[Picture: Type 293]

"The most stable probe to deploy, using three point contact. Produces the most uniform field over the largest area and should be used whenever access allows"

Bottom face is fitted with stainless steel feet and replaceable if worn. Sensors are protected by a high wear resistance ceramic disc and replaceable brass location plate.

[Picture: Type 292]

"This probe gives good access into tight spaces, under rat holes etc."

These allow inspection of tight-access areas, allowing difficult geometries to be inspected from various approach angles.

Sensors are protected by a high wear resistance ceramic probe nose.

[Picture: Type 305]

"Similar to Mini Probes but with smaller sensor coils. Gives greater sensitivity to small cracks"

These probes allow tight-access inspection and are specifically designed to locate shallow/small defects.

Sensors are protected by a high wear resistance ceramic probe nose.

[Picture: Type 303]

"This probe gives good access into ground areas and tight geometries"

These probes allow the bottom of toe burr ground areas to be inspected. They are also useful for various tight geometries and corners.

Sensors are protected by a high wear resistance stainless steel covered probe nose.

"This array performs fast wide area inspection with software that allows differentiation between defects and features"

This probe is designed to span large areas, typically inspecting across a region or a geometric profile. Software allows visualisation of plan views of an inspection area using colour contour plots to gauge defect density and location.

This array probes features full position feedback using a rotary encoder with sprung wheel, providing precise defect location and sizing detail.

Array probes can be manufactured to suit requirements, providing a 'fit' for a distinct geometry or inspection path, for example propulsor blades, ships propellers, shafts etc.

Typically 8 rows of sensors and a Y Field capability provide an excellent analysis of potentially defective areas.

"The probe is simply placed in a series of overlapping positions around the weld enabling deployment by workclass ROV's"

Welds can be inspected in a series of pick and place operations, avoiding the need for sophisticated weld tracking. The system can be deployed by virtually any workclass ROV fitted with a good quality manipulator.