use of the matching materials in our CFC and CF probes.
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SONAPHONE® Pocket -
SONOTEC GmbH
With the SONAPHONE Pocket you identify problems even before they arise and create value at all levels of your company. Just by detecting and eliminating leaks you can reduce the energy costs for your compressed air system up to 30 percent. This also has positive effects on your operational safety and system productivity through early warning of bearing failure and evidence of partial electrical discharges.
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SONOSCAN W -
SONOTEC GmbH
The ergonomic angle beam probes for Non-destructive Testing (NDT) from the SONOSCAN series inspect metals for cracks and inclusions. In the metal industry they are mainly used for weld seam testing. Our SONOSCAN probes are powerful, robust ultrasonic transducers which can be connected to all standard ultrasonic testing gauges.
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SONOSCAN Q -
SONOTEC GmbH
In addition to angle beam probes according to european standards (EN), we offer probes with quick-change wedges for ultrasonic weld seam inspection as well as various wedges for the american market. Quick-change probes are used wherever access to the inspection object is difficult to reach with the larger AWS transducers. The relatively small, round elements also offer better defect resolution.
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SONOSCAN P -
SONOTEC GmbH
The ergonomic straight beam probes of the SONOSCAN Series for Nondestructive Testing (NDT) comply with the European Standard DIN EN 12668-2. Our ultrasonic transducers are used to check metals, plastics and ceramic materials for discontinuities, such as cracks, inclusions, blowholes and other material flaws.
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T20 -
SONOTEC GmbH
The structure-borne ultrasonic probe T20 is used for condition monitoring of machines, systems and processes, given that they generate detectable structure-borne sound in the ultrasonic range. Changes in the sound signals indicate a change in the condition and/or process of the plant. The detection of these changes forms the basis for condition monitoring in predictive maintenance.