- since 1996 -
High-performance Linear Phased Array Probes
Available to order from stock in a range of 5MHz – 7.5MHz and from 16 to 64 elements. Designed w
ith piezo-composite elements, Phoenix phased array probes provide high-resolution imaging to maximise sensitivity; accurate ultrasonic detection and sizing of defects in welds; and effective corrosion mapping. Housed in a rugged stainless steel case for on-site industrial NDT applications.
NDTkit RT, TESTIA's Digital Radiography software The NDTkit product line software for X-ray analysi
s. NDTkit RT is a software benefiting from the Ultis kernel which is dedicated to radiographic image analysis. It offers a set of tools and filtering processes to assist RT operators in finding relevant flaws.
nanoVoxel series has nano-scale resolution upto 500nm by using high voltage X-ray source (from 80-
300 kV) with micro/nano focal spot and highly sensitive flat panel detectors and unique Optical coupling detector.
Extended Range Variable Wall® Piping Calibration Blocks for Longseam Inspection
This set of two blocks has been specially designed for situations where ultrasonic examination tak
es place circumferentially or “around the curve” for applications such as inspection of longseam welds in piping and vessels. Jointly designed by PH Tool and Holloway NDT, the blocks feature side-drilled hole reflectors positioned within novel compound-curves, each with multiple thickness steps. The unique design results in a light and compact form factor, with the largest block weighing just over 15 lbs and spanning just 16 ¾”. Coverage is provided for nominal pipe sizes from 6” to 10” in the small block and 12” to a whopping 56” in the large block. The compound OD curves and multiple wall thicknesses actually exceed ASME requirements, providing exceptional signal response and measurement accuracy. Properly managing beam divergence off the ID and stabilizing beam skew due to probe rocking is essential to maintaining a consistent calibration when inspecting lengthwise on curved surfaces.