Dakota QCG5050 - 5. 00MHz 1 2 Shear Wave - Quick Change Transducers . . . Home Products About Us Shipping Returns Contact Us Home Shear Wave Transducers Dakota QCG5050 - 5 00MHz 1 2" Shear Wave - Quick Change Transducers - High Gain ★★★★★ See More Shear Wave Transducers View All 39 Models in this Family
T-5045-2845 - 0. 500, 5. 0 Mhz, Top, Microdot, High Gain (QCG5050) Threaded shear wave transducers for quickly interchanging between wedges Ideal for limited access and curved surfaces Used for general weld inspection Use the options below to filter the table to find the transducer you need Clicking on the model will highlight the item in the Buy Now
Shear Wave Quick Change Transducers - dakotandt. com Shear Wave Quick Change Transducers can be used when different frequencies are required using the same wedge, or where different angles are required using the same frequency transducer These transducers are ideal for inspecting curved surfaces and hard to reach areas
Ultrasonic Transducers - Ultrasonic (Conventional) Transducers . . . QCG and PQC Transducers are generally used for inspections in the fabrication industry Designs for higher temperature applications increase the QCG and PQC's scope of application Common applications include: The QGC and PQC Transducers are compatible with Shear Wave Wedges
Shear Wave Quick Change Transducers Shear Wave Quick Change Transducers can be fixed to wedges of different angles to produce shear wave measurements When used in conjunction with the ‘Trigonometry’ feature of the gauge, the transducer will produce instrumental flaw detection sound shear waves
Quick Change Shearwave Transducers Wedges - NDT Mart Threaded quick change wedge for use with QCR, QCG and PQC transducers Wedge beam shear wave contact probe Axial and circumferential ID or OD profiling available
Sonatest Transducer Catalogue 2023_4 Jan 2024_low res (FINAL) (002). pdf Therefore a transducer with a beam inspection surface and may well propagate a surface wave The beam angles that are possible are determined by Snell’s Law which relates the beam in the transducer to the relative sound velocities in the transducer and the test material Snell’s Law is given by the formula result