Some aircrafts structural part such as engine mount and frame are now built with titanium casting. This material
is very difficult to inspect because of its large grain structure. The usual inspection methods are X-ray and
ultrasounds, however they present some limitations.
The use of ultrasound phased arrays brought a breakthrough in the inspection of casting by providing a much better
detectability than the conventional methods.
Typical inspection requirement
• Finding and characterizing inclusions
• Covering casting part volume completely
• Flexible enough to fit various shapes
• Portable to perform inspections in-service or in-production Defects detected
• Ceramic shell as small as 0.031 in. at a 1-in depth
• Tungsten carbide as small as 0.031 in at a 1-in. depth Description of the solution
• Phased array probe steering the beam from –30°to 30°LW
• Merged top and side views
• 10 and 5 MHz linear phased array probe Description of the inspection system
• Focus 32:32 or more
• Dynamic Depth Focusing option
• Linear phased array probe
• Manual or automated X-Y scanner Parts to inspect
• Engine mount
• Frame
• Thickness: 1 to 6 inches Method of inspection
The phased array probe steers the beam continuously between –30°to 30°LW with an angular resolution of 1 degree. It
allows the detection of orientated inclusions. Dynamic Depth Focusing is applied to keep the beam focused over the
depth range. The probe scans a X-Y surface and data is merged together to create a top-side view of the casting part.
Analysis is performed.
Advantages
• Better detectability than X-ray (The smallest defect detected by X-ray is 0.065 in; by UT phased arrays, it is
0.031 in.)
• Versatility
• Fast and easy to use
Detection of ceramic schells. Merged top- and side-views display.
Manual X-Y scanner and phased array probe.
FOCUS phased array acquisition unit.
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