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超声缺陷探测辅导

5.2 角度声束检测

While straight beam techniques can be highly effective at finding laminar flaws, they are not effective when testing many common welds, where discontinuities are typically not oriented parallel to the surface of the part. The combination of weld geometry, the orientation of flaws, and the presence of the weld crown or bead require inspection from the side of the weld using a beam generated at an angle. Angle beam testing is by far the most commonly used technique in ultrasonic flaw detection.

Angle beam probes consist of a transducer and a wedge, which may be separate parts or built into a single housing. They use the principle of refraction and mode conversion at a boundary to produce refracted shear or longitudinal waves in a test piece as shown below.

Angle Beam Inspection

Most commonly used angle beam probes generate a refracted shear wave at standardized angles of 45, 60, or 70 degrees in the test material. The incident angle necessary to produce a desired refracted angle is based on material sound velocities and is calculated from Snell’s Law through the equation below.

Angle Beam Inspection

In the typical case of a plastic or epoxy wedge coupled to steel, low incident angles will generate both longitudinal and shear wave beam components, and specialized longitudinal wave angle beam wedges do exist. However at commonly used inspection angles only a primary shear wave will be generated, since the L-wave solution to the equation would exceed 90 degrees, which is not possible.

Angle Beam Inspection

In typical inspections the sound beam will travel at the generated angle down to the bottom of the test piece and then reflect upward at the same angle. Moving the probe back and forth causes the sound beam to sweep across the full height of a weld. This scanning motion enables inspection of the entire weld volume and detection of discontinuities both at the fusion lines and within the weld body.

Angle Beam InspectionAngle Beam Inspection
Angle Beam InspectionAngle Beam Inspection

As in the case of straight beam testing, in angle beam testing the operator looks for reflections corresponding to discontinuities. During initial setup the operator must note any echoes that originate from weld bead or other geometric structures. Additional echoes appearing within the zone representing the weld would correspond to a lack of fusion, cracking, porosity, or other discontinuities whose type, depth, and size can be determined through further analysis.

In the example below, the sound beam passes through a good weld without reflecting back, and no significant indications are seen on the screen. A discontinuity within the weld zone, however, causes a strong reflection with the zone of interest marked by the red gate.

Angle Beam InspectionAngle Beam Inspection
Typical delay line and immersion transducer setup procedureTypical delay line and immersion transducer setup procedure


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